National Institute on Disability and Rehabilitation Research-Disability and Rehabilitation Research Projects and Centers Program-Disability Rehabilitation Research Projects (DRRPs), Rehabilitation Research and Training Centers (RRTCs), and Rehabilitation Engineering Research Centers (RERCs), 50516-50541 [E7-17199]
Download as PDF
50516
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
DEPARTMENT OF EDUCATION
National Institute on Disability and
Rehabilitation Research—Disability
and Rehabilitation Research Projects
and Centers Program—Disability
Rehabilitation Research Projects
(DRRPs), Rehabilitation Research and
Training Centers (RRTCs), and
Rehabilitation Engineering Research
Centers (RERCs)
Office of Special Education and
Rehabilitative Services, Department of
Education.
ACTION: Notice of proposed priorities for
DRRPs, RRTCs, and RERCs.
pwalker on PROD1PC71 with NOTICES2
AGENCY:
SUMMARY: The Assistant Secretary for
Special Education and Rehabilitative
Services proposes certain funding
priorities for the Disability and
Rehabilitation Research Projects and
Centers Program administered by the
National Institute on Disability and
Rehabilitation Research (NIDRR).
Specifically, this notice proposes 10
priorities for DRRPs, 11 priorities for
RRTCs, and 6 priorities for RERCs. The
Assistant Secretary may use these
priorities for competitions in fiscal year
(FY) 2008 and later years. We take this
action to focus research attention on
areas of national need. We intend these
priorities to improve rehabilitation
services and outcomes for individuals
with disabilities.
DATES: We must receive your comments
on or before October 1, 2007.
ADDRESSES: Address all comments about
these proposed priorities to Donna
Nangle, U.S. Department of Education,
400 Maryland Avenue, SW., Room 6029,
Potomac Center Plaza, Washington, DC
20204–2700. If you prefer to send your
comments through the Internet, use the
following address:
donna.nangle@ed.gov.
You must include the term ‘‘Proposed
Priorities for DRRPs, RRTCs, and
RERCs’’ and the priority title in the
subject line of your electronic message.
FOR FURTHER INFORMATION CONTACT:
Donna Nangle. Telephone: (202) 245–
7462.
If you use a telecommunications
device for the deaf (TDD), you may call
the Federal Relay Service (FRS) at 1–
800–877–8339.
Individuals with disabilities may
obtain this document in an alternative
format (e.g., Braille, large print,
audiotape, or computer diskette) on
request to the contact person listed
under FOR FURTHER INFORMATION
CONTACT.
This
notice of proposed priorities is in
SUPPLEMENTARY INFORMATION:
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
concert with President George W.
Bush’s New Freedom Initiative (NFI)
and NIDRR’s Final Long-Range Plan for
FY 2005–2009 (Plan). The NFI can be
accessed on the Internet at the following
site: https://www.whitehouse.gov/
infocus/newfreedom.
The Plan, which was published in the
Federal Register on February 15, 2006
(71 FR 8165), can be accessed on the
Internet at the following site: https://
www.ed.gov/about/offices/list/osers/
nidrr/policy.html.
Through the implementation of the
NFI and the Plan, NIDRR seeks to: (1)
Improve the quality and utility of
disability and rehabilitation research;
(2) foster an exchange of expertise,
information, and training to facilitate
the advancement of knowledge and
understanding of the unique needs of
traditionally underserved populations;
(3) determine best strategies and
programs to improve rehabilitation
outcomes for underserved populations;
(4) identify research gaps; (5) identify
mechanisms of integrating research and
practice; and (6) disseminate findings.
One of the specific goals established
in the Plan is for NIDRR to publish all
of its proposed priorities, and following
public comment, final priorities,
annually, on a combined basis. Under
this approach, NIDRR’s constituents can
submit comments at one time rather
than at different times throughout the
year, and NIDRR can move toward a
fixed schedule for competitions and
more efficient grant-making operations.
This notice proposes priorities that
NIDRR intends to use for DRRP, RRTC,
and RERC competitions in FY 2008 and
possibly later years. However, nothing
precludes NIDRR from publishing
additional priorities, if needed.
Furthermore, NIDRR is under no
obligation to make an award for each of
these priorities. The decision to make an
award will be based on the quality of
applications received and available
funding.
NIDRR also intends to publish at least
one additional separate notice of
proposed priority for an additional
DRRP that would focus on traditionally
underserved populations, as required
under section 21 of the Rehabilitation
Act of 1973, as amended. Moreover, for
FY 2008 competitions using priorities
that already have been established and
for which publication of a notice of
proposed priority is unnecessary (e.g.,
competitions for Field-Initiated Projects,
Advanced Rehabilitation Research
Training Projects, Fellowships, and
Small Business Innovation Research
Projects), NIDRR has published or will
publish notices inviting applications.
More information on these other
PO 00000
Frm 00002
Fmt 4701
Sfmt 4703
projects and programs that NIDRR
intends to fund in FY 2008 can be found
on the Internet at the following site:
https://www.ed.gov/fund/grant/apply/
nidrr/priority-matrix.html.
Invitation To Comment
We invite you to submit comments
regarding these proposed priorities. To
ensure that your comments have
maximum effect in developing the
notice of final priorities, we urge you to
identify clearly the specific proposed
priority or topic that each comment
addresses.
We invite you to assist us in
complying with the specific
requirements of Executive Order 12866
and its overall requirement of reducing
regulatory burden that might result from
these proposed priorities. Please let us
know of any further opportunities we
should take to reduce potential costs or
increase potential benefits while
preserving the effective and efficient
administration of the program.
During and after the comment period,
you may inspect all public comments
about these proposed priorities in room
6030, 550 12th Street, SW., Potomac
Center Plaza, Washington, DC, between
the hours of 8:30 a.m. and 4 p.m.,
Eastern time, Monday through Friday of
each week except Federal holidays.
Assistance to Individuals With
Disabilities in Reviewing the
Rulemaking Record
On request, we will supply an
appropriate aid, such as a reader or
print magnifier, to an individual with a
disability who needs assistance to
review the comments or other
documents in the public rulemaking
record for these proposed priorities. If
you want to schedule an appointment
for this type of aid, please contact the
person listed under FOR FURTHER
INFORMATION CONTACT.
We will announce the final priorities
in one or more notices in the Federal
Register. We will determine the final
priorities after considering responses to
this notice and other information
available to the Department. This notice
does not preclude us from proposing or
using additional priorities, subject to
meeting applicable rulemaking
requirements.
Note: This notice does not solicit
applications. In any year in which we choose
to use these proposed priorities, we invite
applications through a notice in the Federal
Register. When inviting applications we
designate the priorities as absolute,
competitive preference, or invitational.
The effect of each type of priority
follows:
E:\FR\FM\31AUN2.SGM
31AUN2
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
pwalker on PROD1PC71 with NOTICES2
Absolute priority: Under an absolute
priority, we consider only applications
that meet the priority (34 CFR
75.105(c)(3)).
Competitive preference priority:
Under a competitive preference priority,
we give competitive preference to an
application by either (1) Awarding
additional points, depending on how
well or the extent to which the
application meets the competitive
preference priority (34 CFR
75.105(c)(2)(i)); or (2) selecting an
application that meets the competitive
preference priority over an application
of comparable merit that does not meet
the priority (34 CFR 75.105(c)(2)(ii)).
Invitational priority: Under an
invitational priority, we are particularly
interested in applications that meet the
invitational priority. However, we do
not give an application that meets the
invitational priority a competitive or
absolute preference over other
applications (34 CFR 75.105(c)(1)).
Priorities
In this notice, we are proposing 10
priorities for DRRPs, 11 priorities for
RRTCs, and 6 priorities for RERCs.
For DRRPs, the proposed priorities
are:
• Priority 1—Health Care
Coordination for Individuals with
Physical Disabilities.
• Priority 2—Assistive Technology
(AT) Reuse.
• Priority 3—Health and Health Care
Disparities Among Individuals with
Disabilities.
• Priority 4—Traumatic Brain Injury
Model Systems (TBIMS) Centers
Collaborative Research Projects.
• Priority 5—Classification and
Measurement of Medical Rehabilitation
Interventions.
• Priority 6—Vocational
Rehabilitation Service Models for
Individuals with Autism Spectrum
Disorders.
• Priority 7—Center on Knowledge
Translation for Assistive Technology
Transfer.
• Priority 8—Asset Accumulation and
Economic Self-Sufficiency for
Individuals with Disabilities.
• Priority 9—Technology Transfer in
Resource-Limited Environments.
• Priority 10—Research and
Knowledge Translation Center for
Individuals with Disabilities and Their
Families.
For RRTCs, the proposed priorities
are:
• Priority 11—General Rehabilitation
Research and Training Center (RRTC)
Requirements.
• Priority 12—Enhancing the Health
and Wellness of Individuals with
Neuromuscular Diseases.
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
• Priority 13—Enhancing the Health
and Wellness of Persons with Arthritis.
• Priority 14—Stroke Rehabilitation.
• Priority 15—Personal Assistance
Services (PAS) in the 21st Century.
• Priority 16—Participation and
Community Living for Individuals with
Psychiatric Disabilities.
• Priority 17—Multiple Sclerosis:
Interventions to Maximize Health, WellBeing, and Participation.
• Priority 18—Aging with Physical
Disability: Reducing Secondary
Conditions and Enhancing Health and
Participation.
• Priority 19—Disability Statistics
and Demographics.
• Priority 20—Health and Function
Across the Lifespan of Individuals with
Intellectual and Developmental
Disabilities.
• Priority 21—Participation and
Community Living for Individuals with
Intellectual and Developmental
Disabilities.
For RERCs, the proposed priorities
are:
• Priority 22—RERC for Hearing
Enhancement.
• Priority 23—RERC for Accessible
Public Transportation.
• Priority 24—RERC for Prosthetics
and Orthotics.
• Priority 25—RERC for
Communication Enhancement.
• Priority 26—RERC for Universal
Interface and Information Technology
Access.
• Priority 27—RERC for Wheeled
Mobility.
Disability and Rehabilitation Research
Projects (DRRP) Program
The purpose of the DRRP program is
to plan and conduct research,
demonstration projects, training, and
related activities to develop methods,
procedures, and rehabilitation
technologies that maximize the full
inclusion and integration into society,
employment, independent living, family
support, and economic and social selfsufficiency of individuals with
disabilities, especially individuals with
the most severe disabilities, and to
improve the effectiveness of services
authorized under the Rehabilitation Act
of 1973, as amended. DRRPs carry out
one or more of the following types of
activities, as specified and defined in 34
CFR 350.13 through 350.19: research,
development, demonstration, training,
dissemination, utilization, and technical
assistance.
An applicant for assistance under this
program must demonstrate in its
application how it will address, in
whole or in part, the needs of
individuals with disabilities from
PO 00000
Frm 00003
Fmt 4701
Sfmt 4703
50517
minority backgrounds (34 CFR
350.40(a)). The approaches an applicant
may take to meet this requirement are
found in 34 CFR 350.40(b). In addition,
NIDRR intends to require all DRRP
applicants to meet the requirements of
the General Disability and
Rehabilitation Research Projects (DRRP)
Requirements priority that it published
in a notice of final priorities in the
Federal Register on April 28, 2006 (71
FR 25472).
Additional information on the DRRP
program can be found at: https://
www.ed.gov/rschstat/research/pubs/resprogram.html#DRRP.
Proposed Priorities
Priority 1—Health Care Coordination for
Individuals With Physical Disabilities
Background
Individuals with disabilities use a
disproportional share of health care
services in the United States (DeJong et
al., 2002). The Centers for Medicare and
Medicaid Services (CMS) programs
recognize this trend and try to control
its economic consequences by enrolling
individuals with disabilities in managed
care programs in increasing numbers
(Palsbo & Mastal, 2006). A small but
growing number of Medicaid managed
care plans are designed specifically for
individuals with disabilities. These
plans feature intensive care
coordination services that integrate the
complex health and long-term care
needs of individuals with disabilities
(Palsbo & Mastal, 2006; Master, 2003).
Pursuant to the Medicare Prescription
Drug, Improvement, and Modernization
Act of 2003, CMS also contracts with a
growing number of Medicare health
plans to provide health care
coordination and services for Medicare
beneficiaries who have severe or
disabling chronic conditions (Peters,
2005).
Health care coordination is an
increasingly important component of
high-quality health care for individuals
with disabilities (Cheng et al., 2004;
Lawthers et al., 2003; Kroll, 2003). On
average, individuals with disabilities
have more complex and multi-faceted
health care needs than individuals
without disabilities. For example,
individuals with disabilities often
require the involvement of multiple
medical and ancillary providers,
including long-term care providers
(DeJong et al., 2002). Individuals with
disabilities also often find it difficult to
navigate the complex, fragmented health
and long-term care service systems that
are critical to maintaining their health,
functional abilities, and independence
in the community. Recognizing the
E:\FR\FM\31AUN2.SGM
31AUN2
50518
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
pwalker on PROD1PC71 with NOTICES2
importance of integration and
coordination of health and long-term
care services, NIDRR states that
‘‘individuals with disabilities should
have access to an integrated continuum
of health care services, including
primary care and health maintenance
services, specialty care, medical
rehabilitation, long-term care, and
health promotion programs’’ (NIDRR
Long-Range Plan, 2005–2009). Toward
this goal, NIDRR seeks to sponsor
rigorous research to assess the outcomes
associated with managed health care
coordination programs for individuals
with disabilities.
A number of small pilot studies
suggest an association between
enrollment in managed health care
coordination programs for individuals
with disabilities and positive outcomes
such as increased satisfaction with
health care services, greater access to a
wide variety of health and long-term
care services, and decreased utilization
of costly emergency and hospital-based
services (Surpin, 2007; Palsbo, Mastal, &
O’Donnell, 2006; Master, 2003). More
systematic, peer-reviewed research is
required to determine the extent to
which these health care coordination
programs for individuals with
disabilities relate to improvements in
both the health and health care
experiences of their clients and to cost
savings for public financing
mechanisms.
References
Cheng, E., Siderow, A., Swarztrauber, K.,
Eisa, M., Lee, M., & Vickrey, B. (2004).
Development of Quality of Care
Indicators for Parkinson’s Disease.
Movement Disorders. 19(2): 136–150.
DeJong, G., Palsbo, S., Beatty, P., Jones, G.,
Kroll, T., & Neri, M. (2002). The
Organization and Financing of Health
Services for People With Disabilities.
Milbank Quarterly. 80(2): 261–301.
Kroll, T. (2003). Towards Improving Health
Care Delivery for People With Physical
Disabilities: Findings From Focus
Groups with Health Care Consumers in
Minnesota. Managed Care Quarterly.
11(4): 8–14.
Lawthers, A., Pransky, G., Peterson, L., &
Himmelstein, J. (2003). Rethinking
Quality in the Context of Persons With
Disability. International Journal for
Quality in Health Care. 15(4): 279–281.
Master, R., Simon, L., & Goldfield, N. (2003).
Commonwealth Care Alliance. A New
Approach to Coordinated Care for the
Chronically Ill and Frail Elderly That
Organizationally Integrates Consumer
Involvement. Journal of Ambulatory Care
Management. 26(4): 355–361.
National Institute on Disability and
Rehabilitation Research. Notice of Final
Long Range Plan for Fiscal Years 2005–
2009. Pages: 8166–8200. https://
www.ed.gov/about/offices/list/osers/
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
nidrr/policy.html.
Palsbo, S. & Mastal, M. (2006). Disability Care
Coordination Care Organizations: The
Experience of Medicaid Managed Care
Programs for People With Disabilities.
Center for Health Care Strategies.
Resource Paper. https://www.chcs.org/
usr_doc/DCCOs.pdf.
Palsbo, S., Mastal, M., & O’Donnell, L. (2006).
Disability Care Coordination
Organizations: Improving Health and
Function in People With Disabilities.
Lippincotts Case Management. 11(5):
255–264.
Peters, C.P. (2005). Medicare Advantage
SNPs: A New Opportunity for Integrated
Care? Washington DC: National Health
Policy Forum. Issue Brief # 808.
Surpin, R. (2007). Independence Care
System: A Disability Care Coordination
Organization in New York City. Journal
of Ambulatory Care Management. 30(1):
52–63.
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Disability
Rehabilitation Research Project (DRRP)
on Health Care Coordination for
Individuals with Disabilities. The
purpose of this priority is to conduct
research on the outcomes of Medicare or
Medicaid managed health care
coordination programs for individuals
with disabilities. Under this priority, the
DRRP must be designed to contribute to
the following outcomes:
(a) New knowledge about the extent to
which enrollment in health care
coordination programs enhances access
to health care for individuals with
disabilities. The DRRP must contribute
to this outcome by conducting research
on, and evaluating, one or more existing
Medicaid- or Medicare-funded health
care coordination programs for
individuals with disabilities.
(b) New knowledge about the health
outcomes associated with participation
in health care coordination programs for
individuals with disabilities. The DRRP
must contribute to this outcome by
conducting research on, and evaluating,
one or more existing Medicaid- or
Medicare-funded health care
coordination programs for individuals
with disabilities.
(c) New knowledge about potential
Medicaid or Medicare cost savings that
are associated with health care
coordination efforts for individuals with
disabilities. The DRRP must contribute
to this outcome by conducting research
on, and evaluating, one or more existing
Medicaid- or Medicare-funded health
care coordination programs for
individuals with disabilities.
In addition, the DRRP must work with
the NIDRR Project Officer to coordinate
its research efforts with the Centers for
PO 00000
Frm 00004
Fmt 4701
Sfmt 4703
Medicare and Medicaid Services—
Office of Research, Development, and
Information.
Priority 2—Assistive Technology (AT)
Reuse
Background
Reuse programs are emerging as one
potential solution to providing more
assistive technology (AT) to individuals
with disabilities at lower costs (Pass It
On Center). For example, the
Rehabilitation Services Administration
(RSA) of the U.S. Department of
Education has funded model
demonstration projects to establish or
expand statewide AT device
reutilization programs. Device reuse
programs, such as exchange programs
and reassignment programs, facilitate
the transfer of previously-used AT from
one consumer to another. Each of these
programs has distinct features and
benefits. An exchange program assists in
connecting users to transfer AT directly
among themselves. Reassignment
programs, on the other hand, accept
used AT, sanitize it, identify
appropriate users, and redistribute the
AT following sanitization and matching.
One advantage of reuse programs, in
general, is that they provide consumers
with access to AT devices at reasonably
lower costs. AT equipment provided
through these programs also leads to an
increased capacity for community living
and participation by individuals with
disabilities. AT reuse programs meet
varied needs and circumstances
surrounding consumer access to AT,
such as access on a temporary basis, or
access for trial purposes to assess the
benefit and effectiveness of a device for
a consumer’s use.
A number of barriers and obstacles
limit the utility of AT reuse programs.
A recent study found that individuals
with disabilities or other family
members, not third parties, most
frequently pay for commonly used AT
devices, special adaptations, and
environmental accommodations
(Carlson & Ehrlich, 2006). Consumer
access to AT and compensation for AT
is often limited by conflicting eligibility
requirements of current policies
regulating the provision of AT. In
addition, third-party payment
restrictions frequently minimize the
extent to which Medicare, Medicaid,
private insurance, and vocational
rehabilitation can assist with AT costs.
Increased awareness of the potential
costs and benefits associated with AT
reuse programs can positively impact
their use, and in addition, has
implications for third-party payment
coverage for reused AT. Furthermore,
E:\FR\FM\31AUN2.SGM
31AUN2
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
AT reuse programs do not have the
benefit of a national coordinated system
to assist in sustaining or expanding
programs. Nor do AT reuse programs
have the benefit of research that has
identified methods, models, and
measures for enhancing program
effectiveness and improving consumer
outcomes.
At the present time, there is little data
available to guide the management,
enhancement, or expansion of these
programs. Few research studies have
been conducted to inform the AT reuse
field of validated methods, models, and
measures that lead to improved program
and consumer outcomes. This field
needs new knowledge regarding factors
that influence success of AT
reutilization programs, e.g., program
design, staffing, training, funding
sources, and use of collaborative
partnerships in operating AT reuse
programs. Specifically, more research is
needed to examine how these and other
factors affect program outcomes and to
identify the most effective measures
available to assess program quality as
well as the costs and benefits of the
program. Numerous reuse programs in
the United States could benefit from
research in this area.
References
Carlson, D. & Ehrlich, N. (2006). Sources of
payment for assistive technology:
Findings from a national survey of
persons with disabilities. Assistive
Technology, 18(1), 77–86.
pwalker on PROD1PC71 with NOTICES2
Pass It On Center. https://
www.passitoncenter.org.
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Disability
Rehabilitation Research Project (DRRP)
on Assistive Technology (AT) Reuse for
individuals with disabilities. The
purpose of this priority is to support
research that will identify methods,
systems, policies, and collaborative
strategies to improve reutilization and
recycling of AT. Under this priority, the
DRRP must be designed to contribute to
the following outcomes:
(a) Enhanced understanding of how
third-party payments for purchases of
AT affect AT reuse programs. The DRRP
must contribute to this outcome by
conducting an analysis of current policy
and consumer eligibility requirements
and by generating relevant
recommendations related to AT reuse.
(b) New knowledge that positively
affects the establishment, expansion,
and maintenance of AT reuse programs.
The DRRP must contribute to this
outcome by conducting research studies
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
validating effective methods and models
for conducting AT reutilization
activities (e.g., program design;
alternative recycling methods;
partnerships; program marketing
strategies; and recruitment, retention,
and training of AT reuse staff).
(c) Improved methods and strategies
for assessing the costs and benefits,
including cost-savings, of AT reuse
programs. The DRRP must contribute to
this outcome by identifying, developing,
and testing appropriate models to be
used at the program level that can help
inform third-party payers of the costs
and benefits associated with AT reuse
programs.
(d) Improved understanding of AT
reuse outcomes for individuals with
disabilities. The DRRP must contribute
to this outcome by conducting studies
that assess and inform the AT field
about the impact of acquiring AT
through reuse programs.
(e) Improved collaboration and use of
research findings through effective
coordination within the network of
relevant NIDRR RRTCs, Rehabilitation
Engineering Research Centers, DRRPs,
and federally funded programs, such as
the Rehabilitation Services
Administration (RSA) AT State grants,
the National AT Device Reutilization
Coordination and Technical Assistance
Center, and grantees under RSA’s Model
Demonstrations for AT Device
Reutilization program.
Priority 3—Health and Health Care
Disparities Among Individuals With
Disabilities
Background
In 2005, the U.S. Surgeon General
released a ‘‘Call to Action to Improve
the Health and Wellness of Persons
With Disabilities’’ that delineated a
series of strategies to optimize the
health and wellness of individuals with
disabilities, (U.S. Department of Health
and Human Services (HHS), 2005). The
Surgeon General proposed these
strategies in light of the growing body of
research literature indicating that
individuals with disabilities are, on
average, less likely than those without
disabilities to report positive health
(Krahn, Hammond, & Turner, 2006;
Hough, 1999) and less likely to receive
recommended health care services
(Kroll et al., 2006; McCarthy et al., 2006;
Jones & Beatty, 2003).
While the body of research that
examines health disparities between
individuals with and without
disabilities is expanding, few studies
have examined the health and health
care disparities within the diverse
population of individuals with
PO 00000
Frm 00005
Fmt 4701
Sfmt 4703
50519
disabilities in the United States. Health
disparities recently have been defined
as ‘‘observed clinically and statistically
significant differences in health
outcomes or health care use between
socially distinct vulnerable and less
vulnerable populations’’ (Kilbourne et
al., 2006). The broad population of 52
million individuals with disabilities
(HHS, 2005) is heterogeneous in terms
of a number of factors that may be
related to increased vulnerability for
poor health care access and poor health.
These factors include, but are not
limited to, disabling condition category
(i.e., mental illness, sensory, physical,
cognitive, or combinations thereof),
disability severity, age, gender, race,
ethnicity, socioeconomic status,
education level, urban/rural status,
health insurance payer type (Medicare,
Medicaid, private insurance), provider
type, and other social, personal, and
environmental characteristics.
NIDRR recognizes that ‘‘while health
services researchers are increasingly
attuned to racial and ethnic disparities
in health care, less attention and fewer
resources are devoted to disabilityrelated disparities and the innovations
in policy and practice that might reduce
them’’ (NIDRR Long Range Plan, 2005).
The Health and Function chapter of the
NIDRR Long Range Plan promotes
research on the health and health care
experiences of the wide diversity of
individuals with disabilities (NIDRR
Long Range Plan, 2005).
Given the wide diversity of
individuals with disabilities and the
limited information available about
existing health care access and outcome
disparities that exist within this
population, research is needed to
improve our understanding about the
factors that contribute to health
disparities. New knowledge about these
factors can be used to create targeted
policies, programs, and interventions
that promote health and wellness among
the individuals with disabilities who are
most vulnerable and most likely to
demonstrate health outcomes
traditionally attributed to disparate
treatment or health care access
difficulties.
References
Hough, J. (1999). Disability and Health: A
National Public Health Agenda. In
Simeonsson, R.J., McDevitt, L.N. (Eds.).
Issues in Disability and Health. The Role
of Secondary Conditions and Quality of
Life. Chapel Hill NC: University of North
Carolina Press.
Jones, G. & Beatty, P. (2003). Disparities in
Preventive Service Use Amongst
Working-Age Adults With Mobility
Limitations. In Altman, B., Barnartt, S.,
Hendershot, G., & Larson, S. (Eds.)
E:\FR\FM\31AUN2.SGM
31AUN2
50520
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
Research in Social Science and Disability
1 Volume 3: Using Survey Data To Study
Disability: Results From the National
Health Interview Survey on Disability.
Pages: 109–130. Oxford, UK: Elsevier.
Kilbourne, A., Switzer, G., Hyman, K.,
Crowley-Matoka, M., & Fine, M. (2006).
Advancing Health Disparities Research
Within the Health Care System: A
Conceptual Framework. American
Journal of Public Health. 96(12): 2113–
2121.
Krahn, G., Hammond, L., & Turner, A. (2006).
A Cascade of Disparities: Health and
Health Care Access for People With
Intellectual Disabilities. Mental
Retardation and Developmental
Disabilities Research Reviews. 12(1): 70–
82.
Kroll, T., Jones, G., Kehn, M., & Neri, M.
(2006). Barriers and Strategies Affecting
the Utilization of Primary Preventive
Services for People With Physical
Disabilities: A Qualitative Inquiry.
Health and Social Care in the
Community. 14(4): 284–293.
McCarthy, E., Ngo, L., Roetzheim, R.,
Chirikos, T., Li, D., Drews, R., & Iezzoni,
L. (2006). Disparities in Breast Cancer
Treatment and Survival for Women With
Disabilities. Annals of Internal Medicine.
145(9): 637–645.
