Government-Owned Inventions; Availability for Licensing, 43647-43650 [E7-15208]
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significantly to improving the clinical
management of cancer and thus the
quality of life for people suffering from
the disease. Furthermore, the cancer
diagnostic market is estimated to grow
to almost $10 billion dollars in the next
5 years, providing a significant financial
opportunity.
Inventors: Yoon S. Cho-Chung (NCI).
U.S. Patent Status: U.S. Patent
Application No. 10/592,040 (HHS
Reference No. E–081–2004/2–US–02);
Foreign Rights are also available.
Licensing Contact: David A.
Lambertson, Ph.D.; Phone: (301) 435–
4632; Fax: (301) 402–0220; E-mail:
lambertsond@mail.nih.gov.
A New Series of Thalidomide Analogs
That Have Potent Anti-Angiogenic
Properties
Description of Technology: This
technology describes synthesis of
several novel tetrahalogenated
thalidomide derivatives that are
potentially more anti-angiogenic than
thalidomide. More specifically, two
series of analogs based on two major
common pharmacophores have been
synthesized. One series preserves the
thalidomide common structure, while
the other series contains a different
common structure
(tetrafluorobenzamides). Several analogs
from both series have shown significant
anti-angiogenic properties, in vitro.
Applications: The novel thalidomide
derivatives have therapeutic potential
for a broad spectrum of cancer related
diseases alone, or in combination with
existing therapies. The compounds can
also be useful for the treatment of
autoimmune diseases.
Advantages: Superior anti-angiogenic
and anti-cancer activity when compared
with thalidomide; In vitro data supports
use in multiple cancer types.
Benefits: Cancer is the second leading
cause of death in the United States and
it is estimated that there will be
approximately 600,000 deaths caused by
cancer in 2007. Improving the quality of
life and duration of life of cancer
patients will depend a lot on
chemotherapies with reduced toxicity
and this technology can contribute
significantly to that social cause.
Furthermore, the technology involving
novel anti-angiogenic small molecule
cancer therapy technology has a
potential market of more than $2 billion.
Inventors: William D. Figg (NCI) et al.
U.S. Patent Status: Pending PCT
Application PCT/US2007/008849 (HHS
Reference No. E–080–2006/0–PCT–02).
Licensing Contact: David A.
Lambertson, Ph.D.; Phone: (301) 435–
4632; Fax: (301) 402–0220; E-mail:
lambertsond@mail.nih.gov.
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Dated: July 30, 2007.
Steven M. Ferguson,
Director, Division of Technology Development
and Transfer, Office of Technology Transfer,
National Institutes of Health.
[FR Doc. E7–15168 Filed 8–3–07; 8:45 am]
BILLING CODE 4140–01–P
DEPARTMENT OF HEALTH AND
HUMAN SERVICES
National Institutes of Health
Government-Owned Inventions;
Availability for Licensing
National Institutes of Health,
Public Health Service, HHS
ACTION: Notice
AGENCY:
SUMMARY: The inventions listed below
are owned by an agency of the U.S.
Government and are available for
licensing in the U.S. in accordance with
35 U.S.C. 207 to achieve expeditious