National Institute on Disability and
Rehabilitation Research. Notice of Final
Long Range Plan for Fiscal Years 2005–
2009. Pages: 8166–8200. https://
www.ed.gov/about/offices/list/osers/
nidrr/policy.html.
pwalker on PROD1PC71 with NOTICES2
U.S. Department of Health and
Human Services (2005). The Surgeon
General’s Call to Action To Improve the
Health and Wellness of Persons With
Disabilities. U.S. Department of Health
and Human Services, Office of the
Surgeon General.
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Disability
Rehabilitation Research Project (DRRP)
on Health and Health Care Disparities
Among Individuals With Disabilities.
The purpose of this priority is to build
a knowledge base about health care
access and health outcomes among the
diverse population of individuals with
disabilities. Under this priority, the
DRRP must be designed to contribute to
the following outcomes:
(a) A foundation of available
knowledge about health disparities
among subpopulations of individuals
with disabilities. The DRRP must
contribute to this outcome by
conducting a review and synthesis of
existing research on health and health
care access among individuals with
disabilities or subgroups of individuals
with disabilities. The DRRP must then
use this review and synthesis to inform
the subsequent research and evaluation
efforts of the DRRP.
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
(b) New knowledge about systemlevel factors that are associated with the
health and health care access of
individuals with disabilities. The DRRP
must contribute to this outcome by
conducting research on the extent to
which the health and health care access
of individuals with disabilities are
related to system-level factors that
include, but are not limited to, rural or
urban status, as well as characteristics of
their health care insurance or health
care providers.
(c) New knowledge about the
individual-level characteristics of
individuals with disabilities that are
associated with their health and access
to health care. The DRRP must
contribute to this outcome by
conducting research on the extent to
which the health and health care access
of individuals with disabilities are
related to their disabling condition
categories (mental illness, sensory,
physical, cognitive, or combinations
thereof), disability severity, age, gender,
race, ethnicity, socioeconomic status,
education level, or other individuallevel characteristics.
(d) Improved policies, programs, or
interventions that promote the health
and health care access of the
subpopulations of individuals with
disabilities who are least likely to
receive recommended health care
services. The DRRP must contribute to
this outcome by applying knowledge
derived from research conducted under
paragraphs (a), (b), and (c) of this
priority.
In addition, the DRRP must
collaborate with the Rehabilitation
Research and Training Center on Health
and Wellness, and other projects as
identified through consultation with the
NIDRR project officer.
Priority 4—Traumatic Brain Injury
Model Systems (TBIMS) Centers
Collaborative Research Projects
Background
The Centers for Disease Control and
Prevention (CDC) report that at least 1.4
million individuals sustain a traumatic
brain injury (TBI) in the United States
each year (Langlois, Rutland-Brown, &
Thomas, 2004). Of these, approximately
50,000 die, 235,000 are hospitalized,
and 1.1 million are treated and released
from emergency departments. These
estimates do not include those
individuals who sustained a TBI and
did not seek medical care, or who were
seen only in private doctors’ offices. The
three leading causes of TBI are motor
vehicle/traffic collisions, falls, and
assaults.
PO 00000
Frm 00006
Fmt 4701
Sfmt 4703
CDC reports that each year an
estimated 80,000 to 90,000 Americans
sustain TBI resulting in permanent
disability. At least 5.3 million
Americans have a long-term or lifelong
need for help to perform activities of
daily living as a result of TBI (Thurman
et al., 1999). The nature and extent of
disability resulting from TBI depend on
several factors, such as the severity and
location of the injury, the length of
impaired consciousness, the age and
general health of the patient, and the
intensity of rehabilitation services (Cifu
et al., 2003; Dikmen et al., 2003;
Sarajuuri et al., 2005). Common clinical
sequelae of TBI include problems with
cognition, sensory processing,
communication, and behavioral or
mental health. Some TBI survivors also
can develop long-term medical
complications, such as Parkinson’s
disease and other motor problems,
Alzheimer’s disease, and post-traumatic
dementia (National Institute of
Neurological Disorders and Stroke,
2002).
NIDRR created the TBI Model
Systems (TBIMS) program in 1987 to
demonstrate the benefits of a
coordinated system of neurotrauma and
rehabilitation care and to conduct
innovative research on all aspects of
care for those who sustain TBI. The
mission of the TBIMS program is to
improve the lives of persons who
experience TBI and their families by
creating and disseminating new
knowledge about the natural course of
TBI and rehabilitation treatment and
outcomes for individuals who sustain
TBI. NIDRR currently funds 14 TBIMS
centers throughout the United States.
(Additional information on the TBIMS
centers can be found at https://
www.naric.com). These centers provide
comprehensive systems of brain injury
care to individuals who sustain TBI.
They also conduct TBI research,
including clinical research and the
analyses of standardized data in
collaboration with other related
projects. The research activities of the
TBIMS centers include participation in
joint research module projects, which
range from pilot research to more
extensive studies. TBIMS centers also
are required to contribute information
on common data elements to a
centralized TBIMS database.
(Additional information on the TBIMS
database can be found at https://
www.tbindsc.org.) To date, TBIMS
centers have contributed 6157 cases to
the TBIMS database, with followup data
extending to 15 years post injury.
In 2003 NIDRR leveraged the capacity
of the TBIMS program by funding largescale collaborative research projects.
E:\FR\FM\31AUN2.SGM
31AUN2
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
These collaborative projects included a
randomized controlled trial of the
effectiveness of amantadine
hydrochloride in promoting recovery of
functioning following TBI, and a study
of the effect of scheduled telephone
intervention on outcomes after TBI.
Through the funding of this priority, the
TBIMS program will continue to serve
as a platform for multi-site research that
contributes to evidence-based
rehabilitation interventions and
improves the lives of individuals with
TBI.
References
Cifu, D.X., Kreutzer, J.S., KolakowskyHayner, S.A., Marwitz, J.H., & Englander,
J. (2003). The Relationship Between
Therapy Intensity and Rehabilitative
Outcomes After Traumatic Brain Injury:
A Multicenter Analysis. Archives of
Physical Medicine and Rehabilitation,
84(10): 1441–8.
Dikmen, S.S., Machamer, J.E., Powell, J.M., &
Temkin, N.R. (2003). Outcome 3 to 5
Years After Moderate to Severe
Traumatic Brain Injury. Archives of
Physical Medicine and Rehabilitation,
84(10): 1449–57.
Langlois, J.A., Rutland-Brown, W., & Thomas,
K.E. (2004). Traumatic Brain Injury in
the United States: Emergency
Department Visits, Hospitalizations, and
Deaths. Atlanta, GA: Centers for Disease
Control and Prevention, National Center
for Injury Prevention and Control.
National Institute of Neurological Disorders
and Stroke (NINDS). (2002, February).
Traumatic Brain Injury: Hope Through
Research. Bethesda, MD: National
Institute of Health. NIH Publication No.
02–2478. See: https://www.ninds.nih.gov/
disorders/tbi/detail_tbi.htm.
Sarajuuri, J.M., Kaipio, M.L., Koskinen, S.K.,
Niemela, M.R., Servo, A.R., & Vilkki, J.S.
(2005). Outcome of a Comprehensive
Neurorehabilitation Program for Patients
with Traumatic Brain Injury. Archives of
Physical Medicine and Rehabilitation,
86(12): 2296–302.
Thurman, D.J., Alverson, C.A., Dunn, K.A.,
Guerrero, J., & Sniezek, J.E. (1999).
Traumatic Brain Injury in the United
States: A Public Health Perspective.
Journal of Head Trauma Rehabilitation,
14(6): 602–615.
pwalker on PROD1PC71 with NOTICES2
Proposed Priority
The Assistant Secretary proposes a
priority for Disability and Rehabilitation
Research Projects (DRRPs) on Traumatic
Brain Injury Model Systems (TBIMS)
Collaborative Projects. Each DRRP
under this priority must conduct
research that contributes to evidencebased rehabilitation interventions,
including, but not limited to, medical,
psychological, vocational, and social
interventions for the purpose of
improving the lives of individuals with
traumatic brain injury (TBI).
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
To be eligible under this priority, an
applicant must be currently funded
under NIDRR’s TBIMS program.
Under this priority, each DRRP must
be designed to contribute to the
following outcomes:
(a) Increased utilization of the TBIMS
capacity. The DRRP must contribute to
this outcome by collaborating with three
or more of the NIDRR-funded TBIMS
centers (for a minimum of four TBIMS
sites).
Note: Applicants under this priority may
propose to include other TBI research sites
that are not participating in a NIDRR-funded
TBIMS program in their collaborative
research projects.
(b) Improved long-term outcomes of
individuals with TBI. The DRRP must
contribute to this outcome by using
clearly identified research designs to
conduct collaborative research on
questions of significance to TBI
rehabilitation. The DRRP’s research
must focus on one or more specific
domains identified in NIDRR’s Final
Long-Range Plan for FY 2005–2009,
including health and function,
participation and community living,
technology, and employment, and must
be designed to ensure that the research
study has appropriate research
hypotheses and methods to generate
reliable and valid findings.
In addition, the DRRP must address
the following requirements:
• Demonstrate the capacity to carry
out collaborative, multi-site research
projects, including the ability to
coordinate research among centers;
maintain data quality; and adhere to
research protocols, confidentiality
requirements, and data safety
requirements.
• Coordinate with the NIDRR-funded
Model Systems Knowledge Translation
Center to provide scientific results and
information for dissemination to clinical
and consumer audiences. (Additional
information on this center can be found
at https://uwctds.washington.edu/
projects/msktc.asp).
Priority 5—Classification and
Measurement of Medical Rehabilitation
Interventions
Background
One of the central objectives of
NIDRR-funded medical rehabilitation
research is to ‘‘increase the number of
interventions demonstrated to be
efficacious in improving health and
function outcomes in targeted disability
populations’’ (NIDRR Long Range Plan,
2005–2009). To demonstrate that a
treatment is efficacious, both the
intervention and the intended outcome
PO 00000
Frm 00007
Fmt 4701
Sfmt 4703
50521
must be operationally defined and
measured in a rigorous way.
NIDRR-sponsored researchers have
been leaders in the development of
widely used outcomes measures that are
employed to help determine the impact
of medical rehabilitation on the health
and function of individuals with
disabilities, as well as the impact of
medical rehabilitation on the
participation of these individuals in
society. While the ability to measure
outcomes of medical rehabilitation
continues to mature through recent and
ongoing NIDRR-sponsored research, the
ability to classify, measure, and
replicate specific interventions within
the complex medical rehabilitation
process is still in its infancy. A recent
analysis of published research on
medical rehabilitation interventions
indicates that nearly two-thirds of
articles fail to describe adequately the
rehabilitative treatment being evaluated
(Dijkers et al., 2002).
Medical rehabilitation has been
referred to as a ‘‘black box’’ because the
wide-range of interventions that take
place within rehabilitation settings have
not been classified or measured in a
systematic way (DeJong et al., 2004).
Determining the components of the
medical rehabilitation process that
positively impact outcome (i.e., the
‘‘active ingredients’’) is challenging.
This is due to the simultaneous delivery
of inter-related treatments by a variety
of allied health professionals to
individuals with unique needs.
Development of a treatment taxonomy
(i.e., a systematic method for classifying
and measuring rehabilitation
interventions) will promote the quality
and rigor of rehabilitation research and
will foster the transfer of evidence-based
treatments into clinical practice (Whyte,
2003).
In the past, NIDRR has sponsored
rehabilitation outcomes research that
can serve as a basis for future efforts to
develop a taxonomy of medical
rehabilitation interventions. For
instance, a recent NIDRR-funded stroke
outcomes research project involved the
creation of point-of-contact forms for
recording the delivery of rehabilitation
interventions provided by physical
therapists (Latham et al., 2005),
occupational therapists (Richards et al.,
2005), speech-language pathologists
(Hatfield et al., 2005), and other allied
health professionals. A major strength of
this project was that it relied upon the
rich experiences and expertise of frontline rehabilitation clinicians to create
detailed forms for collecting data about
specific interventions. A limitation of
this bottom-up, inductive approach to
classifying and measuring rehabilitation
E:\FR\FM\31AUN2.SGM
31AUN2
50522
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
pwalker on PROD1PC71 with NOTICES2
interventions is its general lack of a
theoretical foundation. A theoretical
foundation would have the benefit of
guiding the collection and analysis of
treatment and outcomes data, and
increase the field’s ability to see how
seemingly disparate treatments fit
together into a coherent framework for
rehabilitation practice and functional
recovery (DeJong et al., 2004). Efforts to
develop rehabilitation intervention
taxonomies must be guided by treatment
theories in order to increase the
likelihood that ‘‘active ingredients’’ of
rehabilitative care can be isolated and
replicated (Whyte, 2006).
Other clinical fields, such as nursing
(Dochterman & Bulechek, 2004), have
been actively developing intervention
taxonomies to guide clinical service
delivery, rigorous clinical
documentation, and effectiveness
research in a wide range of nursing subfields. Literature describing intervention
taxonomies and their development in
other fields are likely to be instructive
to those engaged in the development of
a medical rehabilitation treatment
classification system.
References
DeJong, G., Horn, S., Gassaway, J., Slavin, M.,
& Dijkers, M. (2004). Toward a
Taxonomy of Rehabilitation
Interventions: Using an Inductive
Approach to Examine the ‘‘Black Box’’ of
Rehabilitation. Archives of Physical
Medicine and Rehabilitation. 85(4): 678–
686.
Dijkers, M., Kropp, G., Esper, R., Yavuzer, G.,
Cullen, N., & Bakdalieh, Y. (2002).
Quality of Intervention Research
Reporting in Medical Rehabilitation
Journals. American Journal of Physical
Medicine and Rehabilitation. 81(1): 21–
33.
Dochterman, J. & Bulechek, G. (Eds.). Nursing
Interventions Classification (NIC) (4th
ed.). St. Louis, MO: Mosby.
Hatfield, B., Millet, D., Coles, J., Gassaway, J.,
Conroy, B., & Smout, R. (2005).
Characterizing Speech and Language
Pathology Outcomes in Stroke
Rehabilitation. Archives of Physical
Medicine and Rehabilitation. 86(S2):
S61–S72.
Latham, K., Jette, D., Slavin, M., Richards, L.,
Procino, A., Smout, R., & Horn, S. (2005).
Physical Therapy During Stroke
Rehabilitation for People With Different
Walking Abilities. Archives of Physical
Medicine and Rehabilitation. 86(S2):
S41–-S50.
National Institute on Disability and
Rehabilitation Research (NIDRR) Final
Long Range Plan, 2005–2009. Page 8187.
https://www.ed.gov/about/offices/list/
osers/nidrr/policy. html.
Richards, L., Latham, N., Jette, D., Rosenberg,
L., Smout, R., & DeJong, G. (2005).
Characterizing Occupational Therapy in
Stroke Rehabilitation. Archives of
Physical Medicine and Rehabilitation.
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
86(S2): S51–S60.
Whyte, J. (2006). Using Treatment Theories to
Refine the Designs of Brain Injury
Rehabilitation Treatment Effectiveness
Studies. Journal of Head Trauma
Rehabilitation. 21(2): 99–106.
Whyte, J. (2003). It’s More Than a Black Box;
It’s a Russian Doll: Defining
Rehabilitation Treatments. American
Journal of Physical Medicine and
Rehabilitation. 82(8): 639–652.
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Disability
Rehabilitation Research Project (DRRP)
on Classification and Measurement of
Medical Rehabilitation Interventions.
This DRRP must conduct research and
development toward the creation of a
taxonomy of medical rehabilitation
interventions. Under this priority, the
DRRP must be designed to contribute to
the following outcomes:
(a) Enhanced research capacity and
improved clinical practice in the field of
medical rehabilitation. The DRRP must
contribute to this outcome by
conducting research to develop
validated methods for the systematic
classification of the broad range of
medical rehabilitation interventions
delivered by rehabilitation physicians,
physical therapists, occupational
therapists, speech language pathologists,
rehabilitation nurses, rehabilitation
psychologists, and other allied health
professionals.
(b) Enhanced research capacity and
improved clinical practice in the field of
medical rehabilitation through the
application of one or more treatment
theories to guide the development of a
rehabilitation treatment taxonomy.
(c) Collaboration with relevant
NIDRR-sponsored projects, such as the
Rehabilitation Research Training Center
on Measuring Rehabilitation Outcomes,
and other projects as identified through
consultation with the NIDRR project
officer.
Priority 6—Vocational Rehabilitation
Service Models for Individuals With
Autism Spectrum Disorders
Background
In recent years, policy makers,
educators, and rehabilitation service
providers have become increasingly
aware of the critical shortage of services
available to youth and young adults
with Autism Spectrum Disorders
(ASDs), including vocational
rehabilitation services (Dew & Alan,
2007). ASDs are a group of lifelong
developmental disabilities that include
autistic disorder, pervasive
developmental disorder-not otherwise
PO 00000
Frm 00008
Fmt 4701
Sfmt 4703
specified, and Asperger disorder. ASDs
are characterized by impairments in
social interactions and verbal and
nonverbal communication, as well as
the presence of repetitive or unusual
behaviors and interests (Centers for
Disease Control and Prevention (CDC),
2006a). The severity of impairments can
range from mild to severe. Recent
prevalence estimates vary, indicating
that ASD occurs in 2 to 6 individuals
per 1000 individuals, that is, between 1
in 500 and 1 in 166 children have an
ASD. ASDs are four times more likely to
occur in boys than in girls. The CDC
(2006b) reported that ASDs are more
prevalent than certain other childhood
disabilities, such as cerebral palsy (2.8
per 1000 children), hearing loss (1.1 per
1000 children), vision impairment (0.9
per 1000 children), and Downs
syndrome (1.25 per 1000 children)
(CDC, 2006b). ASDs usually are
diagnosed before the age of three, and
the effects are lifelong, although
impairments may be attenuated with
intervention.
Like other transition-age youth with
disabilities, students diagnosed with
ASD who have turned 22 or graduated
from high school with a regular diploma
generally no longer have a legal right to
appropriate transition services, such as
life skills training, transportation,
vocational training, and individual and
family counseling, under the
Individuals with Disabilities Education
Act (IDEA) (National Longitudinal
Transition Study-2 (NLTS–2) 2005).
Large proportions of youth with ASD
rated low on self-care tasks, functional
cognitive skills, social skills and
communication when compared to the
entire population of youth with
disabilities served under IDEA (NLTS–
2, 2005). Many families find that the
services provided to individuals
diagnosed with ASD are not tailored to
the needs of the children and young
adults in this population. Families also
report that locating, accessing, and
financing needed services for these
young adults requires navigating
complicated public and private medical,
social, and vocational rehabilitation
service systems (American Society of
Autism, 2001).
In 2005, fewer than 2,000 individuals
with ASDs received vocational
rehabilitation services. Of these
individuals, only 1,200 were
successfully employed (Dew & Alan,
2007). Of the youth with ASDs who
were out of school one year or more,
only 1 in 5 reported receiving services
from a vocational rehabilitation State
agency. These youth with ASDs also
were less likely to be employed than
youth with other disabilities, and the
E:\FR\FM\31AUN2.SGM
31AUN2
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
employed youth with ASDs worked
fewer hours than employed youth with
other disabilities (NLTS–2, 2005).
Increased vocational and rehabilitation
interventions are needed if these
individuals are to experience vocational
and economic success equal to the
success of transition-age youth without
ASD.
pwalker on PROD1PC71 with NOTICES2
References
Autism Society of America. (2001). Position
Paper on The National Crisis in Adult
Services for Individuals with Autism A
Call to Action. See: https://
www.autismservicescenter.org/
articles2.htm.
Centers for Disease Control and Prevention.
(2006a). Fact sheet: CDC Autism
research. See: https://www.cdc.gov/
ncbddd/autism/index.htm.
Centers for Disease Control and Prevention.
(2006b). How common are Autism
Spectrum Disorders (ASD)? See: https://
www.cdc.gov/ncbddd/autism/
asd_common.htm.
Dew, D. & Alan, G. (2007). Rehabilitation of
Individuals With Autism Spectrum
Disorders (Institute on Rehabilitation
Issues Monograph No 32). Washington,
DC: The George Washington University,
Center for Rehabilitation Counseling
Research and Education.
U.S. Department of Education, Institute of
Education Sciences, National Center for
Special Education Research. (2005).
National Longitudinal Transition Study2 (NLTS2), Wave 3 parent interview and
youth interview/survey. (This
information has not yet been published
on the NLTS–2 Web site. It will be
published sometime early next year).
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Disability
Rehabilitation Research Project (DRRP)
on Vocational Rehabilitation Service
Models for Individuals with Autism
Spectrum Disorders (ASDs). This DRRP
must conduct research on vocational
rehabilitation (VR) service models for
individuals with ASDs that contributes
to evidence-based rehabilitation
interventions to improve the lives of
individuals with ASDs. Under this
priority, the DRRP must be designed to
contribute to one or both of the
following outcomes:
(a) Improved vocational and
postsecondary education outcomes of
individuals with ASDs. The DRRP must
contribute to this outcome by
developing or testing VR intervention
strategies for individuals with ASDs, the
measures needed to assess the
effectiveness of VR intervention
strategies for individuals with ASDs, or
both.
(b) Improved long-term vocational
and postsecondary education services
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
for individuals with ASDs. The DRRP
must contribute to this outcome by
analyzing the factors affecting the
organization and delivery of these
services to individuals with ASDs and
by recommending changes that could
improve these service delivery
mechanisms.
Priority 7—Center on Knowledge
Translation for Assistive Technology
Transfer
Background
While billions of dollars are expended
on technology-related research and
development efforts in the United States
each year (Association of University
Technology Managers, 2005), very little
of this funding is applied toward
development of technology to improve
the lives of individuals with disabilities
(National Council on Disability, 2000).
NIDRR addresses this critical niche with
two grant programs that are dedicated to
the application of technology and the
development of products and devices
that are intended to improve the lives of
individuals with disabilities: The
Rehabilitation Engineering Research
Centers (RERC) and Small Business
Innovation Research (SBIR) programs.
For 30 years, the RERC program and
its predecessor, the Rehabilitation
Engineering Centers program, have been
a major force in the development of
technology to enhance independent
function and societal participation for
individuals with disabilities. For over a
decade, NIDRR’s SBIR program has
encouraged small businesses to explore
their technological potential by
supporting proof of concept
investigations of prototype devices
intended to benefit individuals with
disabilities.
In addition to supporting the research
and development of products and
devices that are designed to improve the
lives of individuals with disabilities
through its RERC and SBIR programs,
NIDRR is also expected, under section
200(3)(D) of the Rehabilitation Act of
1973, as amended, to promote the
transfer of rehabilitation technology to
individuals with disabilities through
research and demonstration projects.
The term ‘‘technology transfer’’ has
been defined as the process by which
university-developed technologies are
commercialized (Powers, 2004) and,
more specifically, as the ‘‘transmittal of
developed ideas, products, and
techniques from a research environment
to one of practical application by
consumers’’ (National Council on
Disability, 2000). The processes
involved in technology transfer are
understood to be an important
PO 00000
Frm 00009
Fmt 4701
Sfmt 4703
50523
component of knowledge translation
(KT), which refers to the steps between
the generation of knowledge and its
application to produce beneficial
outcomes for society (Canadian
Institutes for Health Research, 2005).
Technology transfer for individuals
with disabilities is a specific subset of
the current technology transfer effort.
Technology transfer for products
intended for use by individuals with
disabilities is often difficult because of
the small markets served by any one
particular assistive technology product
or device. While several government
and private agencies are working to
promote technology transfer for larger
and more lucrative markets, very few
Federal efforts focus on the transfer of
technology for use by individuals with
disabilities (National Council on
Disability, 2000). Not only is NIDRR
mandated to fill this gap, but it is well
positioned to do so, given the research
and development work supported and
the scientist-market networks
established through its RERC and SBIR
programs.
Research from the broader technology
transfer field provides limited guidance
on how to improve technology transfer
for individuals with disabilities.
Although some researchers have
examined the processes involved in
technology transfer as well as methods
for evaluating transfer efforts such as
best practice analyses (e.g., Erich &
Gutterman, 2003; Leahy, 2003;
Tornatzky, 2001), research in this area is
still limited. For example, best practices
analyses have generally involved
qualitative case descriptions rather than
systematic tests of the models, methods,
and measures used for successful
technology transfer. A strong need
remains for the systematic review of
existing models, methods, and measures
as well as for the identification of best
practices in technology transfer. Once
identified, best practices for technology
transfer must be adopted by key
stakeholders. Training and technical
assistance have been named as
important methods for promoting the
adoption of best practices and, thus, for
facilitating the success of the
commercialization process (Canadian
Institutes of Health Research, 2005).
Current Federal investments are
attempting to meet the need for
technology transfer research generally,
but little research has been devoted to
examining the potential relevance,
applicability, or usability of general
technology transfer research within the
specific subfield of assistive technology
for individuals with disabilities
(National Council on Disability, 2000).
E:\FR\FM\31AUN2.SGM
31AUN2
50524
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
The need for further technology
transfer research is especially acute
among those who are developing and
attempting to make technologies,
products, and devices for individuals
with disabilities.
pwalker on PROD1PC71 with NOTICES2
References
Association of University Technology
Managers (2005). AUTM U.S. Licensing
Survey: FY 2005. Northbrook, IL. See:
https://www.autm.net/surveys/
dsp.surveyDetail.cfm?pid=33.
Canadian Institutes of Health Research.
(2005). CIHR’s commercialization and
innovation strategy. Ottawa, Canada.
See: https://www.cihr-irsc.gc.ca/e/
30162.html.
Erlich, J.N. & Gutterman, A. (2003). A
practical view of strategies for improving
Federal technology transfer. Journal of
Technology Transfer, 28, 215–226.
Leahy, J.A. (2003). Paths to market for supply
push technology transfer. Journal of
Technology Transfer, 28, 305–317.
National Council on Disability. (2000).
Federal Policy Barriers to Assistive
Technology. See: https://www.ncd.gov/
newsroom/publications/2000/
assisttechnology.htm.
Powers, J.B. (2004). R&D funding sources and
university technology transfer: What is
stimulating universities to be more
entrepreneurial? Research in Higher
Education, 45(1), 1–23.
Tornatzky, L.G. (2001). Benchmarking
university-industry technology transfer:
A six year retrospective. Journal of
Technology Transfer, 26, 269–277.
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Disability and
Rehabilitation Research Project to serve
as the Center on Knowledge Translation
for Assistive Technology Transfer
(Center). The Center must conduct
rigorous research, development,
technical assistance, dissemination, and
utilization activities to increase
successful knowledge translation (KT)
for technology transfer of products
developed by NIDRR-funded technology
grantees.
The Center must partner with key
stakeholders such as trade and
professional associations, and relevant
industry representatives, and focus on
no more than three of the following
technology areas, which are referenced
in the NIDRR Long-Range Plan, 2005–
2009: Sensory, Communication,
Informational Technology and
Telecommunications, and
Environmental Access.
Under this priority, the Center must
be designed to contribute to the
following outcomes:
(a) Improved understanding of
barriers to and facilitators of successful
KT for technology transfer in different
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
industries related to NIDRR’s
technology portfolio. The Center must
contribute to this outcome by—
(1) Identifying and compiling existing
research-based knowledge about barriers
to and facilitators of successful KT for
technology transfer; and
(2) Conducting research on barriers to
and facilitators of successful KT for
technology transfer related to the
technology areas on which the Center
focuses.
(b) Advanced knowledge of best
practices in KT for technology transfer.
The Center must contribute to this
outcome by—
(1) Identifying existing models,
methods, or measures of KT for
technology transfer in different
industries related to NIDRR’s
technology portfolio;
(2) Further developing and testing
models, methods, or measures in the
technology areas on which the Center
focuses; and
(3) Establishing best technology
transfer practices that can be used to
effectively implement and evaluate the
success of technology transfer activities
in the technology areas on which the
Center focuses.
(c) Increased utilization of the
validated best practices for KT for
technology transfer. The Center must
contribute to this outcome by providing
training and technical assistance to
NIDRR-funded technology grantees to
implement and evaluate the success of
such practices.
Priority 8—Asset Accumulation and
Economic Self-Sufficiency for
Individuals With Disabilities
Background
The availability of savings and assets
are important to all individuals because
they promote and allow investment in
long-term goals such as education and
home ownership. Savings and assets are
also associated with increased
household stability, community
involvement, political participation, and
self-sufficiency in the general
population (Abt Associates, 2000).
For individuals with disabilities, the
availability of financial savings and
assets facilitates progress toward a wide
range of community participation goals.
Financial savings and assets can
facilitate this progress in numerous
ways, such as making it possible to
purchase needed assistive technology
(AT), make down payments on a home,
modify one’s home for greater
accessibility, start a business, or pay for
college (Putnam et al., 2005). Little is
known about asset accumulation
patterns among individuals with
PO 00000
Frm 00010
Fmt 4701
Sfmt 4703
disabilities. One of the few relevant
studies comparing individuals with and
without disabilities indicates that
individuals with musculoskeletal
conditions and related health
difficulties have fewer assets than those
without musculoskeletal conditions
(Yelin, 1997). Because working-age
adults with disabilities are more likely
than their non-disabled counterparts to
live in poverty (Weathers, 2005) and are
less likely to be employed (U.S. Census
Bureau, 2002), they have less
opportunity to accumulate savings and
other assets. However, being lowincome does not preclude savings and
asset accumulation (Beverly, 1997).
Research is required to generate new
knowledge about both the barriers to,
and facilitators of, savings and asset
accumulation for individuals with
disabilities. These barriers and
facilitators are likely to exist at both the
individual and system levels. At the
individual level, the following factors
have been shown to be associated with
asset levels in the general population:
income level, education level,
employment status, marital status,
motivation to save, racial and ethnic
status, age, financial literacy, and
maintenance of a bank account, among
others (Putnam et al., 2005; Beverly,
1997) . In addition, factors associated
with asset accumulation that are
specific to individuals with disabilities
may include type of disabling condition,
disability severity, and age-of-onset.
In addition to the individual-level
factors described in the previous
paragraph, there are also a number of
barriers to, and facilitators of, asset
accumulation at the system level. For
example, individuals with disabilities
who participate in Federal income
support programs are placed under
strict asset limits that preclude
substantial accumulation of savings
(Stapleton et al., 2006) . Low
employment rates among individuals
with disabilities are associated with
reduced access to institutionalized
saving mechanisms such as pensions or
payroll deductions for retirement
savings accounts (Beverly, 1997) . Suboptimal access to bank buildings and
general financial services for
individuals with disabilities may also
reduce asset accumulation opportunities
(Putnam et al., 2005).
New knowledge about both the
barriers to, and facilitators of, asset
accumulation must be applied to the
development of targeted interventions
or to tailoring currently existing asset
accumulation interventions to the
specific needs and circumstances of
individuals with disabilities. Financial
literacy education, for example, could
E:\FR\FM\31AUN2.SGM
31AUN2
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
pwalker on PROD1PC71 with NOTICES2
be tailored to address the needs and
circumstances of individuals with
specific disabling conditions (Cook,
2007). Individual Development
Accounts (i.e., special bank accounts
that help individuals save money for a
specific purpose such as their education
or the purchase of a first home) could
be established for savings goals that are
particularly relevant to individuals with
disabilities, such as offsetting out-ofpocket expenses for health care or
personal assistance services, or
purchasing AT or home modifications.
References
Abt Associates (2000). Evaluation of Asset
Accumulation Initiatives: Final Report.
See: https://abtassociates.com/reports/
9031.pdf.
Beverly, S. (1997). How Can The Poor Save?
Theory and Evidence on Saving in Low
Income Households. Center for Social
Development. Washington University,
St. Louis, MO. Working Paper # 97–3.
See: https://gwbweb.wustl.edu/csd/
Publications/1997/wp97–3.pdf.
Cook, J. (2007). Asset Accumulation Through
Individual Development Accounts in
Chicago. E-Newsletter published by the
National Rehabilitation Research and
Training Center on Psychiatric
Disability, at the University of Illinois at
Chicago. See: https://www.wid.org/
publications/?page=equity_
test&sub=200702&topic=pm.
Putnam, M., Sherraden, M., Edwards, K.,
Porterfield, S., Wittenburg, D., Holden,
K., & Welch-Saleeby, P. (2005). Building
Financial Bridges to Economic
Development and Community
Integration: Recommendations for a
Research Agenda on Asset Development
for People With Disabilities. Journal of
Social Work in Disability &
Rehabilitation. 4(3): 61–86.
Stapleton, D., O’Day, B., Livermore, G., &
Imparato, A. (2006). Dismantling the
Poverty Trap. Disability Policy for the
21st Century. Milbank Quarterly. 84(4):
701–732.
U.S. Census Bureau (2002). Survey of Income
and Program Participation. Table 5:
Disability Status, Employment, and
Annual Earnings: Individuals 21 to 64
Years Old: 2002. See: https://
www.census.gov/hhes/www/disability/
sipp/disable02.html.
Weathers, R. (2005). A Guide to Disability
Statistics From The American
Community Survey. Disability Statistics
User Guide Series. Employment and
Disability Institute. Cornell University.
Yelin, E. (1997). The Earnings, Income, and
Assets of Persons aged 51–61 With and
Without Musculoskeletal Conditions.
The Journal of Rheumatology. 24(10):
2024–2030.
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Disability and
Rehabilitation Research Project (DRRP)
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
on Asset Accumulation and Economic
Self-Sufficiency for Individuals with
Disabilities. This DRRP must create new
research-based knowledge to promote
asset accumulation among individuals
with disabilities. Under this priority, the
DRRP must be designed to contribute to
the following outcomes:
(a) New knowledge of both the
barriers to, and facilitators of, asset
accumulation and economic selfsufficiency for low- to moderate-income
individuals with disabilities and their
families. This DRRP must contribute to
this outcome by focusing on the
individual-level characteristics that may
affect savings and asset accumulation,
as well as system-level factors that
include policies or programs designed
to create system-level incentives or
disincentives to the accumulation of
assets.
(b) Improved asset accumulation
outcomes and economic self-sufficiency
among individuals with disabilities. The
DRRP must contribute to this outcome
by developing and testing no more than
two interventions that capitalize on the
facilitators and address the barriers to
asset accumulation described in
paragraph (a) of this priority. These
interventions may include the tailoring
of existing asset accumulation
interventions to the specific needs and
circumstances of individuals with
disabilities.
Priority 9—Technology Transfer in
Resource-Limited Environments
Background
Growth in the number of older people
in the populations of the United States,
Europe, Asia, and elsewhere suggest
that there will be a steady increase in
demand over the next several decades
for a broad spectrum of assistive
technology (AT) devices from hearing
aids and canes to advanced wheelchairs,
specially equipped automobiles, and
personal communication devices.
However, despite an increasing demand
for AT, many individuals with
disabilities still cannot access the AT
devices they need (Bureau of Industry
and Security, 2003).
Moreover, in developing countries,
environmental constraints often affect
the usability of many AT products. For
example, products that are developed to
enhance mobility may be affected by the
lack of paved roads. Lack of
maintenance and repair facilities also
may affect distribution to, and usability
of, technology by individuals with
disabilities in many parts of the world.
Distance and limited distribution
networks tend to inhibit access to AT
equipment and services. These
PO 00000
Frm 00011
Fmt 4701
Sfmt 4703
50525
constraints are particularly significant
in rural areas, where farm accidents
account for many disabilities, and in
countries where landmine injuries affect
individuals whose primary occupation
is farming (Swanson, 2007).
In the United States, the U.S.
Department of Agriculture has
recognized the needs of farmers and
ranchers with disabilities by funding the
AgriAbility project, which provides
training, technical assistance, and
information about technology and other
services through agricultural extension
services. NIDRR has also funded
research projects to examine service
delivery needs for farmers with
disabilities. While NIDRR and other
Federal agencies have funded successful
projects in this area, and although these
projects have resulted in the
development of low-tech products for
use by individuals with disabilities in
the United States and in international
settings, there is still a persistent need
to develop methods of moving new
technologies into practice in settings
where resources may be scarce.
Many barriers to implementing
knowledge translation (KT) strategies for
technology development also exist. The
three major barriers to the acquisition of
technology products in developing
countries, and certain parts of the
United States, are: lack of awareness of
their existence or how to acquire them,
lack of necessary materials to produce
them, and lack of expertise needed to
produce them locally (Jeserich, 2003a;
Jeserich, 2003b; Ripat & Booth, 2005;
Robitaille, 2003).
Several models exist to guide the
development, manufacture, and
distribution of low-cost, high-quality
products in developing countries or
economically disadvantaged areas
within the United States. Each of these
models highlights different aspects of
product development, manufacturing or
distribution processes. For example, in
the charitable model, it is common to
use regional distribution points to make
products available to those who need
them. Likewise, the workshop model
focuses on training individuals to
construct products that are needed by
individuals in their community by using
locally available resources, and the
manufacturing model requires teaching
individuals to construct products by
setting up local factories and
distributing the products regionally or
nationally. The globalization model
requires that an established company
expand into a region either by
establishing a factory or importing
products there (Pearlman et al., 2006).
None of these models, however, offers
a universal solution to the challenge of
E:\FR\FM\31AUN2.SGM
31AUN2
50526
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
designing, developing, manufacturing,
and distributing low-cost, high-quality
products to individuals in developing
countries or in economically
disadvantaged regions of the United
States. Different aspects of these models
work well under different
environmental conditions. Research is
needed to expand our understanding of
how best to foster the transfer of
technology in these settings.
pwalker on PROD1PC71 with NOTICES2
References
Canadian Institutes of Health Research
(CIHR) (2005). CIHR IRSC Innovation in
action: Knowledge translation strategy—
2004–2009. Ottawa: See https://www.cihrirsc.gc.ca/e/documents/
kt_strategy_2004–2009_e.pdf.
Jeserich, M. (2003a, January 15). Building
Appropriate Chairs for the Developing
World: Whirlwind Wheelchair
International brings access to the third
world. AT Journal, 65. See: https://
www.atnet.org/news/2003/jan03/
011501.htm.
Jeserich, M. (2003b, February 1). Cubans
make due with limited assistive
technology: Even with a more
independent culture, Cuba’s streets and
lack of resources provide barriers. AT
Journal, 66. See: https://www.atnet.org/
news/2003/feb03/020101.htm.
National Institute on Disability and
Rehabilitation Research. Notice of Final
Long Range Plan for Fiscal Years 2005–
2009. Pages: 8165–8200. https://
www.ed.gov/about/offices/list/osers/
nidrr/policy.html.
Pearlman, J., Cooper, R.A., Zipfel, E., Cooper,
R., & McCartney, M. (2006). Towards the
development of an effective technology
transfer model of wheelchairs to
developing countries. Disability and
Rehabilitation: Assistive Technology, 1
(1–2), 103–110.
Ripat, J. & Booth, A. (2005). Characteristics of
assistive technology service delivery
models: Stakeholder perspectives and
preferences. Disability and
Rehabilitation, 27(24), 1461–1470.
Robitaille, S. (2003, August 21). Assistive
tech needs a hand in DC. Business Week
Online.
Swanson, L. (1997). Canadian farmers with
disabilities. Abilities, 30, pages 50–51.
U.S. Department of Commerce, Bureau of
Industry and Security (BIS) (2003).
Technology Assessment of the U.S. Assistive
Technology Industry. Washington, DC: See:
https://www.bis.doc.gov/
DefenseIndustrialBasePrograms/OSIES/
DefMarketResearchRpts/assisttechrept/
index.htm.
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Disability
Rehabilitation Research Project (DRRP)
on Technology Transfer in ResourceLimited Environments. Under this
priority, the DRRP must be designed to
contribute to the following outcomes:
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
(a) Increased access to, and
acquisition of, high-quality, low-cost
technology products by individuals
with disabilities who need them. The
DRRP must contribute to this outcome
by conducting research to evaluate the
application of various models of
transferring technology products to
individuals with disabilities in
resource-limited environments, either in
the United States or abroad. The DRRP’s
research must examine the relationship
of factors such as type of technology,
delivery system options, socio-economic
conditions, and disability type, on
successful transfer of needed
technologies to individuals with
disabilities. NIDRR is particularly
concerned about providing technology
to support individuals engaged in
agricultural occupations due to a
significant need for AT by this
population.
(b) Increased awareness by
individuals with disabilities of highquality, low-cost technology products,
already developed or in development,
for use in resource-limited
environments. The DRRP must
contribute to this outcome by
conducting research on methods of
providing information on available
products to individuals with disabilities
and their caregivers in resource-limited
environments in the United States,
developing countries, or both. The
DRRP’s research must examine the
relationship of factors, such as literacy
rates and the availability of print,
Internet, or other communication
resources, as well as socioeconomic
factors and disability type on effective
strategies to increase awareness among
individuals with disabilities in these
areas.
Priority 10—Research and Knowledge
Translation Center for Individuals With
Disabilities and Their Families
Background
In the United States, there are
approximately 20.3 million households
in which at least one individual has a
disability. This includes households in
which at least one child under the age
of 18 has a disability and those in which
at least one adult has a disability.
NIDRR has funded research on children
with disabilities and their families (e.g.,
the Rehabilitation Research and
Training Center on Policies Affecting
Families of Children With Disabilities),
as well as on adults with disabilities
who are parents of children under the
age of 18 (e.g., the National Resource
Center for Parents with Disabilities).
The family is a critical unit of analysis
PO 00000
Frm 00012
Fmt 4701
Sfmt 4703
in both of these important research
areas.
It is necessary to understand the
experiences of individuals with
disabilities and their families as they
attempt to navigate programs and
service delivery systems that are critical
to their participation in society. The
needs and experiences of individuals
with disabilities and their families differ
based on the underlying condition and
age of the individual, as well as key
sociodemographic characteristics and
structure of the individual’s family.
High-quality, in-depth research on these
heterogeneous needs and experiences
must serve as an empirical basis for the
ongoing development, delivery, and
evaluation of targeted information
resources for families that include an
individual with a disability, whether
that individual is a child or the parent
of a child.
Individuals with disabilities and their
families could benefit from researchbased training and technical assistance
resources that are designed to help them
navigate relevant programs and service
delivery systems more effectively
(Mitchell & Sloper, 2002). These
programs and service delivery systems
include, but are not limited to,
childcare, family law, long-term care,
and health care programs and services.
Accordingly, NIDRR seeks to fund a
center that will translate existing
research-based knowledge about these
complex programs and service delivery
systems to ensure that such resources
are available to individuals with
disabilities and their families.
Additional work in this area will help
promote the achievement of one of
NIDRR’s primary goals, the successful
dissemination of research-based
knowledge and products for use by
intended target audiences, including
individuals with disabilities and their
families and caregivers (NIDRR Long
Range Plan, 2005–2009).
Research has been conducted on the
many programs and service delivery
systems that individuals with
disabilities and their families must
navigate. There is a need for translation
of this research into materials that can
be used by individuals with disabilities
and their families as they make critical
decisions and choices about the services
that are available to them. For example,
the families of children with disabilities
could benefit from translation and
widespread dissemination of peerreviewed research on child care services
(Devore & Bowers, 2006), respite and
related support services (McGill,
Papachristoforou, & Cooper, 2006), and
effectively meeting the complex health
care needs of children with disabilities
E:\FR\FM\31AUN2.SGM
31AUN2
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
pwalker on PROD1PC71 with NOTICES2
in the community (American Academy
of Pediatrics, 2005).
In addition, adults with disabilities
who are parents may come into contact
with components of the complex family
law system that often assume that
disability precludes effective parenting
(Kirshbaum & Olkin, 2002). These
components of the family law system
include statutes and case law related to
custody, adoption, and divorce.
Translation of legal research on
parenting with a disability (Odegard,
1993) may be useful to parents with
disabilities and their families. Parents
with physical disabilities also would
benefit from translation of research on
baby care adaptations (Tuleja & DeMoss,
1999), as well as research on the more
general experiences of parents with
disabilities (Wade, Mildon, & Matthews,
2007; Conley-Jung & Olkin, 2001).
Families that include one or more
individuals with disabilities must often
make decisions about an array of
options for providing and financing the
long-term services and supports that are
necessary to help the family member
live and participate in the community.
Research on the effectiveness of various
service delivery models (Hagglund,
Clark, Farmer, & Sherman, 2004;
Benjamin, Matthias, & Franke, 2000)
could be translated into information that
helps individuals with disabilities and
their families make critical long-term
care decisions.
Regardless of the age of the family
member with a disability, working
within the health care system to receive
needed services is important to
maintaining health, function, and high
levels of participation in the
community. The translation of peerreviewed research on health promotion
programs (Ravesloot, Seekins, Cahill,
Lindgren, & Nary, 2006), health care
coordination programs (Palsbo, Mastal,
& O’Donnell, 2006), and preventive care
(Smeltzer, 2006) are likely to be useful
to individuals and their families as they
make decisions about their health and
well being.
References
American Academy of Pediatrics (2005).
Clinical Report: Helping Families Raise
Children with Special Health Care Needs
at Home. Pediatrics. 115(2): 507–512.
Benjamin, A., Matthias, R., & Franke, T.
(2000). Comparing Consumer-Directed
and Agency Models For Providing
Supportive Services at Home. Health
Services Research. 35(1): 351–366.
Conley-Jung, C. & Olkin, R. (2001). Mothers
With Visual Impairments or Blindness
Raising Young Children. Journal of
Visual Impairment and Blindness. 91(1):
14–29.
Devore, S. & Bowers, B. (2006). Childcare for
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
Children With Disabilities: Families
Search for Specialized Care and
Cooperative Childcare Partnerships.
Infants & Young Children: An
Interdisciplinary Journal of Special Care
Practices. 19(3): 203–212.
Hagglund, K., Clark, M., Farmer, J., &
Sherman, A. (2004). A Comparison of
Consumer-Directed and Agency-Directed
Personal Assistance Services Programs.
Disability and Rehabilitation. 26(9): 518–
527.
Kirshbaum, M. & Olkin, R. (2002). Parents
With Physical, Systemic, or Visual
Disabilities. Sexuality and Disability.
20(1): 65–80.
Mcgill, P., Papachristoforou, E., & Cooper, V.
(2006). Support for Family Carers of
Children and Young People with
Developmental Disabilities and
Challenging Behavior. Child: Care,
Health & Development. 32(2): 159–165.
Mitchell, W. & Sloper, P. (2002). Information
that Informs Rather Than Alienates
Families With Disabled Children:
Developing a Good Model of Practice.
Health and Social Care in the
Community. 10(2): 74–81.
National Institute on Disability and
Rehabilitation Research. Notice of Final
Long Range Plan for Fiscal Years 2005–
2009. Page: 8174. https://www.ed.gov/
about/offices/list/osers/nidrr/
policy.html.
Odegard, J. (1993). The Americans With
Disabilities Act: Creating ‘‘Family
Values’’ for Physically Disabled Parents.
Law and Inequality. 11: 533–653.
Palsbo, S., Mastal, M., & O’Donnell, L. (2006).
Disability Care Coordination
Organizations: Improving Health and
Function in People With Disabilities.
Lippincott’s Case Management. 11(5):
255–264.
Ravesloot, C., Seekins, T., Cahill, T.,
Lindgren, S., & Nary, D. (2006). Health
Promotion for People With Disabilities:
Development and Evaluation of the
Living Well With a Disability Program.
Health Education Research Online.
Published on October 10, 2006. See:
https://her.oxfordjournals.org/cgi/
content/abstract/cyl114v1.
Smeltzer, S. (2006). Preventive Health
Screening For Breast and Cervical Cancer
and Osteoporosis in Women With
Physical Disabilities. Family and
Community Health. 29(1 Suppl): 35S–
43S.
Tuleja, C. & DeMoss, A. (1999). Baby Care
Assistive Technology. Technology and
Disability. 11(1,2): 71–78.
Wade, C., Milton, R., & Matthews, J. (2007).
Service Delivery to Parents With An
Intellectual Disability: Family-Centered
or Professionally Centered? Journal of
Applied Research in Intellectual
Disabilities. 20(2): 87–98.
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Disability and
Rehabilitation Research Project (DRRP)
to serve as the Research and Knowledge
Translation Center for Individuals with
PO 00000
Frm 00013
Fmt 4701
Sfmt 4703
50527
Disabilities and Their Families (Center).
The Center must conduct research on
the experiences and knowledge needs of
individuals with disabilities and their
families, and translate these findings
into training, technical assistance, and
informational resources.
The Center must focus on the
knowledge needs of families that
include a child with a disability, an
adult with a disability who is a parent
of at least one child under the age of
eighteen, or both.
Under this priority, the Center must
be designed to contribute to the
following outcomes:
(a) Increased knowledge about the
experiences and information needs of
individuals with disabilities and their
families, and how those experiences and
needs differ by variables such as
condition type, severity, and age, as
well as key characteristics of other
family members and the overall
structure of the family. The Center must
contribute to this outcome by
synthesizing existing research and
advancing the knowledge base through
the collection and analysis of data about
the experiences and knowledge needs of
families that include one or more
individuals with a disability. Through
this research and analysis, the Center
must examine the extent to which the
needs of individuals with disabilities
and their families are being met by the
programs and service systems that are
critical to their community integration
and participation (e.g., statutes and case
law related to custody, adoption, and
divorce; health care; long-term care;
assistive technology provision
programs; child care; transportation;
and a wide variety of related social
support services).
(b) Improved participation and
community integration of individuals
with disabilities. The Center must
contribute to this outcome by
developing, implementing, and
evaluating research-based training,
technical assistance, and informational
resources that are targeted to the
specific knowledge needs of individuals
with disabilities and their families, as
those needs are identified through the
research activities described in
paragraph (a) of this priority, or other
research-based knowledge.
In addition, the Center must
coordinate with relevant NIDRR
Knowledge Translation grantees to
develop and implement a method for
identifying high-quality, research-based
information for dissemination to
individuals with disabilities and their
families.
E:\FR\FM\31AUN2.SGM
31AUN2
50528
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
Rehabilitation Research and Training
Centers (RRTCs)
RRTCs conduct coordinated and
integrated advanced programs of
research targeted toward the production
of new knowledge to improve
rehabilitation methodology and service
delivery systems, alleviate or stabilize
disability conditions, or promote
maximum social and economic
independence for individuals with
disabilities. Additional information on
the RRTC program can be found at:
https://www.ed.gov/rschstat/research/
pubs/res-program.html#RRTC.
Statutory and Regulatory Requirements
of RRTCs
RRTCs must—
• Carry out coordinated advanced
programs of rehabilitation research;
• Provide training, including
graduate, pre-service, and in-service
training, to help rehabilitation
personnel more effectively provide
rehabilitation services to individuals
with disabilities;
• Provide technical assistance to
individuals with disabilities, their
representatives, providers, and other
interested parties;
• Demonstrate in their applications
how they will address, in whole or in
part, the needs of individuals with
disabilities from minority backgrounds;
• Disseminate informational materials
to individuals with disabilities, their
representatives, providers, and other
interested parties; and
• Serve as centers of national
excellence in rehabilitation research for
individuals with disabilities, their
representatives, providers, and other
interested parties.
Priority 11—General Rehabilitation
Research and Training Center (RRTC)
Requirements
pwalker on PROD1PC71 with NOTICES2
Background
NIDRR proposes the following
General RRTC Requirements priority
because it believes that the effectiveness
of any RRTC depends on, among other
things, how well the RRTC coordinates
its research efforts with the research of
other NIDRR-funded projects, involves
individuals with disabilities in its
activities, and identifies specific
anticipated outcomes that are linked to
its objectives in applying for RRTC
funding. Accordingly, NIDRR intends to
use proposed Priority 11—General
RRTC Requirements in conjunction with
each of the other RRTC priorities
proposed in this notice (i.e., priorities
12 through 21).
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
Proposed Priority
To meet this priority, the
Rehabilitation Research and Training
Center (RRTC) must—
(a) Conduct a state-of-the-science
conference on its respective area of
research by the fourth year of the grant
cycle and publish a comprehensive
report on the final outcomes of the
conference by the end of the fourth year
of the grant cycle. This conference must
include materials from the experts
internal and external to the RRTC;
(b) Coordinate on research projects of
mutual interest with relevant NIDRRfunded projects as identified through
consultation with the NIDRR project
officer;
(c) Involve individuals with
disabilities in planning and
implementing its research, training, and
dissemination activities, and in
evaluating the RRTC; and
(d) Coordinate with the appropriate
NIDRR-funded Knowledge Translation
Centers and professional and consumer
organizations, to provide scientific
results and information for
dissemination to policymakers, service
providers, researchers, and others.
Priority 12—Enhancing the Health and
Wellness of Persons With
Neuromuscular Diseases
Background
The term ‘‘muscular dystrophy’’ is
used to refer to the more than 40
neuromuscular diseases (NMDs). The
Muscular Dystrophies are currently
classified in nine types (Myotonic,
Duchenne, Becker, Limb-Girdle,
Facioscapulohumeral, Congenital,
Oculopharyngeal, Distal and EmeryDreifuss), and some of these are
categorized into further subtypes. NMDs
affect individuals of both sexes at every
stage of life: infancy, adolescence,
adulthood, and old age. Their effects
range from gradual loss of mobility and
independence to severe disability and
death. The most common NMD is
Duchenne/Becker Muscular Dystrophy
(DBMD). DBMD affects approximately 1
out of every 3,500 to 5,000 boys (Single
Gene Disorders and Disability, 2006).
Individuals with NMDs face health,
psychosocial, and economic problems
that negatively affect their overall health
and well-being, as reported at the
National Institutes of Health (NIH)
‘‘Burden of Muscle Disease Workshop,’’
hosted by the National Institute of
Arthritis and Musculoskeletal and Skin
Diseases (NIAMS) and the NIH Office of
Rare Diseases on January 26–27, 2005
(Burden of Muscle Disease Workshop,
2005). Neuromuscular diseases may
contribute to significant health
PO 00000
Frm 00014
Fmt 4701
Sfmt 4703
problems because of muscle weakness,
difficulty with exercise, fatigue, poor
endurance, weight problems (e.g.,
obesity), pulmonary complications and
associated sleep disorders. Research is
needed to generate new knowledge
about secondary conditions of NMD that
are not as well understood—such as
pain, reduced bone content, and
metabolic complications.
Exercise and nutrition have been a
focus of rehabilitation interventions
because they are key factors in
successful participation in health and
wellness programs for individuals with
NMDs (Kilmer, 2002). However, due to
the loss of functional muscle tissue from
NMDs, few studies have examined the
response of individuals with NMDs to
cardiopulmonary testing and aerobic
exercise training (McDonald, 2005). In
order to facilitate high-quality research
in the areas of cardiopulmonary testing
and aerobic exercise training, the
capacity to measure physical,
functional, and social participation
outcomes must be enhanced (Muscular
Dystrophy Coordinating Committee
Report, 2005) through the development
of new outcome measures, or validation
of existing measures in populations of
individuals with NMD.
References
Burden of Muscle Disease Workshop Report,
January 26–27, 2005. See: https://
www.niams.nih.gov/ne/reports/sci_wrk/
2005/muscle_dis_summ.htm
Kilmer, D.D. (2002). Response to Aerobic
Exercise Training in Humans with
Neuromuscular Disease. American
Journal of Physical Medicine and
Rehabilitation, 81(11 Suppl), S148–50.
McDonald, C. (2005). Childhood
Neurological Disorders: crosscutting
breakout session. Neurorehabilitation
and Neural Repair, 10(1), S91.
Muscular Dystrophy Coordinating Committee
Report Scientific Working Group, August
16–17, 2005. See: https://
www.ninds.nih.gov/find_people/groups/
mdcc/MDCC_Action_Plan.doc
Single Gene Disorders and Disability (SGDD)
(2006). See: https://www.cdc.gov/ncbddd/
duchenne/who.htm.
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Rehabilitation
Research and Training Center (RRTC) on
Enhancing the Health and Wellness of
Persons with Neuromuscular Diseases
(NMDs). This RRTC must conduct
rigorous research, training, technical
assistance, and dissemination activities
to improve rehabilitation outcome
measures and rehabilitation
interventions that can be applied in
clinical or community-based settings.
E:\FR\FM\31AUN2.SGM
31AUN2
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
In doing so, the RRTC must focus on
no more than two of the following
dimensions: Prevention or reduction of
secondary conditions (e.g., pain, fatigue,
muscle weakness, associated sleep
disorders, metabolic complications);
improved mobility; emotional wellbeing; and access to community-based
health promotion services and programs
(e.g., fitness, recreation, and nutrition).
Under this priority, the RRTC must be
designed to contribute to the following
outcomes:
(a) Improved outcome measures for
use with individuals with NMDs. The
RRTC must contribute to this outcome
by identifying or developing and testing
methods and measures to assess health
and rehabilitation outcomes,
participation in community-based
programs, or both.
(b) Improved medical rehabilitation or
community-based rehabilitation
interventions. The RRTC must
contribute to this outcome by
identifying or developing and testing
new rehabilitation interventions,
replicating promising practices or
programs, or both.
pwalker on PROD1PC71 with NOTICES2
Priority 13—Enhancing the Health and
Wellness of Individuals With Arthritis
Background
Approximately 60 million adults in
United States will have arthritis by the
year 2020. Currently, approximately 21
million individuals have osteoarthritis,
and another 2.1 million have
rheumatoid arthritis (National Arthritis
Action Plan, 1999). Arthritis is the
leading cause of disability in the United
States for individuals 15 years of age
and older, potentially limiting affected
persons from walking a few blocks or
climbing a flight of stairs (Centers for
Disease Control and Prevention,
Morbidity and Mortality Weekly Report,
(2007)). Arthritis is also the second
leading cause of work-related disability
in the United States (Cakmak &
Bolukbas, 2005).
Arthritis impacts an individual
physically, emotionally, and socially
and is characterized by several factors
such as pain, inflammation, damage to
joint tissue, decreased mobility, fatigue,
stress, and depression. Developing
interventions to alleviate arthritis pain
and functional limitations that are
associated with arthritis are particularly
important. Exercise is an essential tool
in managing arthritis pain and stiffness
and in improving mobility. Muscle
strength training is considered to be an
important cornerstone of nonpharmacological treatment for
individuals with arthritis (Hakkinen,
2004). However, the rates of
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
participation in regular exercise are
lower among individuals with arthritis
than those without arthritis (Barclay,
2006).
Arthritis also can lead to diminished
enjoyment of, and participation in, daily
activities and community-based
programs (e.g., going to church and
socializing), which in turn can
contribute to feelings of isolation and
depression. A depression management
program consisting of coordination of
medications and counseling can reduce
both depression and arthritis pain and
disability in older adults (Lin et al.,
2003).
Outcome measures are required to
assess the effectiveness of specific
interventions to reduce the physical,
functional, emotional, and social
sequelae of arthritis. While arthritis
researchers have access to effective
measures of disease status, physical and
functional abilities, and quality of life,
measures of social participation for this
population are less well developed
(Backman, 2006). Research is required
to fill this gap in outcome measures
through the development of arthritisspecific measures of participation, or
the validation of existing measures of
participation that have been developed
for other subpopulations of individuals
with disabilities (Whiteneck et al.,
1992).
References
Backman, C.L. (2006). Outcomes Measures
for Arthritis Care Research:
Recommendations from CARE III
Conference. Journal of Rheumatology,
33, 1908–11.
Barclay, L. (2006). Perceived barriers to
exercise identified for patients with
Arthritis. Arthritis Care Research
55:000–000. See: https://
www.medscape.com/viewarticle/541721.
Cakmak, A. & Bolukbas, N. (2005). Juvenile
Rheumatoid Arthritis: Physical Therapy
and Rehabilitation. Southern Medical
Journal, 98(2), 212–216.
Centers for Disease Control and Prevention,
Morbidity and Mortality Weekly Report,
(2007). National and State Medical
Expenditures and Lost Earnings
Attributable to Arthritis and Other
Rheumatic Condition—United States,
2003. See: https://www.cdc.gov/mmwr/
preview/mmwrhtml/
mm5601a2.htm?s_cid=mm5601a2_e
Hakkinen, A. (2004). Effective and Safety of
Strength Training in Rheumatoid
Arthritis. Current Opinion in
Rheumatology, 16(2), 132–137.
Lin, E., Katon, W., Von Korff, M., Tang, L.,
Williams, J., Kroenke, K., Hunkeler, E.,
Harpole, L., Hegel, M., Arean, P.,
Hoffing, M., Della Penna, R., Langston, C.
& Unutzer, J. (2003). Effect of Improving
Depression Care on Pain and Functional
Outcomes Among Older Adults With
Arthritis: A Randomized Controlled
PO 00000
Frm 00015
Fmt 4701
Sfmt 4703
50529
Trial. Journal of the American Medical
Association. 290(18): 2428–2429.
National Arthritis Action Plan (1999): A
Public Health Strategy. See: https://
www.arthritis.org/resources/
about_naap.asp.
Whiteneck, G.G., Charlifue, S.W., Gerhart,
K.A., Overholser, J.D., & Richardson,
G.H. (1992). Quantifying handicap: a
new measure of long-term rehabilitation
outcomes. Archives of Physical Medicine
and Rehabilitation, 73(6), 519–26.
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Rehabilitation
Research and Training Center (RRTC) on
Enhancing the Health and Wellness of
Individuals with Arthritis. This RRTC
must conduct rigorous research,
training, technical assistance, and
dissemination activities to improve
rehabilitation outcome measures and
rehabilitation interventions that can be
applied in clinical or community-based
settings.
In doing so, the RRTC must focus on
no more than two of the following
dimensions: prevention or reduction of
secondary conditions (e.g., pain, fatigue,
depression); improved mobility;
emotional well-being; and access to
community-based health promotion
services and programs (e.g., fitness,
recreation, and nutrition). Under this
priority, the RRTC must be designed to
contribute to the following outcomes:
(a) Improved outcome measures for
use with persons with arthritis. The
RRTC must contribute to this outcome
by identifying or developing and testing
methods and measures to assess health
and rehabilitation outcomes,
participation in community-based
programs, or both.
(b) Improved medical rehabilitation or
community-based rehabilitation
interventions. The RRTC must
contribute to this outcome by
identifying or developing and testing
new rehabilitation interventions,
replicating promising practices or
programs, or both.
Priority 14—Stroke Rehabilitation
Background
Approximately 730,000 individuals
experience strokes in the United States
each year. Nearly five million
individuals in the United States today
have survived a stroke. Stroke patients
continue to be the largest diagnostic
group in medical rehabilitation, and
stroke is often associated with high
levels of disability (American Heart
Association, 2006).
With the help of new technologies,
significant progress has been made in
the development of rehabilitation
E:\FR\FM\31AUN2.SGM
31AUN2
50530
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
pwalker on PROD1PC71 with NOTICES2
interventions and in the assessment of
outcomes for those who have
experienced a stroke. Examples of
recent advances in rehabilitation
interventions and outcomes assessment
include the Extremity ConstraintInduced Therapy Evaluation (EXCITE),
a repetitive training of upper extremities
on task-oriented activities that enhances
functional abilities of stroke survivors 3
to 9 months after stroke (Wolf et al.,
2006; Messe & Cucchiara, 2006). A
novel and promising technology, the
BION, is an implantable neuromuscular
stimulation device to treat
complications of paralysis and disuse
atrophy, including shoulder
subluxation, hand contractures, drop
foot, and osteoarthritis (Loeb et al.,
2006).
Given the large and growing
incidence of stroke in the United States
and the high levels of physical and
cognitive disability often associated
with stroke, there is a need for further
research on promising new
interventions, such as constraintinduced (CI) therapy, bodyweightsupported treadmill training (BWS–TT),
electrical stimulation, and robotic
technology (Bassett, 2006). In addition,
research is needed to develop more
sensitive measures of neuro-recovery
and post-stroke secondary health
conditions, as well as to develop
interventions to prevent a variety of
post-stroke secondary health conditions
such as fatigue (Gladstone et al., 2002;
Roth, 2005).
References
American Heart Association (AHA) (2006).
Heart Disease and Stroke Statistics—
2006 Update: A report from the
American Heart Association Statistics
Subcommittee. See: https://
circ.ahajournals.org/cgi/content/short/
113/6/e85.
Bassett, J. (2006). A Lifelong Journey.
Advance for Directors in Rehabilitation,
15(10), 42–48.
Gladstone, D.J., Danells, C.J., & Black, S.E.
(2002). The fugl-meyer assessment of
motor recovery after stroke: a critical
review of its measurement properties.
Neurorehabilitation and Neural Repairs,
16(3): 232–40. See: https://
www.medscape.com/medline/abstract/
12234086.
Loeb, G.E., Richmond F.J.R., & Baker L.L.
(2006). The BION Devices: Injectable
interfaces with peripheral nerves and
muscles. Neurosurgery Focus, 20(5). See:
https://www.medscape.com/viewarticle/
542356.
Messe, S.R. & Cucchiara, B.L. (2006).
Highlights of the International Stroke
Conference 2006. Neurology and
Neurosurgery, 8(1). See: https://
www.medscape.com/viewarticle/527458.
Roth, E. (2005). Aging Issues: Neurological
Disorders: crosscutting breakout session.
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
Neurorehabilitation and Neural Repair,
10(1), S70.
Wolf, S.L., Weinstein, C.J., Miller, J.P., Taub,
E., Uswatte, G., Morris, D., Giuliani, C.,
Light, K.E., & Nichols-Larsen, D. (2006).
Effect of constraint-induced movement
therapy on upper extremity function 3 to
9 months after stroke. Journal of the
American Medical Association, 296(17),
2095–2104.
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Rehabilitation
Research and Training Center (RRTC) on
Stroke Rehabilitation. This RRTC must
conduct rigorous research, training,
technical assistance, and dissemination
activities to improve rehabilitation
outcome measures and rehabilitation
interventions that can be applied in
clinical or community-based settings.
In doing so, the RRTC must focus on
no more than two of the following
dimensions: prevention or reduction of
secondary conditions (e.g., pain, fatigue,
depression); improved mobility;
emotional well-being; and access to
community-based health promotion
services and programs (e.g., fitness,
recreation, and nutrition). Under this
priority, the RRTC must be designed to
contribute to the following outcomes:
(a) Improved outcome measures for
use with persons with stroke. The RRTC
must contribute to this outcome by
identifying or developing and testing
methods and measures to assess health
and rehabilitation outcomes,
participation in community-based
programs, or both.
(b) Improved medical rehabilitation or
community-based rehabilitation
interventions. The RRTC must
contribute to this outcome by
identifying or developing and testing
new rehabilitation interventions,
replicating promising practices or
programs, or both.
Priority 15—Personal Assistance
Services (PAS) in the 21st Century
Background
In 2005, health-related problems
resulted in about 3.8 million adults
needing help from another person with
personal care activities, and about 7.8
million adults requiring help from
another person with daily activities,
such as household chores or shopping.
Among adults ages 75 and over, a
rapidly growing population, about 10
percent required help with personal
care and 19 percent required help with
daily activities (Adams, Dey, & Vickerie,
2005; Population Projections Branch,
2004). Most personal assistance services
(PAS) are provided by unpaid caregivers
PO 00000
Frm 00016
Fmt 4701
Sfmt 4703
such as family members or friends; in
2004, over 44 million adults provided
help with care to an adult family
member or friend (Naiditch & Wasan,
2006). However, paid personal and
home care aides held only about
701,000 jobs in 2004 (Bureau of Labor
Statistics (BLS), U.S. Department of
Labor (DOL), 2006).
The demand for personal and home
care aides is expected to increase greatly
over the next 10 years because of the
aging of the U.S. population (BLS, DOL,
2006). The expected increase in demand
is especially troubling because a labor
shortage crisis in the available pool of
caregivers already exists. This labor
shortage crisis has ‘‘potentially negative
consequences for quality of care and
quality of life’’ for individuals requiring
personal and home care (Stone &
Wiener, 2001). In addition, many
unpaid caregivers themselves are aging
and face their own ‘‘considerable
personal toll—physically, mentally,
emotionally, and financially, and in
terms of retirement insecurity, lost jobs
or other missed opportunities’’ (Miller &
Mor, 2006). Finally, the need for an
improved network of PAS providers
extends beyond day-to-day activities;
there is also an emerging need for PAS
providers during emergencies and
disaster situations (National Council on
Disability, 2006).
The cost of PAS can be covered by a
variety of sources, depending on a
person’s income and the type of services
provided. For example, individuals with
disabilities who work and receive
Supplemental Security Income (SSI)
benefits may deduct PAS performed in
an employment setting or in preparing
for, or traveling to or from, the
workplace as an Impairment-Related
Work Expense. This deduction is used
to calculate available income and
ultimately the amount of a person’s SSI
cash benefit (Social Security
Administration, 2006). While the loss of
such benefits has frequently been seen
as a hindrance to securing or
maintaining employment, there is little
research on the economic impact of
covering PAS costs for adults who are
working and not eligible for public
assistance. A study of elderly adults
with disabilities also suggests that the
use of assistive technology by an
individual with disabilities reduces the
number of PAS hours required for that
individual (Hoenig, Taylor, & Sloan,
2003). However, there has been little
research on the relationship between the
use of AT by working-age adults with
disabilities and the number of PAS
hours required by those individuals.
E:\FR\FM\31AUN2.SGM
31AUN2
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
References
Adams, P.F., Dey, A.N., & Vickerie, J.L.
(2005). Summary Health Statistics for the
U.S. Population: National Health
Interview Survey, 2005. Series 10, No.
233 Provisional Report. Hyattsville, MD:
National Center for Health Statistics. See:
https://www.cdc.gov/nchs/data/series/
sr_10/sr10_233.pdf.
Bureau of Labor Statistics, U.S. Department
of Labor, Occupational Outlook
Handbook, 2006–07 Edition, Personal
and Home Care Aides. Washington, DC:
Bureau of Labor Statistics, U.S.
Department of Labor. See: https://
www.bls.gov/oco/ocos173.htm.
Hoenig, H., Taylor, D.H., & Sloan, F.A.
(2003). Does Assistive Technology
Substitute for Personal Assistance
Among the Elderly? American Journal of
Public Health, 93(2), 330–337.
Miller, E.A. & Mor, V. (2006). Out of the
Shadows: Envisioning a Brighter Future
for Long-Term Care in America.
Providence, RI: Brown University Center
for Gerontology and Health Care
Research. See: https://www/
chcr.brown.edu/PDFS/BROWN_
UNIVERSITY_LTC_REPORT
_FINAL.PDF.
Naiditch, L. & Wasan, P. (2006). Evercare
Study of Caregivers in Decline: Findings
from a National Survey. Bethesda, MD:
National Alliance for Caregiving. See:
https://www.caregiving.org/data/
Caregivers%20in%20Decline%20StudyFINAL-lowres.pdf.
National Council on Disability (2006). The
Impact Of Hurricanes Katrina And Rita
On People With Disabilities: A Look
Back And Remaining Challenges.
Washington, DC: National Council on
Disability. See: https://www.ncd.gov/
newsroom/publications/2006/
hurricanes_impact.htm.
Population Projections Branch (2004). U.S.
Interim Projections by Age, Sex, Race,
and Hispanic origin. Washington, DC:
U.S. Census Bureau. See: https://
www.census.gov/ipc/www/
usinterimproj/.
Social Security Administration (2006).
Understanding Supplemental Security
Income (SSI). Washington, DC: U.S.
Social Security Administration. See:
https://www.ssa.gov/notices/
supplemental-security-income/ussi2006.pdf.
Stone, R.I. & Wiener, J.M. (2001). Who Will
Care For Us? Addressing the Long-Term
Care Workforce Crisis. Washington DC:
The Urban Institute.
pwalker on PROD1PC71 with NOTICES2
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Rehabilitation
Research and Training Center (RRTC) on
Personal Assistance Services (PAS) in
the 21st Century. This RRTC must
conduct rigorous research, develop
interventions, and provide training that
address future demands for PAS and
caregiving. Under this priority, the
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
RRTC must be designed to contribute to
the following outcomes:
(a) Improved access to PAS by
individuals with disabilities. The RRTC
must contribute to this outcome by: (1)
Analyzing and describing trends and
needs of the population of PAS
consumers; (2) identifying gaps in
programs and services; (3) developing
effective evidence-based interventions
to address unmet needs for PAS; and (4)
proposing strategies to coordinate and
secure PAS services during
emergencies.
(b) A larger and better prepared paid
and unpaid PAS workforce. The RRTC
must contribute to this outcome by: (1)
Developing tools and supports for
unpaid caregivers that reflect the
changing needs of caregivers as they
age; (2) developing strategies that lead to
a PAS workforce that is geographically
diverse and that maximizes workforce
recruitment, retention, compensation
and benefits, professional training,
development, and networking; and (3)
identifying and evaluating interventions
and labor resources, such as job training
services, that help to improve workforce
capacity of PAS providers.
(c) An understanding of the
complexity of the economics of PAS.
The RRTC must contribute to this
outcome by: (1) Analyzing the
interrelationship between the use of
assistive technology, employment
supports, and PAS; and (2) analyzing
the role of tax laws that affect
reimbursement for PAS.
Priority 16—Participation and
Community Living for Individuals With
Psychiatric Disabilities
Background
Individuals with psychiatric
disabilities have one of the lowest rates
of employment of any disability group—
only 1 in 3 individuals with psychiatric
disabilities is employed (Kaye, 2002).
They also comprise the largest
diagnostic category of working-aged
adults receiving Supplemental Security
Income or Social Security Disability
Insurance (McAlpine and Warner,
2001).
In addition, individuals with
psychiatric disabilities constitute a large
proportion of the homeless population.
Of 2 million adults experiencing an
episode of homelessness, for example,
46 percent have a psychiatric disability
(Burt, 2001).
In April 2002, the President signed
Executive Order 13263, establishing a
New Freedom Commission on Mental
Health, and charged the Commission
with completing a comprehensive study
of the mental health service delivery
PO 00000
Frm 00017
Fmt 4701
Sfmt 4703
50531
system in the United States. The
Commission’s report, Achieving the
Promise: Transforming Mental Health
Care in America, set the course for
public and private efforts across the
country to improve the state of mental
health care (New Freedom Commission
on Mental Health, 2003). The
Commission calls for a transformation of
the mental health service delivery
system, focusing on recovery and
resilience for individuals with
psychiatric disabilities. Recovery is, in
part, ‘‘the process in which people are
able to live, work, learn, and participate
fully in their communities,’’ while
resilience indicates ‘‘the personal and
community qualities that enable us to
rebound from adversity, trauma,
tragedy, threats, or other stresses—and
to go on with life with a sense of
mastery, competence, and hope’’ (New
Freedom Commission on Mental Health,
2003).
Being part of a community means
being included, involved, and valued; it
means holding social roles that are
meaningful. Inclusion requires full
access to opportunities and support in
areas such as employment, housing,
education, health and mental health
care, recreation, social relationships,
and other public and private sector
activities. Research, including NIDRRfunded research, has advanced the
knowledge base in these and other areas
through a focus on recovery-oriented
services, peer supports, supported
education, psychiatric rehabilitation,
and the avoidance of stigma. This
research has led to advances in theory
development, measurement tools,
treatment options, and a variety of
community-based supports. However,
further research is needed in these areas
to maximize participation and
community living outcomes.
In addition, there is a strong need for
research on understudied aspects of
participation and community living for
individuals with psychiatric disabilities.
Two examples among many are
emergency preparedness and mental
health disparities for traditionally
underserved populations (e.g.,
individuals from diverse racial, ethnic,
linguistic, and geographic backgrounds,
and individuals with multiple
disabilities) (National Council on
Disability, 2006; New Freedom
Commission on Mental Health, 2003;
U.S. Public Health Service, Office of the
Surgeon General, 2001).
Finally, there is extensive
documentation about the need to
accelerate the incorporation of research
findings in mental health service
delivery so that individual lives can
change as a result of the research.
E:\FR\FM\31AUN2.SGM
31AUN2
50532
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
According to the Institute on Medicine
report, Crossing the Quality Chasm: A
New Health System for the 21st Century,
the time lag between the discovery of
effective medical treatments and the
incorporation into practice is 15 to 20
years. The President’s New Freedom
Commission on Mental Health has
called for a reduction in this delay as
part of an overall transformation of
mental health care in America
(Substance Abuse and Mental Health
Services Administration, 2005; New
Freedom Commission on Mental Health,
2003; Institute of Medicine, 2001).
pwalker on PROD1PC71 with NOTICES2
References
Burt, M.R. (2001). What will it take to end
homelessness? Urban Institute Brief.
Washington, DC: Urban Institute.
Institute of Medicine (2001). Crossing the
Quality Chasm: A New Health System
for the 21st Century. Washington, DC:
National Academy Press.
Kaye, H.S. (2002). Employment and Social
Participation Among People With Mental
Health Disabilities. In San Francisco, CA:
National Disability Statistics & Policy
Forum.
McAlpine, D.D. and Warner, L. (2001).
Barriers to Employment Among Persons
With Mental Illness: A Review of the
Literature. New Brunswick, NJ: Institute
for Health.
National Council on Disability (July 7, 2006).
The Needs of People With Psychiatric
Disabilities During and After Hurricanes
Katrina and Rita: Position Paper and
Recommendations. https://www.ncd.gov/
newsroom/publications/2006/
peopleneeds. htm.
New Freedom Commission on Mental Health,
Achieving the Promise: Transforming
Mental Health Care in America. Final
Report. DHHS Pub. No. SMA–03–3832.
Rockville, MD: 2003.
Substance Abuse and Mental Health Services
Administration, U.S. Department of
Health and Human Services,
Transforming Mental Health Care in
America. Federal Action Agenda: First
Steps. DHHS Pub. No. SMA–05–4060.
Rockville, MD: 2005.
U.S. General Accounting Office (1996, April).
SSA disability: Program redesign
necessary to encourage return to work.
Report to the Chairman, Special
Committee on Aging and the U.S. Senate.
GAO/HEHS 96–62. Washington, DC: U.S.
General Accounting Office.
United States Public Health Service Office of
the Surgeon General (2001). Mental
Health: Culture, Race, and Ethnicity: A
Supplement to Mental Health: A Report
of the Surgeon General. Rockville, MD:
Department of Health and Human
Services, U.S. Public Health Service.
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Rehabilitation
Research and Training Center (RRTC) on
Participation and Community Living for
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
Individuals with Psychiatric
Disabilities. The RRTC must conduct
rigorous research, training, technical
assistance, and dissemination activities
that contribute to improved
participation and community living
outcomes for individuals with
psychiatric disabilities. Under this
priority, the RRTC must be designed to
contribute to the following outcomes:
(a) Improved individual and system
capacity to maximize the meaningful
involvement of individuals with
psychiatric disabilities in community
life. The RRTC must contribute to this
outcome by:
(1) Advancing the knowledge base
and application of theories, measures,
methods, interventions, or a
combination of those activities that
facilitate participation and community
living. This must include a focus on at
least three of the following areas:
employment, housing, education, health
and mental health care, recreation,
social relationships, or other public and
private sector activities related to
community living.
(2) Reducing disparities in service
delivery and program development by
including a focus on one or more of the
following understudied areas: (i)
Emergency preparedness for individuals
with psychiatric disabilities; (ii)
individuals with psychiatric disabilities
from diverse racial, ethnic, linguistic,
and geographic backgrounds; or (iii)
individuals with psychiatric disabilities
who have co-occurring sensory or
physical disabilities.
(b) Increased incorporation of mental
health research findings into practice or
policy. The RRTC must contribute to
this outcome by coordinating with
appropriate NIDRR-funded knowledge
translation grantees to advance or add to
their work in the following areas:
(1) Developing and implementing
procedures to evaluate the readiness of
mental health research findings for
translation into practice.
(2) Collaborating with stakeholder
groups to develop, evaluate, or
implement strategies to increase
utilization of mental health research
findings.
(3) Conducting training, technical
assistance, and dissemination activities
to facilitate knowledge translation in the
context of mental health research.
Priority 17—Multiple Sclerosis:
Interventions To Maximize Health,
Well-Being, and Participation
Background
Approximately 400,000 Americans
have multiple sclerosis (MS), and, each
week, about 200 more individuals in the
PO 00000
Frm 00018
Fmt 4701
Sfmt 4703
United States are diagnosed with MS
(National Multiple Sclerosis Society,
2005). Individuals with MS may have
symptoms such as fatigue, motor
weakness, spasticity, poor balance, heat
sensitivity, pain, cognitive impairment,
and mood disorders (Wynn, 2006;
Mikol, 2006). The impact of the variety
of symptoms that an individual with MS
may experience and the uncertain
prognosis of a given course of MS can
impair an individual’s routine activities;
vocational, social and interpersonal
functioning; and quality of life (Kalb,
2004). Treatment of MS may include:
medication, rehabilitation, integrative
medicine, and other interventions
(Yadav et al., 2006). Surveys indicate
that 50 to 75 percent of individuals with
MS have tried dietary changes,
nutritional or herbal supplements,
mind-body therapies, and similar
approaches to manage MS. Interestingly,
patients seem unlikely to discuss these
types of strategies with their
neurologists (Yadav et al., 2006).
While some research has been
conducted regarding the functional
outcomes of individuals with MS, there
is a significant need for further research
in the areas of outcomes measurement
and rehabilitation interventions to
maximize the health, well-being, and
participation of individuals with MS.
Providers of care who treat individuals
with MS have cited their own need for
clinical consultation and continuing
medical education (CME) about
treatment of MS-associated symptoms
(Turner et al., 2006). Fatigue,
depression, cognitive impairment, and
pain are among the most frequently
cited areas for consult and CME (Mikol,
2006). Future research should address
the frequent co-occurrence of these four
symptoms as well as the impact of
central-nervous-system-active
medications used to treat them (Oken et
al., 2006). For individuals with MS,
there is a ‘‘continued need for effective
therapeutic approaches to symptom
management’’ (Joy & Johnston, 2001).
Recent research underscores the need
for a continued focus on the role of
environmental and lifestyle factors
affecting individuals with MS, and also
on the impact co-existing chronic health
conditions have on an aging population
of individuals with MS (Marrie, 2006;
Buchanan et al., 2006; Snook et al.,
2006). For example, treatment
disparities and variations in disease
characteristics have been found when
comparing individuals with MS from
rural versus urban environments
(Buchanan et al., 2006). There is also a
strong relationship between physical
inactivity and risk for obesity among
individuals with MS (Snook et al.,
E:\FR\FM\31AUN2.SGM
31AUN2
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
pwalker on PROD1PC71 with NOTICES2
2006). In addition, a variety of
autoimmune diseases ‘‘are reported to
occur more frequently than expected in
patients with MS’’ (Marrie, 2006). These
findings support the need for further
research on outcomes measurement and
promotion of health and participation
for individuals with MS.
References
Buchanan, R.J., Schiffer, R., Stuifbergen, A.,
Zhu, L., Wang, S., Chakravorty, B.J., &
Kim, M. (2006). Demographic and
Disease Characteristics of People with
Multiple Sclerosis Living in Urban and
Rural Areas. International Journal of MS
Care, February 2006, vol. 8, Supplement
1.
Joy, J.E. & Johnston, R.B. (Eds.) (2001).
Multiple Sclerosis: Current Status and
Strategies for the Future. Washington,
D.C.: National Academy Press.
Kalb, R.C. (2004). Multiple Sclerosis: The
Questions You Have—The Answers You
Need, 3rd Edition. New York: Demos
Medical Publishing.
Marrie, R.M. (2006). Multiple Sclerosis and
Coexisting Health Conditions. Multiple
Sclerosis Quarterly Report, Winter 2006,
vol. 25, no. 4.
Mikol, D. (2006). Management of Fatigue,
Cognitive Dysfunction, and Mood
Disorders. International Journal of MS
Care, February 2006, vol. 8, Supplement
1.
National Multiple Sclerosis Society (2005).
Multiple Sclerosis Information
Sourcebook. New York: National
Multiple Sclerosis Society. See: https://
www.nationalmssociety.org/SourcebookTopic.asp.
Oken, B.S., Flegal, K., Zajdel, D., Kishiyama,
S.S., Lovera, J., Bagert, B., & Bourdette,
D.N. (2006). Cognition and Fatigue in
Multiple Sclerosis: Potential Effects of
Medications With Central Nervous
System Activity. Journal of
Rehabilitation Research & Development,
January/February 2006, vol. 43, no. 1.
Snook, E.N., Mojtahedi, M.C., Evans, E.M.,
McAuley, E., & Motl, R.W. (2005).
Physical Activity and Body Composition
Among Ambulatory Individuals with
Multiple Sclerosis. International Journal
of MS Care, Winter 2005/2006, vol. 7, no.
4.
Turner, A.P., Martin, C., Williams, R.M.,
Goudreau, K., Bowen, J.D., Hatzakis, M.,
Whitham, R.H., Bourdette, D.N., Walker,
L., & Haselkorn, J.K. (2006). Exploring
Educational Needs of Multiple Sclerosis
Care Providers: Results of a CareProvider Survey. Journal of
Rehabilitation Research & Development,
January/February 2006, vol. 43, no. 1.
Wynn, D.R. (2006). Management of Physical
Symptoms. International Journal of MS
Care, February 2006, vol. 8, Supplement
1.
Yadav, V., Shinto, L., Morris, C., Senders, A.,
Baldauf-Wagner, S., & Bourdette, D.
(2006). Use and Self-Reported Benefit of
Complementary and Alternative
Medicine Among Multiple Sclerosis.
International Journal of MS Care, Spring
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
2006, vol. 8, no. 1.
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Rehabilitation
Research and Training Center (RRTC) on
Multiple Sclerosis: Interventions to
Maximize Health, Well-Being, and
Participation. This RRTC must conduct
rigorous research, training, technical
assistance, and dissemination activities
to improve rehabilitation outcome
measures and rehabilitation
interventions that can be applied in
clinical or community-based settings.
In doing so, the RRTC must focus on
no more than two of the following
dimensions: prevention or reduction of
secondary conditions (e.g., pain, fatigue,
depression); improved mobility;
emotional well-being; and access to
community-based health promotion
services and programs (e.g., fitness,
recreation, and nutrition). Under this
priority, the RRTC must be designed to
contribute to the following outcomes:
(a) Improved outcome measures for
use with persons with MS. The RRTC
must contribute to this outcome by
identifying or developing and testing
methods and measures to assess health
and rehabilitation outcomes,
participation in community-based
programs, or both.
(b) Improved medical rehabilitation or
community-based rehabilitation
interventions. The RRTC must
contribute to this outcome by
identifying or developing and testing
new rehabilitation interventions for
individuals with MS, replicating
promising practices or programs for
individuals with MS, or both.
Priority 18—Aging With Physical
Disability: Reducing Secondary
Conditions and Enhancing Health and
Participation
Background
With medical and technological
advancements, many individuals with
early onset physical disabilities,
acquired at birth, in childhood or young
adulthood, are surviving long enough to
experience the rewards and challenges
of aging (Campbell, Sheets & Strong,
1999). Determining the size of this
emerging segment of the disabled
population has been difficult due to the
lack of sufficient population data on age
of onset and duration of disability
(Kemp, 2005). The only national
estimate available to date comes from a
secondary analysis of the 1990 U.S.
Census data, which suggests that there
may be as many as 25,000,000
Americans who are aging with various
long-term disabilities (McNeil, 1994).
PO 00000
Frm 00019
Fmt 4701
Sfmt 4703
50533
As many researchers have
documented, a primary challenge
associated with increased longevity
among this population is an increased
risk of ‘‘secondary conditions.’’ The
term secondary conditions, or secondary
health conditions, is shorthand for the
various types of medical and functional
problems that individuals with longterm physical disabilities experience
post-onset as they age (Kemp &
Mosqueda, 2004). Although there is
widespread agreement that secondary
conditions can be debilitating, costly in
terms of financial and social
consequences, and potentially fatal in
some circumstances, how to define
secondary conditions remains an active
debate within the disability community
(Wilber et al., 2002; Rimmer, 2005).
While a precise definition of
secondary conditions is still evolving,
the emerging consensus is that
secondary conditions often increase the
severity of an individual’s disability
(Brandt & Pope, 1997). As individuals
with long-term physical disabilities age
into middle and later adulthood, there
is an enormous physical and
psychological burden associated with
having to manage various secondary
health conditions, in addition to
managing the chronic health effects
related to the aging process generally
(Rimmer, 2005). There is, however,
widespread agreement that certain
secondary conditions are preventable,
and that learning how to prevent the
onset or reduce the severity and impact
of these new or increased impairments,
functional limitations, and age-related
health problems is vital to enhancing
the health and participation of
individuals aging with long-term
disabilities (Simeonsson et al., 1999;
Lollar, 2002; Wilber et al., 2002).
To date there are no national
estimates of the number of individuals
with long-term physical disabilities who
are experiencing one or more types of
secondary conditions. Most of what is
known about the prevalence and
consequences of secondary conditions
for health and participation comes from
clinical studies of patients, a handful of
community-based studies and
secondary analyses of population
surveys, and the evolving theoretical
understanding of the general aging
process (Cristian, 2005; Kemp, 2005;
Seekins et al., 1994; Campbell, Sheets,
& Strong, 1999; Wilber et al., 2002;
Verbrugge & Yang, 2002; Kinne et al.,
2004).
Results of these studies underscore
the importance of improving treatment
options to prevent or reduce the
consequences of secondary conditions.
Exercise, lifestyle and behavioral
E:\FR\FM\31AUN2.SGM
31AUN2
50534
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
pwalker on PROD1PC71 with NOTICES2
changes, and psychosocial and
environmental factors are acknowledged
as mediators, or potential mediators, for
the development of secondary health
conditions (Seekins et al., 1994; Wilber
et al., 2002; Kemp, 2005; Rimmer,
2005). However, research on these
factors has been limited by the lack of
measurement tools to characterize the
types and severity of secondary
conditions experienced by individuals
aging with disabilities, and the lack of
experimental and quasi-experimental
studies to test the effectiveness of
various intervention strategies (Wilber
et al.; Rimmer, 2005).
and quality of life: Emerging issues in
public health. In: Simeonsson, RJ,
McDevitt, LN (Eds.) Issues in Disability
and Health: The Role of Secondary
Conditions and Quality of Life. Chapel
Hill: University of North Carolina Press;
51–72.
Wilber, N., Mitra, M., Walker, D.K., Allen D.,
Meyers, A.R., & Tupper, P. (2002).
Disability as a public health issue:
findings and reflections from the
Massachusetts Survey of Secondary
Conditions. Milbank Quarterly; Vol.
80:393–421.
Verbrugge, L.M. & Yang, L. (2002). Aging
with Disability and Disability with
Aging. Journal of Disability Policy
Studies; Vol. 12(4):253–267.
References
Brandt, E.N. & Pope, A.M. (1997). Enabling
America: Assessing the Role of
Rehabilitation Science and Engineering.
Committee on Disability Research,
Institute of Medicine, National Academy
of Sciences. National Academies Press;
pp. 25.
Campbell, M.L., Sheets, D.S., & Strong, P.S.
(1999). Secondary health conditions
among middle-aged individuals with
chronic physical disabilities:
Implications for ‘‘unmet needs’’ for
services. Assistive Technology, 11(2), 3–
18. Cristian, A. (Ed.) (2005). Aging with
a Disability: An Issue of Physical
Medicine and Rehabilitation Clinics of
North America, Volume 16. Oxford, UK:
Elsevier.
Kemp, B.J. (2005). What the rehabilitation
professional and the consumer need to
know. In Adrian Cristian (ED), Aging
with a Disability: Physical Medicine and
Rehabilitation Clinics of North America,
Volume 16: Pages 1–18. Oxford, UK:
Elsevier.
Kemp, B.J. & Mosqueda, L. (Eds.) (2004).
Aging with a Disability. Baltimore: The
Johns Hopkins University Press.
Kinne, S., Patrick, D.L., & Lochner, D.D.
(2004). Prevalence of secondary
conditions among people with
disabilities. American Journal of Public
Health. Vol 94(3): 443–445.
Lollar D. (2002). Public health and disability:
emerging trends. Public Health Report.
Vol.117:131–136. McNeil, J. (1994).
Americans with Disabilities, Bureau of
the Census, Statistical Brief, SB/94–1. In
LaPlante, M. Disability in the United
States: Prevalence and Causes, 1992.
Rimmer, J.L. (2005). Exercise and physical
activity in persons aging with a physical
disability. In Adrian Cristian (Ed), Aging
with a Disability: Physical Medicine and
Rehabilitation Clinics of North America,
Volume 16: Pages 41–56. Oxford, UK:
Elsevier.
Seekins, T., Clay, J., & Ravesloot, C.H. (1994).
A descriptive study of secondary
conditions reported by a population of
adults with physical disabilities served
by 3 independent living centers in a
rural state. Journal of Rehabilitation, Vol.
60:47–51.
Simeonsson, R.J., Bailey, D.B., Scandlin, D.,
Huntington, G.S., & Roth, M. (1999).
Disability, health, secondary conditions
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Rehabilitation
Research and Training Center (RRTC) on
Aging with Physical Disability:
Reducing Secondary Conditions and
Enhancing Health and Participation.
This RRTC must conduct rigorous
research, training, technical assistance,
and dissemination activities to improve
rehabilitation outcome measures and
rehabilitation interventions that can be
applied in clinical or community-based
settings and used by other researchers.
The intended outcome of the RRTC is to
enhance the health and participation of
individuals aging with long-term
physical disabilities in work and the
community by advancing knowledge
about the identification, assessment,
treatment and improved management of
the secondary conditions likely
experienced by this target population.
In addressing this priority, the RRTC
must propose no more than four
synergistic, cross-disability research
projects to address the secondary
conditions that are most relevant to the
health, employment, or community
participation of individuals with
disabilities. To ensure the feasibility of
the RRTC’s proposed activities and
increase the likelihood of achieving
planned outcomes, the RRTC must focus
on no more than three discrete
impairment groups, and must limit
interventions strategies to no more than
two of the following modalities:
exercise, health promotion,
psychological adaptation, life planning
or self-management skills, and
environmental or technological
supports. Under this priority, the RRTC
must be designed to contribute to the
following outcomes:
(a) Enhanced understanding of the
natural course of aging with physical
disability. The RRTC must contribute to
this outcome by documenting the life
trajectories and average age of onset of
the major types of secondary conditions
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
PO 00000
Frm 00020
Fmt 4701
Sfmt 4703
experienced by individuals living with
long-term physical disabilities, and
examining the interrelationships among
different types of secondary conditions
and the consequences of variations in
timing of onset for health and
participation.
(b) Improved tools and measures for
use with individuals aging with longterm physical disabilities. The RRTC
must contribute to this outcome by
identifying, developing or modifying,
and testing new measurement tools that
improve the identification and
assessment of the major types of
secondary conditions discussed in the
literature, as well as the outcomes of
interventions designed to prevent or
reduce these conditions.
(c) Improved rehabilitation or
community-based interventions that
enhance the health and participation in
work and the community of individuals
aging with physical disabilities. The
RRTC must contribute to this outcome
by identifying, developing, or
modifying, and testing new
interventions that are effective in
preventing the onset or improving the
management and reducing the impact of
secondary conditions, and replicating
promising practices or programs that are
effective in preventing the onset or
improving the management and
reducing the impact of secondary
conditions, or both.
Priority 19—Disability Statistics and
Demographics
Background
A 2003 report from the Interagency
Committee on Disability Research
(ICDR) identified 67 Federal statutory
definitions of the term ‘‘disability.’’
These definitions directly influence the
collection of national, State,
administrative, and other data about
individuals with disabilities (Cherry
Engineering Support Services (CSSI),
Inc., 2003). ‘‘Because surveys produce
different types of information on
disability, they can provide additional
perspectives on the sources and effects
of disabilities, but they can also cause
confusion because of the differences in
the way disability is being measured’’
(Government Accountability Office,
2006). As a result of such confusion,
policymakers, service providers,
individuals with disabilities, and others
may not be able to identify the best
available statistics to inform their efforts
to enhance the well-being and
participation of individuals with
disabilities.
An ongoing need exists to bridge the
gap between producers and users of
disability statistics, particularly as the
E:\FR\FM\31AUN2.SGM
31AUN2
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
pwalker on PROD1PC71 with NOTICES2
population ages and injuries caused by
such factors as war and environmental
changes lead to growing numbers of
individuals with disabilities (National
Council on Disability (NCD), 2006).
Policymakers cite the need for
information about the indirect and
direct costs of disability, unmet needs
for services or technologies that
facilitate environmental access and
enhance participation, and individuals
with disabilities living in institutional
settings (Healthy People 2010, 2000;
NCD, 2006).
Though there are a number of useful
sources of disability data, ‘‘controversy
has been generated by variations in
disability statistics achieved by different
researchers, using varied data collection
instruments, differing data sources and
different data mining techniques’’ (NCD,
2006). Methodological research will
improve the quality and consistency of
data and increase confidence in the
research findings (Stern, 2004;
McMenamin, Miller, & Polivka, 2006).
Improved questionnaire design and
innovative data collection strategies can
facilitate availability of valid and
reliable data (NCD, 2006; Kroll et al., in
press). Research to evaluate best
practices for conducting surveys of and
about individuals with disabilities will
improve our understanding of the needs
of the population. Development of
methodologies to improve collections or
analyses of data about populations with
low-incidence disabilities, or small
demographic subgroups of individuals
with disabilities, would advance
knowledge about the population. A
recent review indicates that ‘‘there is a
solid base of theory on which to base
research among low-incidence
populations’’ but notes the lack of ‘‘a
large body of work in which this theory
has been applied to populations with
disabilities’’ (CESSI, 2005). For these
reasons, NIDRR seeks to fund an RRTC
that improves the quality of disability
statistics.
References
Cherry Engineering Support Services (CSSI),
Inc. (2005). Research Methods for LowIncidence Populations. Prepared for the
Interagency Committee on Disability
Research (ICDR). McLean, VA: CESSI.
Cherry Engineering Support Services (CSSI),
Inc. (2003). Federal Statutory Definitions
of Disability. Prepared for the
Interagency Committee on Disability
Research (ICDR). McLean, VA: CESSI.
See: https://www.icdr.us/documents/
definitions.htm.
Government Accountability Office (GAO)
(2006). Federal Information Collection: A
Reexamination of the Portfolio of Major
Federal Household Surveys is Needed,
GAO–07–62. Washington, DC: GAO.
Kroll, T., Keer, D., Placek, P., Cyril, J., &
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
Hendershot, G. (in press). Towards Best
Practices for Surveying People with
Disabilities. Volume 1. New York: Nova
Publishers, Inc.
McMenamin, T., Miller, S., & Polivka, A.
(2006). Discussion and Presentation of
the Disability Test Results from the
Current Population Survey. Washington,
DC: Bureau of Labor Statistics. See:
https://econpapers.repec.org/paper/
blswpaper/ec060080.htm.
National Council on Disability (2006).
National Disability Policy: A Progress
Report, December 2004—December 2005.
Washington, DC: National Council on
Disability. See: https://www.ncd.gov/
newsroom/publications/2006/
progress_report.htm.
Stern, S. (2004). Counting People with
Disabilities: How Survey Methodology
Influences Estimates in Census 2000 and
the Census 2000 Supplementary Survey.
Washington, DC: U.S. Census Bureau.
See: https://www.census.gov/hhes/www/
disability/finalstern.pdf.
U.S. Department of Health and Human
Services (2000). Healthy People 2010.
2nd ed. With Understanding and
Improving Health and Objectives for
Improving Health. 2 vols. Washington,
DC: U.S. Government Printing Office.
Proposed Priority
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Rehabilitation
Research and Training Center (RRTC) on
Disability Statistics and Demographics.
This RRTC must conduct rigorous
research, knowledge translation,
training, dissemination, and technical
assistance that advance the use of
rigorous disability statistics and
demographics to inform disability
policy and service provision. Under this
priority, the RRTC must be designed to
contribute to the following outcomes:
(a) Rigorous and timely demographic
research to inform the development of
disability policy and programs. The
RRTC must contribute to this outcome
by: (1) Producing meta-analyses of
national, State, and administrative data
that address critical program and service
needs; and (2) providing statistical
consultation, including specialized
analyses, to facilitate the use of survey
and administrative data by
policymakers and others.
(b) Improved disability data and
statistics. The RRTC must conduct
research about methodologies that
advance the practice for (1) Conducting
surveys of individuals with disabilities,
including individuals with lowprevalence disabilities; (2) analyzing
data about low-incidence populations of
individuals with disabilities; and (3)
other issues related to survey or
administrative data.
(c) Effective use of disability statistics
and demographic information. The
PO 00000
Frm 00021
Fmt 4701
Sfmt 4703
50535
RRTC must contribute to this outcome
by: (1) Serving as a resource on
disability statistics and demographics
for Federal and other government
agencies, policymakers, consumers,
advocates, researchers, and others; and
(2) transferring research findings to
enhance planning, policymaking,
program administration, and delivery of
services to individuals with disabilities.
Priorities 20 and 21—Health and
Function Across the Lifespan of
Individuals With Intellectual and
Developmental Disabilities (Priority 20)
and Participation and Community
Living for Individuals With Intellectual
and Developmental Disabilities
(Priority 21)
Background
For purposes of priorities 20 and 21,
individuals with intellectual,
developmental, mental, and cognitive
disabilities, including individuals with
cerebral palsy, Downs syndrome,
autism, and related conditions, will be
referred to as persons with intellectual
disabilities or developmental
disabilities (ID/DD). Individuals are
considered to have an intellectual
disability (ID) when their intellectual
functioning level (IQ) is below 70–75;
they have significant limitations in
conceptual, social, and practical
adaptive skills such as communication,
self-care, home living, social skills,
leisure, health and safety, self-direction,
functional academics (reading, writing,
basic math), and work; and the
disability originated before the age of
18. Developmental disabilities (DD) are
defined as severe, chronic disabilities
that first appear before age 22, are likely
to continue indefinitely, and cause
substantial limitations in three or more
of the following areas: Self-care,
language, learning, mobility, selfdirection, and capacity for independent
living. These definitions of ID and DD,
however, may have limitations when
applied in research or in the
administration of public assistance
programs because of diagnostic
ambiguities, implementation and
measurement problems, or the
temporary nature of certain contextspecific disabilities (Larson et al., 2001).
Individuals with ID/DD constitute a
diverse group of underserved,
underemployed or unemployed, and
marginalized individuals. While
estimates about the size and
composition of this population in the
United States range from 1.6 percent to
nearly 3 percent of the population
(between 4.5 million and 8 million),
depending on the source of data and the
types of diagnoses used, clear patterns
E:\FR\FM\31AUN2.SGM
31AUN2
pwalker on PROD1PC71 with NOTICES2
50536
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
of disadvantage are apparent in this
population (Lakin & Turnbull, 2005;
National Institute of Child Health and
Human Development, 2002; U.S.
Department of Health and Human
Services, Office of the Assistant
Secretary for Planning and Evaluation,
2006).
According to a 2004 report issued by
the President’s Committee for People
with Intellectual Disabilities (2004),
around 90 percent of adults with ID/DD
were not employed. Among those
individuals with ID/DD who were
employed, over 365,000 attended
sheltered workshops or were in day
programs or prevocational services.
Levels of educational attainment are
quite low for individuals with ID/DD.
According to the 2004 report, 26 percent
of youth with ID/DD dropped out of
school, and fewer than 15 percent
participated in postsecondary
education. Levels of income and wealth
are also low among individuals with ID/
DD. Supplemental Security Income
(SSI) or Social Security Disability
Insurance (SSDI) were a major source of
income for individuals with ID/DD (in
December 2001, there were almost 1.1
million adults and children receiving
SSI payments based on ID/DD; there
were almost 600,000 receiving SSDI
benefits). Over 700,000 individuals with
ID/DD lived with parents aged 60 or
older. Less than one percent of
individuals with ID/DD owned their
own home (President’s Committee for
People with Intellectual Disabilities,
2004).
These statistics provide a small
glimpse into the everyday life
experiences of individuals with ID/DD
and their families and caregivers.
Depending on the severity of their
disability, individuals with ID/DD need
assistance in most, if not all, activities
of daily living (e.g., walking, dressing,
bathing) and instrumental activities of
daily living (e.g., shopping or managing
money). Such assistance is time
consuming and costly, particularly if
skilled personal assistance services and
professional rehabilitation services are
needed.
Besides needing significant amounts
of care, many individuals with ID/DD
are at an increased risk of being isolated
from the community, particularly if they
have been placed under institutional
supervision or care. Limited educational
attainment and job skills are key barriers
to inclusion in communal activities. As
a result, many individuals with ID/DD
have difficulties developing
independent living and social skills.
They remain dependent on family,
friends, and personal caregivers. Where
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
such supports are not available, they
must resort to institutional care.
Individuals with ID/DD have been
found to suffer from a wide range of
illnesses and impairments (National
Institute of Child Health and Human
Development, 2002). The onset of many
conditions is at birth or in infancy (for
example, cerebral palsy). Moreover,
many other conditions, such as obesity,
diabetes, or Alzheimer’s disease occur
earlier in adulthood for individuals with
ID/DD than most individuals in the
general population. As a result,
individuals with ID/DD have greater
needs for health care services than
members of the general population. To
obtain the full benefits of these services,
the individuals must have access to
skilled staff at service facilities who are
informed about, and equipped to
respond to, the special needs of
individuals with ID/DD. If skilled staff
are not available, consumers and
providers may consider the help of
intermediaries, direct support providers,
or other social service providers
specializing in the care of individuals
with ID/DD.
For these reasons, NIDRR seeks to
fund two RRTCs designed to increase
the levels of health, function, and
community living/participation of
individuals with ID/DD by developing
and applying scientifically validated
procedures, treatments, and
interventions. The goal of these
procedures, treatments, and
interventions is to create measurable
benefits or outcomes for individuals
with ID/DD and their families and
caregivers.
References
Lakin, K. & Turnbull, A., Eds. (2005).
National Goals and Research for People
With Intellectual and Developmental
Disabilities. Washington, DC: American
Association on Mental Retardation.
Larson, S.A., Lakin, C.K., Anderson, Lynda,
K., Nohon, L., Jeoung, H., & Anderson, D.
(2001). Prevalence of Mental Retardation
and Developmental Disabilities:
Estimates from the 1994/1995 National
Health Interview Survey Disability
Supplements. American Journal on
Mental Retardation 106(3):231–252.
National Institute of Child Health and
Human Development (2002). Closing the
Gap: A National Blueprint to Improve
the Health of Persons with Mental
Retardation. Report of the Surgeon
General’s Conference on Health
Disparities and Mental Retardation.
Washington, DC.
President’s Committee for People with
Intellectual Disabilities (2004). A Charge
We Have To Keep. A Road Map to
Personal and Economic Freedom for
People with Intellectual Disabilities in
the 21st Century. Washington, DC: U.S.
Department of Health and Human
PO 00000
Frm 00022
Fmt 4701
Sfmt 4703
Services, Administration for Children
and Families.
U.S. Department of Health and Human
Services, Office of the Assistant
Secretary for Planning and Evaluation
(2006). The Supply of Direct Support
Professionals Serving Individuals with
Intellectual Disabilities and Other
Developmental Disabilities: Report to
Congress. Washington, DC.
Proposed Priority 20—Health and
Function Across the Lifespan of
Individuals With Intellectual and
Developmental Disabilities
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Rehabilitation
Research and Training Center (RRTC) on
Health and Function Across the
Lifespan of Individuals with Intellectual
and Developmental Disabilities (ID/DD).
This RRTC must focus on rigorous
research, training, technical assistance,
and dissemination of strategies and
interventions that improve the health
and function of individuals with ID/DD,
and access to community-based health
and social services by individuals with
ID/DD. The research conducted by this
RRTC also must focus on improving the
health and function of individuals with
ID/DD and on promoting family and
caregiver supports that enable persons
with ID/DD to receive long-term care.
When applying for a grant under this
priority, an applicant must identify, in
its application, the subjects of interest
from the diverse population of
individuals with ID/DD to be served by
the proposed research and describe how
the proposed research will benefit this
group.
Under this priority, the RRTC must be
designed to contribute to the following
outcomes:
(a) Conceptually sound theories and
methodologies for research on
community-based rehabilitation and
health and social service provision,
including research on long-term care or
care provided by family members to
individuals with ID/DD. The RRTC must
contribute to this outcome by
investigating existing theories that may
help organize or frame research on ID/
DD, including theories from fields such
as long-term care, or frameworks related
to delivery of rehabilitation or health
services in the community.
(b) Improved instruments and
measures that help to evaluate the
suitability and quality of personal
assistance services, and the
effectiveness and efficiency of
community-based health and social
services for individuals with ID/DD. The
RRTC must contribute to this outcome
by assessing current measures and
instruments, reporting on their validity
E:\FR\FM\31AUN2.SGM
31AUN2
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
pwalker on PROD1PC71 with NOTICES2
and reliability, and then developing and
testing improved measures as needed.
(c) Improved rehabilitation or
community-based interventions that
demonstrate measurable reductions in
barriers to access and utilization of
community-based services or
community-based interventions that
otherwise contribute to improved health
and function of individuals with ID/DD.
The RRTC must contribute to this
outcome by identifying and testing
potential interventions and providing a
thorough assessment of the basis on
which these interventions were
selected, including any preliminary
evidence of their usefulness and
relevance to individuals with ID/DD and
their families.
Proposed Priority 21—Participation
and Community Living for Individuals
With Intellectual and Developmental
Disabilities
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes a priority for a Rehabilitation
Research and Training Center (RRTC)
for Participation and Community Living
for Individuals with Intellectual and
Developmental Disabilities (ID/DD). The
RRTC must focus on rigorous research,
training, technical assistance, and
dissemination to enhance inclusion and
self-determination of individuals with
ID/DD. This RRTC also must focus on
developing interventions that support
self-determination, informed choice,
consumer control, family involvement,
and participation and community living
of individuals with ID/DD.
When applying for a grant under this
priority, an applicant must identify, in
its application, the subjects of interest
from the diverse population of
individuals with ID/DD to be served by
the proposed research and describe how
the proposed research will benefit this
group.
Under this priority, the RRTC must be
designed to contribute to the following
outcomes:
(a) Improved concepts and theories of
societal participation and community
living, and self-determination to guide
the study of needs and abilities of
individuals with ID/DD. The RRTC must
contribute to this outcome by
investigating existing theories of societal
participation, community living, and
self-determination to frame research on
these topics for individuals with ID/DD.
(b) Improved instruments and
measures of participation and
community living to assess the type,
frequency, and quality of activities that
individuals with ID/DD wish to engage
in, or are able to engage in outside the
home or residential facility. The RRTC
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
50537
must contribute to this outcome by
assessing current measures and
instruments used to determine
outcomes in the areas of access to
community facilities, social
participation, self advocacy,
employment choice, and housing
selection by individuals with ID/DD,
reporting on the validity and reliability
of these measures, and then developing
and testing improved measures as
needed.
(c) Improved rehabilitation or
community-based interventions that
demonstrate a measurable impact in
areas such as access to communal
facilities and events, social participation
and interaction with members of the
community, self-advocacy, employment
opportunities, and housing choices. The
RRTC must contribute to this outcome
by identifying and testing potential
interventions for individuals with ID/
DD, providing a thorough assessment of
the basis on which these interventions
were selected, including any
preliminary evidence of their usefulness
and relevance to individuals with ID/DD
and their families.
Each RERC must be operated by or in
collaboration with one or more
institutions of higher education or one
or more nonprofit organizations.
Each RERC must provide training
opportunities, in conjunction with
institutions of higher education and
nonprofit organizations, to assist
individuals, including individuals with
disabilities, to become rehabilitation
technology researchers and
practitioners.
Additional information on the RERC
program can be found at: https://
www.ed.gov/rschstat/research/pubs/
index.html.
Rehabilitation Engineering Research
Centers Program General Requirements
of Rehabilitation Engineering Research
Centers (RERCs)
Individuals with disabilities regularly
use products that have been developed
as the result of rehabilitation and
biomedical research in order to achieve
and maintain maximum physical
function, live independently, study and
learn, and attain gainful employment.
Rehabilitation engineering research
encompasses research on assistive
technology, technology at the systems
level (e.g., the built environment,
transportation), and technology that
allows individuals to interface with
technology at the systems or
environmental levels.
Advancements in basic biomedical
science and technology have resulted in
new opportunities to enhance further
the lives of individuals with disabilities.
Specifically, recent advances in
biomaterials research, composite
technologies, information and
telecommunication technologies,
nanotechnologies, micro electro
mechanical systems (MEMS), sensor
technologies, and the neurosciences
provide a wealth of opportunities for
individuals with disabilities and could
be incorporated into research focused
on disability and rehabilitation.
Through the following proposed
priorities, NIDRR intends to fund RERCs
that advance rehabilitation engineering
research in the following priority
research areas: Hearing Enhancement,
Accessible Public Transportation,
Prosthetics and Orthotics,
Communication Enhancement,
Universal Interface and Information
RERCs carry out research or
demonstration activities in support of
the Rehabilitation Act of 1973, as
amended, by—
• Developing and disseminating
innovative methods of applying
advanced technology, scientific
achievement, and psychological and
social knowledge to: (a) Solve
rehabilitation problems and remove
environmental barriers; and (b) study
and evaluate new or emerging
technologies, products, or environments
and their effectiveness and benefits; or
• Demonstrating and disseminating:
(a) Innovative models for the delivery of
cost-effective rehabilitation technology
services to rural and urban areas; and (b)
other scientific research to assist in
meeting the employment and
independent living needs of individuals
with severe disabilities; and
• Facilitating service delivery systems
change through: (a) The development,
evaluation, and dissemination of
consumer-responsive and individual
and family-centered innovative models
for the delivery to both rural and urban
areas of innovative cost-effective
rehabilitation technology services; and
(b) other scientific research to assist in
meeting the employment and
independence needs of individuals with
severe disabilities.
PO 00000
Frm 00023
Fmt 4701
Sfmt 4703
Priorities 22, 23, 24, 25, 26, and 27—
Rehabilitation Engineering Research
Centers (RERCs) for Hearing
Enhancement (Priority 22), Accessible
Public Transportation (Priority 23),
Prosthetics and Orthotics (Priority 24),
Communication Enhancement (Priority
25), Universal Interface and
Information Technology Access
(Priority 26), and Wheeled Mobility
(Priority 27)
Background
E:\FR\FM\31AUN2.SGM
31AUN2
50538
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
Technology Access, and Wheeled
Mobility.
pwalker on PROD1PC71 with NOTICES2
Priority 22—Hearing Enhancement
Approximately 28.6 million
Americans have an auditory disorder. In
the United States, an estimated 1 to 6 in
1,000 newborns are born profoundly
deaf, and another 2 to 3 out of 1,000
babies are born with partial hearing loss,
making hearing loss the number one
birth defect in America (Kochkin, 2001;
Kemper & Downs, 2000; Cunningham &
Cox, 2003).
Despite advances in hearing assistive
technologies such as digital hearing
aids, cochlear implants, induction loop
(IL), frequency modulation (FM) and
infrared (IR) assistive listening systems,
and video relay, many challenges and
opportunities for future research and
development exist (Stika, Ross, &
Cuevas, 2002; Schow et al., 1993). For
example, there is a need for new fitting
methods for hearing aids and cochlear
implants that adaptively adjust signal
processing parameters such as
compression threshold, compression
ratio, gain, and frequency to maximize
performance goals for an individual,
both in the clinic and in the field (Stika,
Ross & Cuevas, 2002; Schow, Balsara,
Smedley & Whitcomb, 1993). In
addition, there is a need to explore how
rehabilitation or training can be
provided so that individual users of
hearing enhancement technologies can
readily adopt new technologies and
adapt to the new stimulation and
information being received (Schow et
al., 1993).
Accordingly, NIDRR seeks to fund an
RERC that researches and develops
innovative models of aural
rehabilitation tools, services, and
training, in order to improve assessment
and fitting of hearing enhancement
technologies and to increase the
availability, knowledge, and use of
hearing enhancement devices and
services.
References
Cunningham, M. & Cox, E.O. (2003). Hearing
assessment in infants and children:
Recommendations beyond neonatal
screening. Pediatrics, 111(2): 436–440.
Kemper, A.R. & Downs, S.M. (2000). A costeffectiveness analysis of newborn
hearing screening strategies. Archives of
Pediatric and Adolescent Medicine,
154(5): 484–488.
Kochkin, S. (2001). MarkeTrak VI: The VA
and direct mail sales spark growth in
hearing aid market. The Hearing Review,
8(12): 16–24, 63–65.
Schow, R., Balsara, N., Smedley, T., &
Whitcomb, C. (1993). Aural
rehabilitation by ASHA audiologists:
1980–1990, American Journal of
Audiology, 2(3): 28–37.
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
Stika, C.J., Ross, M., & Cuevas, C. (2002).
Hearing Aid Services and Satisfaction:
The Consumer Viewpoint, Hearing Loss:
the Journal of Self Help for Hard of
Hearing People, 23(3): 25–31.
Priority 23—Accessible Public
Transportation
Inaccessible transportation is a major
barrier to independent living and limits
the ability of individuals with
disabilities to participate fully in their
communities. One-third of individuals
with disabilities report that inadequate
transportation is a significant problem,
and they are twice as likely to have
inadequate transportation than
individuals without disabilities (N.O.D./
Harris Survey, 2004). Addressing the
problems of accessibility of public
transportation may help to provide the
same degree of convenience,
connection, and safety the general
public enjoys when traveling via plane,
train, or bus.
Points of entry and exit, public rightsof-way, communications, and bus and
rail stations and stops are just a few of
the areas posing transportation
accessibility problems for individuals
with disabilities. The physical
dimensions and space limitations of the
transport vehicle may prohibit easy
entry, transfer to vehicle seats, or use of
the services and facilities available on a
plane, train, or bus. In addition, costs,
physical ability, and perceptions of
safety are all considered barriers to
public transportation (Peck & Hess,
2006).
Accordingly, NIDRR seeks to fund an
RERC on Accessible Public
Transportation to address the need for
improvements in the accessibility of
public transportation, provide safe and
dignified travel for individuals with
disabilities, and increase community
participation by individuals with
disabilities. The focus of this RERC is on
travel via air, rail, and bus.
References
N.O.D./Harris Survey of Americans with
Disabilities (2004). Harris Interactive,
111 Fifth Avenue, New York, NY 10003.
Peck, M. & Hess D. (2006). Barriers to Using
Public Transit among Diverse Older
Adults: Implications for Social Work.
https://sswr.confex.com/sswr/2007/
techprogram/P7047.HTM
Priority 24—Prosthetics and Orthotics
In the United States, it is estimated
that there are 1.2 to 1.9 million
individuals living with limb loss
(Adams, Hendershot, & Marano, 1999).
In addition, it is estimated that 75
percent of individuals with limb loss
use a prosthetic device (Nielsen, 2002).
The majority of amputations are
PO 00000
Frm 00024
Fmt 4701
Sfmt 4703
generally the result of peripheral
vascular disease. Cancer, congenital
limb loss, and trauma are the other
major causes of amputation. It is
difficult to accurately estimate orthotic
use in the United States, because
orthotics are used by many different
pathology populations (stroke, spinal
cord injury, cerebral palsy, orthopedic
impairment) and orthoses are not often
used on a permanent basis.
Increased knowledge and
understanding about prosthetics and
orthotics, and a greater emphasis on
objective measures, such as
performance, efficacy, and energy
expenditures, that inform clinical
practice should lead to the development
of new concepts and devices to improve
the quality, cost-effectiveness, and
delivery of prosthetic and orthotic
fittings.
Accordingly, NIDRR seeks to fund an
RERC that researches and develops
innovative prosthetic and orthotic
technologies and designs to enhance the
ability of individuals with limb loss and
impaired limb function to perform
activities of daily living, to have
expanded employment options, to
participate in sports and leisure
activities, and to improve their health
and participation outcomes.
References
Adams, P.F., Hendershot, G.E., & Marano,
M.A. (1999). Current estimates from the
National Health Interview Survey, 1996.
National Center for Health Statistics.
Vital Health Stat 10(200).
Nielsen, C. (2002). Issues Affecting The
Future Demand for Orthotists and
Prosthetists: Update 2002. A study
updated for the National Commission on
Orthotic and Prosthetic Education, May
2002.
Priority 25—Communication
Enhancement
‘‘Approximately 1.3 percent of all
individuals [in the United States] (i.e.,
more than 3.5 million Americans) have
such significant communication
disabilities that they cannot rely on
their natural speech to meet their daily
communication needs.’’ (Beukelman,
2005). For these individuals,
augmentative and alternative
communication (AAC) strategies would
facilitate participation and
independence.
The number of individuals who may
benefit from AAC will continue to grow
as the American population ages and
the associated prevalence of acquired
communication disorders increases.
Also, improvements in medical
practices and technologies have resulted
in increased survival rates among at risk
infants and children, which, in turn, has
E:\FR\FM\31AUN2.SGM
31AUN2
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
led to an increase in the number of
individuals with moderate to severe
disabilities (Hack et al., 2005). In
addition, the prevalence of autism
spectrum disorders (ASD) has increased
and more individuals with ASD and
their caregivers are actively seeking, and
expecting to find, intervention services
that include AAC (Blackstone, 2005).
Accordingly, NIDRR seeks to fund an
RERC that enhances communication for
individuals with communication
disabilities, promotes greater
participation of individuals with
communication disabilities in
employment and education, increases
independence for these individuals, and
researches and develops innovative
technologies and techniques to improve
the state of the science and usability of
AAC technology.
pwalker on PROD1PC71 with NOTICES2
References
Beukelman, D.R. & Mirenda, P. (2005).
Augmentative and Alternative
Communication: Supporting children
and adults with complex communication
needs. (3rd edition). Baltimore: Paul H.
Brookes Publishing, p.3.
Blackstone, S.W. (2003). Overview and
Update. Augmentative Communication
News. 15:4, 2–3.
Hack, M., Taylor, H., Drotar, D., Schluchter,
M., Cartar, L., Andreias, L., WilsonCostello, D., & Klein, N. (2005). Chronic
Conditions, Functional Limitations, and
Special Health Care Needs of SchoolAged Children Born with Extra Low
Birth Weight in the 1990’s. Journal of the
American Medical Association (JAMA),
294(3), 318–325.
Priority 26—Universal Interface and
Information Technology Access
Information technologies have the
potential to provide or increase access
to professional, educational, social, and
economic resources among individuals
with disabilities (Gorski & Clark, 2002).
Unfortunately, large discrepancies in
the rates of use of information
technologies exist between individuals
with and without disabilities. According
to data collected by the Bureau of Labor
Statistics and the U.S. Census, 57.6
percent and 54.4 percent of individuals
without disabilities use a computer at
home and access the Internet at home,
respectively. These same data suggest
that only 30.2 percent and 26.4 percent
of individuals with disabilities use a
computer at home and access the
Internet at home, respectively. In
addition, while 63.6 percent of
individuals without disabilities access
the Internet at some location, only 30.8
percent of individuals with disabilities
do so (Dobransky & Hargittai, 2006).
Information technology access
development efforts are utilizing V2
Information Technology Access
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
Interface standards to build and test
new universally designed interfaces that
accommodate individuals with and
without disabilities (International
Committee for Information Technology
Standards, 2006). These ‘‘smart devices’’
would automatically offer the user the
appropriate interface and adapt to the
way in which the user interacts with it
(Horn & West, 2005).
Despite the promise of a universally
designed information technology (IT)
interface or device, most currently
existing IT devices still need to be
retrofitted with customized input and
output interfaces so individuals with
disabilities can use them. Further
research on the effectiveness of existing
alternative input and output interfaces
and the design specifications necessary
to construct universally designed IT
interfaces and devices of the future is
needed.
Accordingly, NIDRR seeks to fund an
RERC that enhances the effectiveness of
currently available input and output IT
interfaces and devices used by
individuals with varying disabilities to
facilitate community participation and
independent living.
References
Dobransky, K. & Hargittai, E. (2006). The
disability divide in Internet access and
use. Information, Communication &
Society. 9(3), 313–334.
Gorski, P. & Clark, C. (2002). Multicultural
Education and the Digital Divide: Focus
on Disability. Multicultural Perspectives.
4(4), 28–36.
Horn, P. & West, F. (2005). Introduction. IBM
systems Journal. 44(3), 1–2.
International Committee for Information
Technology Standards (2006). V2—
Information Technology Access
Interfaces. Gaithersburg, MD: National
Institute of Standards and Technology.
See: https://v2.incits.org/.
Priority 27—Wheeled Mobility
Among the United States population
of individuals aged 15 years and older,
2.7 million individuals use a wheelchair
or similar device (2002 SIPP data cited
in Steinmetz, 2006). As more
individuals with disabilities advance in
age and as more aging individuals
acquire disabilities, the number of
wheeled-mobility device users will
increase (White House Conference on
Aging, 2005). Addressing the needs of
this diverse population requires
engineering and related fields to
develop new solutions to existing
problems and provide innovation and
advancement in wheeled mobility.
Despite advances in knowledge in
wheelchair propulsion technique,
secondary injury prevention,
wheelchair-user interface, and
wheelchair skills training, many
PO 00000
Frm 00025
Fmt 4701
Sfmt 4703
50539
challenges and opportunities for future
research and development exist. For
example, over-use injuries resulting
from long-term wheelchair use are still
a major problem (Arthanat & Strobel,
2006; Van der Woude, de Groot, &
Janssen, 2006; Van der Woude, Janssen,
& Vegger, 2005). In addition, there is a
need for more information on the
ergonomics of wheelchair and scooter
design and use within and across
different environments (e.g., work,
home, school, and outdoors) (Arthanat &
Strobel, 2006; Van der Woude, de Groot,
& Janssen, 2006).
Advances in wheelchair technology
may provide users with greater
functional potential, including increases
in participation and activity, and
decreases in secondary injuries, such as
pressure sores and repetitive strain
injuries. Accordingly, NIDRR seeks to
fund an RERC that improves
understanding of the ergonomics,
design, development, testing, and use of
wheelchairs and scooters within and
across different environments.
References
Arthanat, S. & Strobel, W. (2006). Wheelchair
ergonomics: Implications for vocational
participation. Journal of Vocational
Rehabilitation, 24, 97–109.
Steinmetz, E. (2006). Current Population
Reports: Americans with Disabilities
2002. Washington, DC: U.S. Department
of Commerce, Economics and Statistics
Administration, U.S. Census Bureau.
See: https://www.census.gov/prod/
2006pubs/p70–107.pdf.
Van der Woude, L.H., de Groot, S., & Janssen,
T.W.J. (2006). Manual wheelchairs:
Research and innovation in
rehabilitation, sports, daily life and
health. Medical Engineering & Physics,
28(9), 905–915.
Van der Woude, L.H., Janssen, T.W.J., &
Vegger, D.J. (2005). 3rd International
Congress ‘‘Restoration of wheeled
mobility in SCI rehabilitation: State of
the art III’’: its background. Technology
and Disability, 17, 55–61.
White House Conference on Aging (2005).
Final Report to the President and
Congress: The Booming Dynamics of
Aging: From awareness to action. See:
https://www.whcoa.gov/about/
about.asp#report.
Proposed Priorities
The Assistant Secretary for Special
Education and Rehabilitative Services
proposes the following six priorities for
the establishment of (a) An RERC for
Hearing Enhancement (priority 22); (b)
an RERC for Accessible Public
Transportation (priority 23); (c) an RERC
for Prosthetics and Orthotics (priority
24); (d) an RERC for Communication
Enhancement (priority 25); (e) an RERC
for Universal Interface and Information
Technology Access (priority 26); and (f)
E:\FR\FM\31AUN2.SGM
31AUN2
pwalker on PROD1PC71 with NOTICES2
50540
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
an RERC for Wheeled Mobility (priority
27). Within its designated priority
research area, each RERC will focus on
innovative technological solutions, new
knowledge, and concepts that will
improve the lives of individuals with
disabilities.
(a) RERC for Hearing Enhancement
(Priority 22). Under this priority, the
RERC must research and develop
methods, systems, and technologies that
will assist hearing professionals with
the process of matching hearing
enhancement assistive technologies to
individuals with hearing loss and
associated conditions such as tinnitus.
This includes improving the
compatibility of hearing enhancement
technologies with various environments
such as school, work, recreation, and
social settings.
(b) RERC for Accessible Public
Transportation (Priority 23). Under this
priority, the RERC must research and
develop methods, systems, and devices
that will promote and enhance the
ability of individuals with disabilities to
safely, comfortably, and efficiently
identify destination information, board
and disembark, and use services and
facilities on various types of public
transportation systems such as buses,
passenger trains, and airplanes. This
RERC must emphasize the principles of
universal design in its product research
and development.
(c) RERC for Prosthetics and Orthotics
(Priority 24). Under this priority, the
RERC must increase the understanding
of the scientific and engineering
principles pertaining to human
locomotion, reaching, grasping, and
manipulation, and incorporate those
principles into the design and fitting of
prosthetic and orthotic devices.
(d) RERC for Communication
Enhancement (Priority 25). Under this
priority, the RERC must research and
develop augmentative and alternative
communication technologies and
strategies that will enhance the
communicative capacity of individuals
of all ages with significant
communication disorders across
environments (i.e., education,
employment, recreation, social).
(e) RERC for Universal Interface and
Information Technology Access (Priority
26). Under this priority, the RERC must
research and develop innovative
technological solutions for, and promote
universal access to, current and
emerging information technologies and
technology interfaces that promote a
seamless integration of the multiple
technologies used by individuals with
disabilities in the home, the community,
and the workplace. This RERC must
work collaboratively with the RERC on
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
Telecommunication Access, the RERC
on Mobile Wireless Technologies, and
the NIDRR-funded Information
Technology Technical Assistance and
Training Center.
(f) RERC for Wheeled Mobility
(Priority 27). Under this priority, the
RERC must research and develop
innovative technologies and strategies
that will improve the current state of the
science, design standards, and usability
of wheeled mobility devices and
wheelchair seating systems.
Under each priority, the RERC must
be designed to contribute to the
following outcomes:
(1) Increased technical and scientific
knowledge base relevant to its
designated priority research area. The
RERC must contribute to this outcome
by conducting high-quality, rigorous
research and development projects.
(2) Innovative technologies, products,
environments, performance guidelines,
and monitoring and assessment tools as
applicable to its designated priority
research area. The RERC must
contribute to this outcome through the
development and testing of these
innovations.
(3) Improved research capacity in its
designated priority research area. The
RERC must contribute to this outcome
by collaborating with the relevant
industry, professional associations, and
institutions of higher education.
(4) Improved focus on cutting edge
developments in technologies within its
designated priority research area. The
RERC must contribute to this outcome
by identifying and communicating with
NIDRR and the field regarding trends
and evolving product concepts related
to its designated priority research area.
(5) Increased impact of research in the
designated priority research area. The
RERC must contribute to this outcome
by providing technical assistance to
public and private organizations,
individuals with disabilities, and
employers on policies, guidelines, and
standards related to its designated
priority research area.
(6) Increased transfer of RERCdeveloped technologies to the
marketplace. The RERC must contribute
to this outcome by developing and
implementing a plan for ensuring that
all technologies developed by the RERC
are made available to the public. The
technology transfer plan must be
developed in the first year of the project
period in consultation with the NIDRRfunded Disability Rehabilitation
Research Project, Center on Knowledge
Translation for Technology Transfer.
In addition, under each priority, the
RERC must—
PO 00000
Frm 00026
Fmt 4701
Sfmt 4703
• Have the capability to design, build,
and test prototype devices and assist in
the transfer of successful solutions to
relevant production and service delivery
settings;
• Evaluate the efficacy and safety of
its new products, instrumentation, or
assistive devices;
• Provide as part of its proposal, and
then implement, a plan that describes
how it will include, as appropriate,
individuals with disabilities or their
representatives in all phases of its
activities, including research,
development, training, dissemination,
and evaluation;
• Provide as part of its proposal, and
then implement, in consultation with
the NIDRR-funded National Center for
the Dissemination of Disability Research
(NCDDR), a plan to disseminate its
research results to individuals with
disabilities, their representatives,
disability organizations, service
providers, professional journals,
manufacturers, and other interested
parties;
• Conduct a state-of-the-science
conference on its designated priority
research area in the fourth year of the
project period, and publish a
comprehensive report on the final
outcomes of the conference in the fifth
year of the project period; and
• Coordinate research projects of
mutual interest with relevant NIDRRfunded projects, as identified through
consultation with the NIDRR project
officer.
Executive Order 12866
This notice of proposed priorities has
been reviewed in accordance with
Executive Order 12866. Under the terms
of the order, we have assessed the
potential costs and benefits of this
regulatory action.
The potential costs associated with
this notice of proposed priorities are
those resulting from statutory
requirements and those we have
determined as necessary for
administering this program effectively
and efficiently.
In assessing the potential costs and
benefits—both quantitative and
qualitative—of this notice of proposed
priorities, we have determined that the
benefits of the proposed priorities
justify the costs.
Summary of Potential Costs and
Benefits
The benefits of the Disability and
Rehabilitation Research Projects and
Centers Programs have been well
established over the years in that similar
projects have been completed
successfully. These proposed priorities
E:\FR\FM\31AUN2.SGM
31AUN2
Federal Register / Vol. 72, No. 169 / Friday, August 31, 2007 / Notices
will generate new knowledge and
technologies through research,
development, dissemination, utilization,
and technical assistance projects.
Another benefit of these proposed
priorities is that the establishment of
new DRRPs, new RRTCs, and new
RERCs will support the President’s NFI
and will improve the lives of
individuals with disabilities. The new
DRRPs, RRTCs, and RERCs will
generate, disseminate, and promote the
use of new information that will
improve the options for individuals
with disabilities to perform regular
activities in the community.
pwalker on PROD1PC71 with NOTICES2
Intergovernmental Review
This program is not subject to
Executive Order 12372 and the
regulations in 34 part 79.
VerDate Aug<31>2005
19:24 Aug 30, 2007
Jkt 211001
Applicable Program Regulations: 34
CFR part 350.
Electronic Access to This Document
You may view this document, as well
as all other Department of Education
documents published in the Federal
Register, in text or Adobe Portable
Document Format (PDF) on the Internet
at the following site: https://www.ed.gov/
news/fedregister.
To use PDF you must have Adobe
Acrobat Reader, which is available free
at this site. If you have questions about
using PDF, call the U.S. Government
Printing Office (GPO), toll free, at 1–
888–293–6498; or in the Washington,
DC, area at (202) 512–1530.
Note: The official version of this document
is the document published in the Federal
PO 00000
Frm 00027
Fmt 4701
Sfmt 4703
50541
Register. Free Internet access to the official
edition of the Federal Register and the Code
of Federal Regulations is available on GPO
Access at: https://www.gpoaccess.gov/nara/
index.html.
(Catalog of Federal Domestic Assistance
Numbers 84.133A Disability Rehabilitation
Research Projects, 84.133B Rehabilitation
Research and Training Centers and 84.133E
Rehabilitation Engineering Research Centers
Program)
Program Authority: 29 U.S.C. 762(g),
764(a), 764(b)(2), and 764(b)(3).
Dated: August 27, 2007.
William W. Knudsen,
Acting Deputy Assistant Secretary for Special
Education and Rehabilitative Services.
[FR Doc. E7–17199 Filed 8–30–07; 8:45 am]
BILLING CODE 4000–01–P
E:\FR\FM\31AUN2.SGM
31AUN2
Agencies
[Federal Register Volume 72, Number 169 (Friday, August 31, 2007)]
[Notices]
[Pages 50516-50541]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: E7-17199]
[[Page 50515]]
-----------------------------------------------------------------------
Part IV
Department of Education
-----------------------------------------------------------------------
Funding Priorities for the Disability and Rehabilitation Research
Projects and Centers Program; Notice
Federal Register / Vol. 72 , No. 169 / Friday, August 31, 2007 /
Notices
[[Page 50516]]
-----------------------------------------------------------------------
DEPARTMENT OF EDUCATION
National Institute on Disability and Rehabilitation Research--
Disability and Rehabilitation Research Projects and Centers Program--
Disability Rehabilitation Research Projects (DRRPs), Rehabilitation
Research and Training Centers (RRTCs), and Rehabilitation Engineering
Research Centers (RERCs)
AGENCY: Office of Special Education and Rehabilitative Services,
Department of Education.
ACTION: Notice of proposed priorities for DRRPs, RRTCs, and RERCs.
-----------------------------------------------------------------------
SUMMARY: The Assistant Secretary for Special Education and
Rehabilitative Services proposes certain funding priorities for the
Disability and Rehabilitation Research Projects and Centers Program
administered by the National Institute on Disability and Rehabilitation
Research (NIDRR). Specifically, this notice proposes 10 priorities for
DRRPs, 11 priorities for RRTCs, and 6 priorities for RERCs. The
Assistant Secretary may use these priorities for competitions in fiscal
year (FY) 2008 and later years. We take this action to focus research
attention on areas of national need. We intend these priorities to
improve rehabilitation services and outcomes for individuals with
disabilities.
DATES: We must receive your comments on or before October 1, 2007.
ADDRESSES: Address all comments about these proposed priorities to
Donna Nangle, U.S. Department of Education, 400 Maryland Avenue, SW.,
Room 6029, Potomac Center Plaza, Washington, DC 20204-2700. If you
prefer to send your comments through the Internet, use the following
address: donna.nangle@ed.gov.
You must include the term ``Proposed Priorities for DRRPs, RRTCs,
and RERCs'' and the priority title in the subject line of your
electronic message.
FOR FURTHER INFORMATION CONTACT: Donna Nangle. Telephone: (202) 245-
7462.
If you use a telecommunications device for the deaf (TDD), you may
call the Federal Relay Service (FRS) at 1-800-877-8339.
Individuals with disabilities may obtain this document in an
alternative format (e.g., Braille, large print, audiotape, or computer
diskette) on request to the contact person listed under FOR FURTHER
INFORMATION CONTACT.
SUPPLEMENTARY INFORMATION: This notice of proposed priorities is in
concert with President George W. Bush's New Freedom Initiative (NFI)
and NIDRR's Final Long-Range Plan for FY 2005-2009 (Plan). The NFI can
be accessed on the Internet at the following site: https://
www.whitehouse.gov/infocus/newfreedom.
The Plan, which was published in the Federal Register on February
15, 2006 (71 FR 8165), can be accessed on the Internet at the following
site: https://www.ed.gov/about/offices/list/osers/nidrr/policy.html.
Through the implementation of the NFI and the Plan, NIDRR seeks to:
(1) Improve the quality and utility of disability and rehabilitation
research; (2) foster an exchange of expertise, information, and
training to facilitate the advancement of knowledge and understanding
of the unique needs of traditionally underserved populations; (3)
determine best strategies and programs to improve rehabilitation
outcomes for underserved populations; (4) identify research gaps; (5)
identify mechanisms of integrating research and practice; and (6)
disseminate findings.
One of the specific goals established in the Plan is for NIDRR to
publish all of its proposed priorities, and following public comment,
final priorities, annually, on a combined basis. Under this approach,
NIDRR's constituents can submit comments at one time rather than at
different times throughout the year, and NIDRR can move toward a fixed
schedule for competitions and more efficient grant-making operations.
This notice proposes priorities that NIDRR intends to use for DRRP,
RRTC, and RERC competitions in FY 2008 and possibly later years.
However, nothing precludes NIDRR from publishing additional priorities,
if needed. Furthermore, NIDRR is under no obligation to make an award
for each of these priorities. The decision to make an award will be
based on the quality of applications received and available funding.
NIDRR also intends to publish at least one additional separate
notice of proposed priority for an additional DRRP that would focus on
traditionally underserved populations, as required under section 21 of
the Rehabilitation Act of 1973, as amended. Moreover, for FY 2008
competitions using priorities that already have been established and
for which publication of a notice of proposed priority is unnecessary
(e.g., competitions for Field-Initiated Projects, Advanced
Rehabilitation Research Training Projects, Fellowships, and Small
Business Innovation Research Projects), NIDRR has published or will
publish notices inviting applications. More information on these other
projects and programs that NIDRR intends to fund in FY 2008 can be
found on the Internet at the following site: https://www.ed.gov/fund/
grant/apply/nidrr/priority-matrix.html.
Invitation To Comment
We invite you to submit comments regarding these proposed
priorities. To ensure that your comments have maximum effect in
developing the notice of final priorities, we urge you to identify
clearly the specific proposed priority or topic that each comment
addresses.
We invite you to assist us in complying with the specific
requirements of Executive Order 12866 and its overall requirement of
reducing regulatory burden that might result from these proposed
priorities. Please let us know of any further opportunities we should
take to reduce potential costs or increase potential benefits while
preserving the effective and efficient administration of the program.
During and after the comment period, you may inspect all public
comments about these proposed priorities in room 6030, 550 12th Street,
SW., Potomac Center Plaza, Washington, DC, between the hours of 8:30
a.m. and 4 p.m., Eastern time, Monday through Friday of each week
except Federal holidays.
Assistance to Individuals With Disabilities in Reviewing the Rulemaking
Record
On request, we will supply an appropriate aid, such as a reader or
print magnifier, to an individual with a disability who needs
assistance to review the comments or other documents in the public
rulemaking record for these proposed priorities. If you want to
schedule an appointment for this type of aid, please contact the person
listed under FOR FURTHER INFORMATION CONTACT.
We will announce the final priorities in one or more notices in the
Federal Register. We will determine the final priorities after
considering responses to this notice and other information available to
the Department. This notice does not preclude us from proposing or
using additional priorities, subject to meeting applicable rulemaking
requirements.
Note: This notice does not solicit applications. In any year in
which we choose to use these proposed priorities, we invite
applications through a notice in the Federal Register. When inviting
applications we designate the priorities as absolute, competitive
preference, or invitational.
The effect of each type of priority follows:
[[Page 50517]]
Absolute priority: Under an absolute priority, we consider only
applications that meet the priority (34 CFR 75.105(c)(3)).
Competitive preference priority: Under a competitive preference
priority, we give competitive preference to an application by either
(1) Awarding additional points, depending on how well or the extent to
which the application meets the competitive preference priority (34 CFR
75.105(c)(2)(i)); or (2) selecting an application that meets the
competitive preference priority over an application of comparable merit
that does not meet the priority (34 CFR 75.105(c)(2)(ii)).
Invitational priority: Under an invitational priority, we are
particularly interested in applications that meet the invitational
priority. However, we do not give an application that meets the
invitational priority a competitive or absolute preference over other
applications (34 CFR 75.105(c)(1)).
Priorities
In this notice, we are proposing 10 priorities for DRRPs, 11
priorities for RRTCs, and 6 priorities for RERCs.
For DRRPs, the proposed priorities are:
Priority 1--Health Care Coordination for Individuals with
Physical Disabilities.
Priority 2--Assistive Technology (AT) Reuse.
Priority 3--Health and Health Care Disparities Among
Individuals with Disabilities.
Priority 4--Traumatic Brain Injury Model Systems (TBIMS)
Centers Collaborative Research Projects.
Priority 5--Classification and Measurement of Medical
Rehabilitation Interventions.
Priority 6--Vocational Rehabilitation Service Models for
Individuals with Autism Spectrum Disorders.
Priority 7--Center on Knowledge Translation for Assistive
Technology Transfer.
Priority 8--Asset Accumulation and Economic Self-
Sufficiency for Individuals with Disabilities.
Priority 9--Technology Transfer in Resource-Limited
Environments.
Priority 10--Research and Knowledge Translation Center for
Individuals with Disabilities and Their Families.
For RRTCs, the proposed priorities are:
Priority 11--General Rehabilitation Research and Training
Center (RRTC) Requirements.
Priority 12--Enhancing the Health and Wellness of
Individuals with Neuromuscular Diseases.
Priority 13--Enhancing the Health and Wellness of Persons
with Arthritis.
Priority 14--Stroke Rehabilitation.
Priority 15--Personal Assistance Services (PAS) in the
21st Century.
Priority 16--Participation and Community Living for
Individuals with Psychiatric Disabilities.
Priority 17--Multiple Sclerosis: Interventions to Maximize
Health, Well-Being, and Participation.
Priority 18--Aging with Physical Disability: Reducing
Secondary Conditions and Enhancing Health and Participation.
Priority 19--Disability Statistics and Demographics.
Priority 20--Health and Function Across the Lifespan of
Individuals with Intellectual and Developmental Disabilities.
Priority 21--Participation and Community Living for
Individuals with Intellectual and Developmental Disabilities.
For RERCs, the proposed priorities are:
Priority 22--RERC for Hearing Enhancement.
Priority 23--RERC for Accessible Public Transportation.
Priority 24--RERC for Prosthetics and Orthotics.
Priority 25--RERC for Communication Enhancement.
Priority 26--RERC for Universal Interface and Information
Technology Access.
Priority 27--RERC for Wheeled Mobility.
Disability and Rehabilitation Research Projects (DRRP) Program
The purpose of the DRRP program is to plan and conduct research,
demonstration projects, training, and related activities to develop
methods, procedures, and rehabilitation technologies that maximize the
full inclusion and integration into society, employment, independent
living, family support, and economic and social self-sufficiency of
individuals with disabilities, especially individuals with the most
severe disabilities, and to improve the effectiveness of services
authorized under the Rehabilitation Act of 1973, as amended. DRRPs
carry out one or more of the following types of activities, as
specified and defined in 34 CFR 350.13 through 350.19: research,
development, demonstration, training, dissemination, utilization, and
technical assistance.
An applicant for assistance under this program must demonstrate in
its application how it will address, in whole or in part, the needs of
individuals with disabilities from minority backgrounds (34 CFR
350.40(a)). The approaches an applicant may take to meet this
requirement are found in 34 CFR 350.40(b). In addition, NIDRR intends
to require all DRRP applicants to meet the requirements of the General
Disability and Rehabilitation Research Projects (DRRP) Requirements
priority that it published in a notice of final priorities in the
Federal Register on April 28, 2006 (71 FR 25472).
Additional information on the DRRP program can be found at: https://
www.ed.gov/rschstat/research/pubs/res-program.html#DRRP.
Proposed Priorities
Priority 1--Health Care Coordination for Individuals With Physical
Disabilities
Background
Individuals with disabilities use a disproportional share of health
care services in the United States (DeJong et al., 2002). The Centers
for Medicare and Medicaid Services (CMS) programs recognize this trend
and try to control its economic consequences by enrolling individuals
with disabilities in managed care programs in increasing numbers
(Palsbo & Mastal, 2006). A small but growing number of Medicaid managed
care plans are designed specifically for individuals with disabilities.
These plans feature intensive care coordination services that integrate
the complex health and long-term care needs of individuals with
disabilities (Palsbo & Mastal, 2006; Master, 2003).
Pursuant to the Medicare Prescription Drug, Improvement, and
Modernization Act of 2003, CMS also contracts with a growing number of
Medicare health plans to provide health care coordination and services
for Medicare beneficiaries who have severe or disabling chronic
conditions (Peters, 2005).
Health care coordination is an increasingly important component of
high-quality health care for individuals with disabilities (Cheng et
al., 2004; Lawthers et al., 2003; Kroll, 2003). On average, individuals
with disabilities have more complex and multi-faceted health care needs
than individuals without disabilities. For example, individuals with
disabilities often require the involvement of multiple medical and
ancillary providers, including long-term care providers (DeJong et al.,
2002). Individuals with disabilities also often find it difficult to
navigate the complex, fragmented health and long-term care service
systems that are critical to maintaining their health, functional
abilities, and independence in the community. Recognizing the
[[Page 50518]]
importance of integration and coordination of health and long-term care
services, NIDRR states that ``individuals with disabilities should have
access to an integrated continuum of health care services, including
primary care and health maintenance services, specialty care, medical
rehabilitation, long-term care, and health promotion programs'' (NIDRR
Long-Range Plan, 2005-2009). Toward this goal, NIDRR seeks to sponsor
rigorous research to assess the outcomes associated with managed health
care coordination programs for individuals with disabilities.
A number of small pilot studies suggest an association between
enrollment in managed health care coordination programs for individuals
with disabilities and positive outcomes such as increased satisfaction
with health care services, greater access to a wide variety of health
and long-term care services, and decreased utilization of costly
emergency and hospital-based services (Surpin, 2007; Palsbo, Mastal, &
O'Donnell, 2006; Master, 2003). More systematic, peer-reviewed research
is required to determine the extent to which these health care
coordination programs for individuals with disabilities relate to
improvements in both the health and health care experiences of their
clients and to cost savings for public financing mechanisms.
References
Cheng, E., Siderow, A., Swarztrauber, K., Eisa, M., Lee, M., &
Vickrey, B. (2004). Development of Quality of Care Indicators for
Parkinson's Disease. Movement Disorders. 19(2): 136-150.
DeJong, G., Palsbo, S., Beatty, P., Jones, G., Kroll, T., & Neri, M.
(2002). The Organization and Financing of Health Services for People
With Disabilities. Milbank Quarterly. 80(2): 261-301.
Kroll, T. (2003). Towards Improving Health Care Delivery for People
With Physical Disabilities: Findings From Focus Groups with Health
Care Consumers in Minnesota. Managed Care Quarterly. 11(4): 8-14.
Lawthers, A., Pransky, G., Peterson, L., & Himmelstein, J. (2003).
Rethinking Quality in the Context of Persons With Disability.
International Journal for Quality in Health Care. 15(4): 279-281.
Master, R., Simon, L., & Goldfield, N. (2003). Commonwealth Care
Alliance. A New Approach to Coordinated Care for the Chronically Ill
and Frail Elderly That Organizationally Integrates Consumer
Involvement. Journal of Ambulatory Care Management. 26(4): 355-361.
National Institute on Disability and Rehabilitation Research. Notice
of Final Long Range Plan for Fiscal Years 2005-2009. Pages: 8166-
8200. https://www.ed.gov/about/offices/list/osers/nidrr/policy.html.
Palsbo, S. & Mastal, M. (2006). Disability Care Coordination Care
Organizations: The Experience of Medicaid Managed Care Programs for
People With Disabilities. Center for Health Care Strategies.
Resource Paper. https://www.chcs.org/usr_doc/DCCOs.pdf.
Palsbo, S., Mastal, M., & O'Donnell, L. (2006). Disability Care
Coordination Organizations: Improving Health and Function in People
With Disabilities. Lippincotts Case Management. 11(5): 255-264.
Peters, C.P. (2005). Medicare Advantage SNPs: A New Opportunity for
Integrated Care? Washington DC: National Health Policy Forum. Issue
Brief 808.
Surpin, R. (2007). Independence Care System: A Disability Care
Coordination Organization in New York City. Journal of Ambulatory
Care Management. 30(1): 52-63.
Proposed Priority
The Assistant Secretary for Special Education and Rehabilitative
Services proposes a priority for a Disability Rehabilitation Research
Project (DRRP) on Health Care Coordination for Individuals with
Disabilities. The purpose of this priority is to conduct research on
the outcomes of Medicare or Medicaid managed health care coordination
programs for individuals with disabilities. Under this priority, the
DRRP must be designed to contribute to the following outcomes:
(a) New knowledge about the extent to which enrollment in health
care coordination programs enhances access to health care for
individuals with disabilities. The DRRP must contribute to this outcome
by conducting research on, and evaluating, one or more existing
Medicaid- or Medicare-funded health care coordination programs for
individuals with disabilities.
(b) New knowledge about the health outcomes associated with
participation in health care coordination programs for individuals with
disabilities. The DRRP must contribute to this outcome by conducting
research on, and evaluating, one or more existing Medicaid- or
Medicare-funded health care coordination programs for individuals with
disabilities.
(c) New knowledge about potential Medicaid or Medicare cost savings
that are associated with health care coordination efforts for
individuals with disabilities. The DRRP must contribute to this outcome
by conducting research on, and evaluating, one or more existing
Medicaid- or Medicare-funded health care coordination programs for
individuals with disabilities.
In addition, the DRRP must work with the NIDRR Project Officer to
coordinate its research efforts with the Centers for Medicare and
Medicaid Services--Office of Research, Development, and Information.
Priority 2--Assistive Technology (AT) Reuse
Background
Reuse programs are emerging as one potential solution to providing
more assistive technology (AT) to individuals with disabilities at
lower costs (Pass It On Center). For example, the Rehabilitation
Services Administration (RSA) of the U.S. Department of Education has
funded model demonstration projects to establish or expand statewide AT
device reutilization programs. Device reuse programs, such as exchange
programs and reassignment programs, facilitate the transfer of
previously-used AT from one consumer to another. Each of these programs
has distinct features and benefits. An exchange program assists in
connecting users to transfer AT directly among themselves. Reassignment
programs, on the other hand, accept used AT, sanitize it, identify
appropriate users, and redistribute the AT following sanitization and
matching.
One advantage of reuse programs, in general, is that they provide
consumers with access to AT devices at reasonably lower costs. AT
equipment provided through these programs also leads to an increased
capacity for community living and participation by individuals with
disabilities. AT reuse programs meet varied needs and circumstances
surrounding consumer access to AT, such as access on a temporary basis,
or access for trial purposes to assess the benefit and effectiveness of
a device for a consumer's use.
A number of barriers and obstacles limit the utility of AT reuse
programs. A recent study found that individuals with disabilities or
other family members, not third parties, most frequently pay for
commonly used AT devices, special adaptations, and environmental
accommodations (Carlson & Ehrlich, 2006). Consumer access to AT and
compensation for AT is often limited by conflicting eligibility
requirements of current policies regulating the provision of AT. In
addition, third-party payment restrictions frequently minimize the
extent to which Medicare, Medicaid, private insurance, and vocational
rehabilitation can assist with AT costs. Increased awareness of the
potential costs and benefits associated with AT reuse programs can
positively impact their use, and in addition, has implications for
third-party payment coverage for reused AT. Furthermore,
[[Page 50519]]
AT reuse programs do not have the benefit of a national coordinated
system to assist in sustaining or expanding programs. Nor do AT reuse
programs have the benefit of research that has identified methods,
models, and measures for enhancing program effectiveness and improving
consumer outcomes.
At the present time, there is little data available to guide the
management, enhancement, or expansion of these programs. Few research
studies have been conducted to inform the AT reuse field of validated
methods, models, and measures that lead to improved program and
consumer outcomes. This field needs new knowledge regarding factors
that influence success of AT reutilization programs, e.g., program
design, staffing, training, funding sources, and use of collaborative
partnerships in operating AT reuse programs. Specifically, more
research is needed to examine how these and other factors affect
program outcomes and to identify the most effective measures available
to assess program quality as well as the costs and benefits of the
program. Numerous reuse programs in the United States could benefit
from research in this area.
References
Carlson, D. & Ehrlich, N. (2006). Sources of payment for assistive
technology: Findings from a national survey of persons with
disabilities. Assistive Technology, 18(1), 77-86.
Pass It On Center. https://www.passitoncenter.org.
Proposed Priority
The Assistant Secretary for Special Education and Rehabilitative
Services proposes a priority for a Disability Rehabilitation Research
Project (DRRP) on Assistive Technology (AT) Reuse for individuals with
disabilities. The purpose of this priority is to support research that
will identify methods, systems, policies, and collaborative strategies
to improve reutilization and recycling of AT. Under this priority, the
DRRP must be designed to contribute to the following outcomes:
(a) Enhanced understanding of how third-party payments for
purchases of AT affect AT reuse programs. The DRRP must contribute to
this outcome by conducting an analysis of current policy and consumer
eligibility requirements and by generating relevant recommendations
related to AT reuse.
(b) New knowledge that positively affects the establishment,
expansion, and maintenance of AT reuse programs. The DRRP must
contribute to this outcome by conducting research studies validating
effective methods and models for conducting AT reutilization activities
(e.g., program design; alternative recycling methods; partnerships;
program marketing strategies; and recruitment, retention, and training
of AT reuse staff).
(c) Improved methods and strategies for assessing the costs and
benefits, including cost-savings, of AT reuse programs. The DRRP must
contribute to this outcome by identifying, developing, and testing
appropriate models to be used at the program level that can help inform
third-party payers of the costs and benefits associated with AT reuse
programs.
(d) Improved understanding of AT reuse outcomes for individuals
with disabilities. The DRRP must contribute to this outcome by
conducting studies that assess and inform the AT field about the impact
of acquiring AT through reuse programs.
(e) Improved collaboration and use of research findings through
effective coordination within the network of relevant NIDRR RRTCs,
Rehabilitation Engineering Research Centers, DRRPs, and federally
funded programs, such as the Rehabilitation Services Administration
(RSA) AT State grants, the National AT Device Reutilization
Coordination and Technical Assistance Center, and grantees under RSA's
Model Demonstrations for AT Device Reutilization program.
Priority 3--Health and Health Care Disparities Among Individuals With
Disabilities
Background
In 2005, the U.S. Surgeon General released a ``Call to Action to
Improve the Health and Wellness of Persons With Disabilities'' that
delineated a series of strategies to optimize the health and wellness
of individuals with disabilities, (U.S. Department of Health and Human
Services (HHS), 2005). The Surgeon General proposed these strategies in
light of the growing body of research literature indicating that
individuals with disabilities are, on average, less likely than those
without disabilities to report positive health (Krahn, Hammond, &
Turner, 2006; Hough, 1999) and less likely to receive recommended
health care services (Kroll et al., 2006; McCarthy et al., 2006; Jones
& Beatty, 2003).
While the body of research that examines health disparities between
individuals with and without disabilities is expanding, few studies
have examined the health and health care disparities within the diverse
population of individuals with disabilities in the United States.
Health disparities recently have been defined as ``observed clinically
and statistically significant differences in health outcomes or health
care use between socially distinct vulnerable and less vulnerable
populations'' (Kilbourne et al., 2006). The broad population of 52
million individuals with disabilities (HHS, 2005) is heterogeneous in
terms of a number of factors that may be related to increased
vulnerability for poor health care access and poor health. These
factors include, but are not limited to, disabling condition category
(i.e., mental illness, sensory, physical, cognitive, or combinations
thereof), disability severity, age, gender, race, ethnicity,
socioeconomic status, education level, urban/rural status, health
insurance payer type (Medicare, Medicaid, private insurance), provider
type, and other social, personal, and environmental characteristics.
NIDRR recognizes that ``while health services researchers are
increasingly attuned to racial and ethnic disparities in health care,
less attention and fewer resources are devoted to disability-related
disparities and the innovations in policy and practice that might
reduce them'' (NIDRR Long Range Plan, 2005). The Health and Function
chapter of the NIDRR Long Range Plan promotes research on the health
and health care experiences of the wide diversity of individuals with
disabilities (NIDRR Long Range Plan, 2005).
Given the wide diversity of individuals with disabilities and the
limited information available about existing health care access and
outcome disparities that exist within this population, research is
needed to improve our understanding about the factors that contribute
to health disparities. New knowledge about these factors can be used to
create targeted policies, programs, and interventions that promote
health and wellness among the individuals with disabilities who are
most vulnerable and most likely to demonstrate health outcomes
traditionally attributed to disparate treatment or health care access
difficulties.
References
Hough, J. (1999). Disability and Health: A National Public Health
Agenda. In Simeonsson, R.J., McDevitt, L.N. (Eds.). Issues in
Disability and Health. The Role of Secondary Conditions and Quality
of Life. Chapel Hill NC: University of North Carolina Press.
Jones, G. & Beatty, P. (2003). Disparities in Preventive Service Use
Amongst Working-Age Adults With Mobility Limitations. In Altman, B.,
Barnartt, S., Hendershot, G., & Larson, S. (Eds.)
[[Page 50520]]
Research in Social Science and Disability 1 Volume 3: Using Survey
Data To Study Disability: Results From the National Health Interview
Survey on Disability. Pages: 109-130. Oxford, UK: Elsevier.
Kilbourne, A., Switzer, G., Hyman, K., Crowley-Matoka, M., & Fine,
M. (2006). Advancing Health Disparities Research Within the Health
Care System: A Conceptual Framework. American Journal of Public
Health. 96(12): 2113-2121.
Krahn, G., Hammond, L., & Turner, A. (2006). A Cascade of
Disparities: Health and Health Care Access for People With
Intellectual Disabilities. Mental Retardation and Developmental
Disabilities Research Reviews. 12(1): 70-82.
Kroll, T., Jones, G., Kehn, M., & Neri, M. (2006). Barriers and
Strategies Affecting the Utilization of Primary Preventive Services
for People With Physical Disabilities: A Qualitative Inquiry. Health
and Social Care in the Community. 14(4): 284-293.
McCarthy, E., Ngo, L., Roetzheim, R., Chirikos, T., Li, D., Drews,
R., & Iezzoni, L. (2006). Disparities in Breast Cancer Treatment and
Survival for Women With Disabilities. Annals of Internal Medicine.
145(9): 637-645.
National Institute on Disability and Rehabilitation Research. Notice
of Final Long Range Plan for Fiscal Years 2005-2009. Pages: 8166-
8200. https://www.ed.gov/about/offices/list/osers/nidrr/policy.html.
U.S. Department of Health and Human Services (2005). The Surgeon
General's Call to Action To Improve the Health and Wellness of Persons
With Disabilities. U.S. Department of Health and Human Services, Office
of the Surgeon General.
Proposed Priority
The Assistant Secretary for Special Education and Rehabilitative
Services proposes a priority for a Disability Rehabilitation Research
Project (DRRP) on Health and Health Care Disparities Among Individuals
With Disabilities. The purpose of this priority is to build a knowledge
base about health care access and health outcomes among the diverse
population of individuals with disabilities. Under this priority, the
DRRP must be designed to contribute to the following outcomes:
(a) A foundation of available knowledge about health disparities
among subpopulations of individuals with disabilities. The DRRP must
contribute to this outcome by conducting a review and synthesis of
existing research on health and health care access among individuals
with disabilities or subgroups of individuals with disabilities. The
DRRP must then use this review and synthesis to inform the subsequent
research and evaluation efforts of the DRRP.
(b) New knowledge about system-level factors that are associated
with the health and health care access of individuals with
disabilities. The DRRP must contribute to this outcome by conducting
research on the extent to which the health and health care access of
individuals with disabilities are related to system-level factors that
include, but are not limited to, rural or urban status, as well as
characteristics of their health care insurance or health care
providers.
(c) New knowledge about the individual-level characteristics of
individuals with disabilities that are associated with their health and
access to health care. The DRRP must contribute to this outcome by
conducting research on the extent to which the health and health care
access of individuals with disabilities are related to their disabling
condition categories (mental illness, sensory, physical, cognitive, or
combinations thereof), disability severity, age, gender, race,
ethnicity, socioeconomic status, education level, or other individual-
level characteristics.
(d) Improved policies, programs, or interventions that promote the
health and health care access of the subpopulations of individuals with
disabilities who are least likely to receive recommended health care
services. The DRRP must contribute to this outcome by applying
knowledge derived from research conducted under paragraphs (a), (b),
and (c) of this priority.
In addition, the DRRP must collaborate with the Rehabilitation
Research and Training Center on Health and Wellness, and other projects
as identified through consultation with the NIDRR project officer.
Priority 4--Traumatic Brain Injury Model Systems (TBIMS) Centers
Collaborative Research Projects
Background
The Centers for Disease Control and Prevention (CDC) report that at
least 1.4 million individuals sustain a traumatic brain injury (TBI) in
the United States each year (Langlois, Rutland-Brown, & Thomas, 2004).
Of these, approximately 50,000 die, 235,000 are hospitalized, and 1.1
million are treated and released from emergency departments. These
estimates do not include those individuals who sustained a TBI and did
not seek medical care, or who were seen only in private doctors'
offices. The three leading causes of TBI are motor vehicle/traffic
collisions, falls, and assaults.
CDC reports that each year an estimated 80,000 to 90,000 Americans
sustain TBI resulting in permanent disability. At least 5.3 million
Americans have a long-term or lifelong need for help to perform
activities of daily living as a result of TBI (Thurman et al., 1999).
The nature and extent of disability resulting from TBI depend on
several factors, such as the severity and location of the injury, the
length of impaired consciousness, the age and general health of the
patient, and the intensity of rehabilitation services (Cifu et al.,
2003; Dikmen et al., 2003; Sarajuuri et al., 2005). Common clinical
sequelae of TBI include problems with cognition, sensory processing,
communication, and behavioral or mental health. Some TBI survivors also
can develop long-term medical complications, such as Parkinson's
disease and other motor problems, Alzheimer's disease, and post-
traumatic dementia (National Institute of Neurological Disorders and
Stroke, 2002).
NIDRR created the TBI Model Systems (TBIMS) program in 1987 to
demonstrate the benefits of a coordinated system of neurotrauma and
rehabilitation care and to conduct innovative research on all aspects
of care for those who sustain TBI. The mission of the TBIMS program is
to improve the lives of persons who experience TBI and their families
by creating and disseminating new knowledge about the natural course of
TBI and rehabilitation treatment and outcomes for individuals who
sustain TBI. NIDRR currently funds 14 TBIMS centers throughout the
United States. (Additional information on the TBIMS centers can be
found at https://www.naric.com). These centers provide comprehensive
systems of brain injury care to individuals who sustain TBI. They also
conduct TBI research, including clinical research and the analyses of
standardized data in collaboration with other related projects. The
research activities of the TBIMS centers include participation in joint
research module projects, which range from pilot research to more
extensive studies. TBIMS centers also are required to contribute
information on common data elements to a centralized TBIMS database.
(Additional information on the TBIMS database can be found at https://
www.tbindsc.org.) To date, TBIMS centers have contributed 6157 cases to
the TBIMS database, with followup data extending to 15 years post
injury.
In 2003 NIDRR leveraged the capacity of the TBIMS program by
funding large-scale collaborative research projects.
[[Page 50521]]
These collaborative projects included a randomized controlled trial of
the effectiveness of amantadine hydrochloride in promoting recovery of
functioning following TBI, and a study of the effect of scheduled
telephone intervention on outcomes after TBI. Through the funding of
this priority, the TBIMS program will continue to serve as a platform
for multi-site research that contributes to evidence-based
rehabilitation interventions and improves the lives of individuals with
TBI.
References
Cifu, D.X., Kreutzer, J.S., Kolakowsky-Hayner, S.A., Marwitz, J.H.,
& Englander, J. (2003). The Relationship Between Therapy Intensity
and Rehabilitative Outcomes After Traumatic Brain Injury: A
Multicenter Analysis. Archives of Physical Medicine and
Rehabilitation, 84(10): 1441-8.
Dikmen, S.S., Machamer, J.E., Powell, J.M., & Temkin, N.R. (2003).
Outcome 3 to 5 Years After Moderate to Severe Traumatic Brain
Injury. Archives of Physical Medicine and Rehabilitation, 84(10):
1449-57.
Langlois, J.A., Rutland-Brown, W., & Thomas, K.E. (2004). Traumatic
Brain Injury in the United States: Emergency Department Visits,
Hospitalizations, and Deaths. Atlanta, GA: Centers for Disease
Control and Prevention, National Center for Injury Prevention and
Control.
National Institute of Neurological Disorders and Stroke (NINDS).
(2002, February). Traumatic Brain Injury: Hope Through Research.
Bethesda, MD: National Institute of Health. NIH Publication No. 02-
2478. See: https://www.ninds.nih.gov/disorders/tbi/detail_tbi.htm.
Sarajuuri, J.M., Kaipio, M.L., Koskinen, S.K., Niemela, M.R., Servo,
A.R., & Vilkki, J.S. (2005). Outcome of a Comprehensive
Neurorehabilitation Program for Patients with Traumatic Brain
Injury. Archives of Physical Medicine and Rehabilitation, 86(12):
2296-302.
Thurman, D.J., Alverson, C.A., Dunn, K.A., Guerrero, J., & Sniezek,
J.E. (1999). Traumatic Brain Injury in the United States: A Public
Health Perspective. Journal of Head Trauma Rehabilitation, 14(6):
602-615.
Proposed Priority
The Assistant Secretary proposes a priority for Disability and
Rehabilitation Research Projects (DRRPs) on Traumatic Brain Injury
Model Systems (TBIMS) Collaborative Projects. Each DRRP under this
priority must conduct research that contributes to evidence-based
rehabilitation interventions, including, but not limited to, medical,
psychological, vocational, and social interventions for the purpose of
improving the lives of individuals with traumatic brain injury (TBI).
To be eligible under this priority, an applicant must be currently
funded under NIDRR's TBIMS program.
Under this priority, each DRRP must be designed to contribute to
the following outcomes:
(a) Increased utilization of the TBIMS capacity. The DRRP must
contribute to this outcome by collaborating with three or more of the
NIDRR-funded TBIMS centers (for a minimum of four TBIMS sites).
Note: Applicants under this priority may propose to include
other TBI research sites that are not participating in a NIDRR-
funded TBIMS program in their collaborative research projects.
(b) Improved long-term outcomes of individuals with TBI. The DRRP
must contribute to this outcome by using clearly identified research
designs to conduct collaborative research on questions of significance
to TBI rehabilitation. The DRRP's research must focus on one or more
specific domains identified in NIDRR's Final Long-Range Plan for FY
2005-2009, including health and function, participation and community
living, technology, and employment, and must be designed to ensure that
the research study has appropriate research hypotheses and methods to
generate reliable and valid findings.
In addition, the DRRP must address the following requirements:
Demonstrate the capacity to carry out collaborative,
multi-site research projects, including the ability to coordinate
research among centers; maintain data quality; and adhere to research
protocols, confidentiality requirements, and data safety requirements.
Coordinate with the NIDRR-funded Model Systems Knowledge
Translation Center to provide scientific results and information for
dissemination to clinical and consumer audiences. (Additional
information on this center can be found at https://
uwctds.washington.edu/projects/msktc.asp).
Priority 5--Classification and Measurement of Medical Rehabilitation
Interventions
Background
One of the central objectives of NIDRR-funded medical
rehabilitation research is to ``increase the number of interventions
demonstrated to be efficacious in improving health and function
outcomes in targeted disability populations'' (NIDRR Long Range Plan,
2005-2009). To demonstrate that a treatment is efficacious, both the
intervention and the intended outcome must be operationally defined and
measured in a rigorous way.
NIDRR-sponsored researchers have been leaders in the development of
widely used outcomes measures that are employed to help determine the
impact of medical rehabilitation on the health and function of
individuals with disabilities, as well as the impact of medical
rehabilitation on the participation of these individuals in society.
While the ability to measure outcomes of medical rehabilitation
continues to mature through recent and ongoing NIDRR-sponsored
research, the ability to classify, measure, and replicate specific
interventions within the complex medical rehabilitation process is
still in its infancy. A recent analysis of published research on
medical rehabilitation interventions indicates that nearly two-thirds
of articles fail to describe adequately the rehabilitative treatment
being evaluated (Dijkers et al., 2002).
Medical rehabilitation has been referred to as a ``black box''
because the wide-range of interventions that take place within
rehabilitation settings have not been classified or measured in a
systematic way (DeJong et al., 2004). Determining the components of the
medical rehabilitation process that positively impact outcome (i.e.,
the ``active ingredients'') is challenging. This is due to the
simultaneous delivery of inter-related treatments by a variety of
allied health professionals to individuals with unique needs.
Development of a treatment taxonomy (i.e., a systematic method for
classifying and measuring rehabilitation interventions) will promote
the quality and rigor of rehabilitation research and will foster the
transfer of evidence-based treatments into clinical practice (Whyte,
2003).
In the past, NIDRR has sponsored rehabilitation outcomes research
that can serve as a basis for future efforts to develop a taxonomy of
medical rehabilitation interventions. For instance, a recent NIDRR-
funded stroke outcomes research project involved the creation of point-
of-contact forms for recording the delivery of rehabilitation
interventions provided by physical therapists (Latham et al., 2005),
occupational therapists (Richards et al., 2005), speech-language
pathologists (Hatfield et al., 2005), and other allied health
professionals. A major strength of this project was that it relied upon
the rich experiences and expertise of front-line rehabilitation
clinicians to create detailed forms for collecting data about specific
interventions. A limitation of this bottom-up, inductive approach to
classifying and measuring rehabilitation
[[Page 50522]]
interventions is its general lack of a theoretical foundation. A
theoretical foundation would have the benefit of guiding the collection
and analysis of treatment and outcomes data, and increase the field's
ability to see how seemingly disparate treatments fit together into a
coherent framework for rehabilitation practice and functional recovery
(DeJong et al., 2004). Efforts to develop rehabilitation intervention
taxonomies must be guided by treatment theories in order to increase
the likelihood that ``active ingredients'' of rehabilitative care can
be isolated and replicated (Whyte, 2006).
Other clinical fields, such as nursing (Dochterman & Bulechek,
2004), have been actively developing intervention taxonomies to guide
clinical service delivery, rigorous clinical documentation, and
effectiveness research in a wide range of nursing sub-fields.
Literature describing intervention taxonomies and their development in
other fields are likely to be instructive to those engaged in the
development of a medical rehabilitation treatment classification
system.
References
DeJong, G., Horn, S., Gassaway, J., Slavin, M., & Dijkers, M.
(2004). Toward a Taxonomy of Rehabilitation Interventions: Using an
Inductive Approach to Examine the ``Black Box'' of Rehabilitation.
Archives of Physical Medicine and Rehabilitation. 85(4): 678-686.
Dijkers, M., Kropp, G., Esper, R., Yavuzer, G., Cullen, N., &
Bakdalieh, Y. (2002). Quality of Intervention Research Reporting in
Medical Rehabilitation Journals. American Journal of Physical
Medicine and Rehabilitation. 81(1): 21-33.
Dochterman, J. & Bulechek, G. (Eds.). Nursing Interventions
Classification (NIC) (4th ed.). St. Louis, MO: Mosby.
Hatfield, B., Millet, D., Coles, J., Gassaway, J., Conroy, B., &
Smout, R. (2005). Characterizing Speech and Language Pathology
Outcomes in Stroke Rehabilitation. Archives of Physical Medicine and
Rehabilitation. 86(S2): S61-S72.
Latham, K., Jette, D., Slavin, M., Richards, L., Procino, A., Smout,
R., & Horn, S. (2005). Physical Therapy During Stroke Rehabilitation
for People With Different Walking Abilities. Archives of Physical
Medicine and Rehabilitation. 86(S2): S41--S50.
National Institute on Disability and Rehabilitation Research (NIDRR)
Final Long Range Plan, 2005-2009. Page 8187. https://www.ed.gov/
about/offices/list/osers/nidrr/policy. html.
Richards, L., Latham, N., Jette, D., Rosenberg, L., Smout, R., &
DeJong, G. (2005). Characterizing Occupational Therapy in Stroke
Rehabilitation. Archives of Physical Medicine and Rehabilitation.
86(S2): S51-S60.
Whyte, J. (2006). Using Treatment Theories to Refine the Designs of
Brain Injury Rehabilitation Treatment Effectiveness Studies. Journal
of Head Trauma Rehabilitation. 21(2): 99-106.
Whyte, J. (2003). It's More Than a Black Box; It's a Russian Doll:
Defining Rehabilitation Treatments. American Journal of Physical
Medicine and Rehabilitation. 82(8): 639-652.
Proposed Priority
The Assistant Secretary for Special Education and Rehabilitative
Services proposes a priority for a Disability Rehabilitation Research
Project (DRRP) on Classification and Measurement of Medical
Rehabilitation Interventions. This DRRP must conduct research and
development toward the creation of a taxonomy of medical rehabilitation
interventions. Under this priority, the DRRP must be designed to
contribute to the following outcomes:
(a) Enhanced research capacity and improved clinical practice in
the field of medical rehabilitation. The DRRP must contribute to this
outcome by conducting research to develop validated methods for the
systematic classification of the broad range of medical rehabilitation
interventions delivered by rehabilitation physicians, physical
therapists, occupational therapists, speech language pathologists,
rehabilitation nurses, rehabilitation psychologists, and other allied
health professionals.
(b) Enhanced research capacity and improved clinical practice in
the field of medical rehabilitation through the application of one or
more treatment theories to guide the development of a rehabilitation
treatment taxonomy.
(c) Collaboration with relevant NIDRR-sponsored projects, such as
the Rehabilitation Research Training Center on Measuring Rehabilitation
Outcomes, and other projects as identified through consultation with
the NIDRR project officer.
Priority 6--Vocational Rehabilitation Service Models for Individuals
With Autism Spectrum Disorders
Background
In recent years, policy makers, educators, and rehabilitation
service providers have become increasingly aware of the critical
shortage of services available to youth and young adults with Autism
Spectrum Disorders (ASDs), including vocational rehabilitation services
(Dew & Alan, 2007). ASDs are a group of lifelong developmental
disabilities that include autistic disorder, pervasive developmental
disorder-not otherwise specified, and Asperger disorder. ASDs are
characterized by impairments in social interactions and verbal and
nonverbal communication, as well as the presence of repetitive or
unusual behaviors and interests (Centers for Disease Control and
Prevention (CDC), 2006a). The severity of impairments can range from
mild to severe. Recent prevalence estimates vary, indicating that ASD
occurs in 2 to 6 individuals per 1000 individuals, that is, between 1
in 500 and 1 in 166 children have an ASD. ASDs are four times more
likely to occur in boys than in girls. The CDC (2006b) reported that
ASDs are more prevalent than certain other childhood disabilities, such
as cerebral palsy (2.8 per 1000 children), hearing loss (1.1 per 1000
children), vision impairment (0.9 per 1000 children), and Downs
syndrome (1.25 per 1000 children) (CDC, 2006b). ASDs usually are
diagnosed before the age of three, and the effects are lifelong,
although impairments may be attenuated with intervention.
Like other transition-age youth with disabilities, students
diagnosed with ASD who have turned 22 or graduated from high school
with a regular diploma generally no longer have a legal right to
appropriate transition services, such as life skills training,
transportation, vocational training, and individual and family
counseling, under the Individuals with Disabilities Education Act
(IDEA) (National Longitudinal Transition Study-2 (NLTS-2) 2005). Large
proportions of youth with ASD rated low on self-care tasks, functional
cognitive skills, social skills and communication when compared to the
entire population of youth with disabilities served under IDEA (NLTS-2,
2005). Many families find that the services provided to individuals
diagnosed with ASD are not tailored to the needs of the children and
young adults in this population. Families also report that locating,
accessing, and financing needed services for these young adults
requires navigating complicated public and private medical, social, and
vocational rehabilitation service systems (American Society of Autism,
2001).
In 2005, fewer than 2,000 individuals with ASDs received vocational
rehabilitation services. Of these individuals, only 1,200 were
successfully employed (Dew & Alan, 2007). Of the youth with ASDs who
were out of school one year or more, only 1 in 5 reported receiving
services from a vocational rehabilitation State agency. These youth
with ASDs also were less likely to be employed than youth with other
disabilities, and the
[[Page 50523]]
employed youth with ASDs worked fewer hours than employed youth with
other disabilities (NLTS-2, 2005). Increased vocational and
rehabilitation interventions are needed if these individuals are to
experience vocational and economic success equal to the success of
transition-age youth without ASD.
References
Autism Society of America. (2001). Position Paper on The National
Crisis in Adult Services for Individuals with Autism A Call to
Action. See: https://www.autismservicescenter.org/articles2.htm.
Centers for Disease Control and Prevention. (2006a). Fact sheet: CDC
Autism research. See: https://www.cdc.gov/ncbddd/autism/index.htm.
Centers for Disease Control and Prevention. (2006b). How common are
Autism Spectrum Disorders (ASD)? See: https://www.cdc.gov/ncbddd/
autism/asd_common.htm.
Dew, D. & Alan, G. (2007). Rehabilitation of Individuals With Autism
Spectrum Disorders (Institute on Rehabilitation Issues Monograph No
32). Washington, DC: The George Washington University, Center for
Rehabilitation Counseling Research and Education.
U.S. Department of Education, Institute of Education Sciences,
National Center for Special Education Research. (2005). National
Longitudinal Transition Study-2 (NLTS2), Wave 3 parent interview and
youth interview/survey. (This information has not yet been published
on the NLTS-2 Web site. It will be published sometime early next
year). \
Proposed Priority
The Assistant Secretary for Special Education and Rehabilitative
Services proposes a priority for a Disability Rehabilitation Research
Project (DRRP) on Vocational Rehabilitation Service Models for
Individuals with Autism Spectrum Disorders (ASDs). This DRRP must
conduct research on vocational rehabilitation (VR) service models for
individuals with ASDs that contributes to evidence-based rehabilitation
interventions to improve the lives of individuals with ASDs. Under this
priority, the DRRP must be designed to contribute to one or both of the
following outcomes:
(a) Improved vocational and postsecondary education outcomes of
individuals with ASDs. The DRRP must contribute to this outcome by
developing or testing VR intervention strategies for individuals with
ASDs, the measures needed to assess the effectiveness of VR
intervention strategies for individuals with ASDs, or both.
(b) Improved long-term vocational and postsecondary education
services for individuals with ASDs. The DRRP must contribute to this
outcome by analyzing the factors affecting the organization and
delivery of these services to individuals with ASDs and by recommending
changes that could improve these service delivery mechanisms.
Priority 7--Center on Knowledge Translation for Assistive Technology
Transfer
Background
While billions of dollars are expended on technology-related
research and development efforts in the United States each year
(Association of University Technology Managers, 2005), very little of
this funding is applied toward development of technology to improve the
lives of individuals with disabilities (National Council on Disability,
2000). NIDRR addresses this critical niche with two grant programs that
are dedicated to the application of technology and the development of
products and devices that are intended to improve the lives of
individuals with disabilities: The Rehabilitation Engineering Research
Centers (RERC) and Small Business Innovation Research (SBIR) programs.
For 30 years, the RERC program and its predecessor, the
Rehabilitation Engineering Centers program, have been a major force in
the development of technology to enhance independent function and
societal participation for individuals with disabilities. For over a
decade, NIDRR's SBIR program has encouraged small businesses to explore
their technological potential by supporting proof of concept
investigations of prototype devices intended to benefit individuals
with disabilities.
In addition to supporting the research and development of products
and devices that are designed to improve the lives of individuals with
disabilities through its RERC and SBIR programs, NIDRR is also
expected, under section 200(3)(D) of the Rehabilitation Act of 1973, as
amended, to promote the transfer of rehabilitation technology to
individuals with disabilities through research and demonstration
projects.
The term ``technology transfer'' has been defined as the process by
which university-developed technologies are commercialized (Powers,
2004) and, more specifically, as the ``transmittal of developed ideas,
products, and techniques from a research environment to one of
practical application by consumers'' (National Council on Disability,
2000). The processes involved in technology transfer are understood to
be an important component of knowledge translation (KT), which refers
to the steps between the generation of knowledge and its application to
produce beneficial outcomes for society (Canadian Institutes for Health
Research, 2005).
Technology transfer for individuals with disabilities is a specific
subset of the current technology transfer effort. Technology transfer
for products intended for use by individuals with disabilities is often
difficult because of the small markets served by any one particular
assistive technology product or device. While several government and
private agencies are working to promote technology transfer for larger
and more lucrative markets, very few Federal efforts focus on the
transfer of technology for use by individuals with disabilities
(National Council on Disability, 2000). Not only is NIDRR mandated to
fill this gap, but it is well positioned to do so, given the research
and development work supported and the scientist-market networks
established through its RERC and SBIR programs.
Research from the broader technology transfer field provides
limited guidance on how to improve technology transfer for individuals
with disabilities. Although some researchers have examined the
processes involved in technology transfer as well as methods for
evaluating transfer efforts such as best practice analyses (e.g., Erich
& Gutterman, 2003; Leahy, 2003; Tornatzky, 2001), research in this area
is still limited. For example, best practices analyses have generally
involved qualitative case descriptions rather than systematic tests of
the models, methods, and measures used for successful technology
transfer. A strong need remains for the systematic review of existing
models, methods, and measures as well as for the identification of best
practices in technology transfer. Once identified, best practices for
technology transfer must be adopted by key stakeholders. Training and
technical assistance have been named as important methods for promoting
the adoption of best practices and, thus, for facilitating the success
of the commercialization process (Canadian Institutes of Health
Research, 2005).
Current Federal investments are attempting to meet the need for
technology transfer research generally, but little research has been
devoted to examining the potential relevance, applicability, or
usability of general technology transfer research within the specific
subfield of assistive technology for individuals with disabilities
(National Council on Disability, 2000).
[[Page 50524]]
The need for further technology transfer research is especially
acute among those who are developing and attempting to make
technologies, products, and devices for individuals with disabilities.
References
Association of University Technology Managers (2005). AUTM U.S.
Licensing Survey: FY 2005. Northbrook, IL. See: https://www.autm.net/
surveys/dsp.surveyDetail.cfm?pid=33.
Canadian Institutes of Health Research. (2005). CIHR's
commercialization and innovation strategy. Ottawa, Canada. See:
https://www.cihr-irsc.gc.ca/e/30162.html.
Erlich, J.N. & Gutterman, A. (2003). A practical view of strategies
for improving Federal technology transfer. Journal of Technology
Transfer, 28, 215-226.
Leahy, J.A. (2003). Paths to market for supply push technology
transfer. Journal of Technology Transfer, 28, 305-317.
National Council on Disability. (2000). Federal Policy Barriers to
Assistive Technology. See: https://www.ncd.gov/newsroom/publications/
2000/assisttechnology.htm.
Powers, J.B. (2004). R&D funding sources and university technology
transfer: What is stimulating universities to be more
entrepreneurial? Research in Higher Education, 45(1), 1-23.
Tornatzky, L.G. (2001). Benchmarking university-industry technology
transfer: A six year retrospective. Journal of Technology Transfer,
26, 269-277.
Proposed Priority
The Assistant Secretary for Special Education and Rehabilitative
Services proposes a priority for a Disability and Rehabilitation
Research Project to serve as the Center on Knowledge Translation for
Assistive Technology Transfer (Center). The Center must conduct
rigorous research, development, technical assistance, dissemination,
and utilization activities to increase successful knowledge translation
(KT) for technology transfer of products developed by NIDRR-funded
technology grantees.
The Center must partner with key stakeholders such as trade and
professional associations, and relevant industry representatives, and
focus on no more than three of the following technology areas, which
are referenced in the NIDRR Long-Range Plan, 2005-2009: Sensory,
Communication, Informational Technology and Telecommunications, and
Environmental Access.
Under this priority, the Center must be designed to contribute to
the following outcomes:
(a) Improved understanding of barriers to and facilitators of
successful KT for technology transfer in different industries related
to NIDRR's technology portfolio. The Center must contribute to this
outcome by--
(1) Identifying and compiling existing research-based knowledge
about barriers to and facilitators of successful KT for technology
transfer; and
(2) Conducting research on barriers to and facilitators of
successful KT for technology transfer related to the technology areas
on which the Center focuses.
(b) Advanced knowledge of best practices in KT for technology
transfer. The Center must contribute to this outcome by--
(1) Identifying existing models, methods, or measures of KT for
technology transfer in different industries related to NIDRR's
technology portfolio;
(2) Further developing and testing models, methods, or measures in
the technology areas on which the Center focuses; and
(3) Establishing best technology transfer practices that can be
used to effectively implement and evaluate the success of technology
transfer activities in the technology areas on which the Center
focuses.
(c) Increased utilization of the validated best practices for KT
for technology transfer. The Center must contribute to this outcome by
providing training and technical assistance to NIDRR-funded technology
grantees to implement and evaluate the success of such practices.
Priority 8--Asset Accumulation and Economic Self-Sufficiency for
Individuals With Disabilities
Background
The availability of savings and assets are important to all
individuals because they promote and allow investment in long-term
goals such as education and home ownership. Savings and assets are also
associated with increased household stability, community involvement,
political participation, and self-sufficiency in the general population
(Abt Associates, 2000).
For individuals with disabilities, the availability of financial
savings and assets facilitates progress toward a wide range of
community participation goals. Financial savings and assets can
facilitate this progress in numerous ways, such as making it possible
to purchase needed assistive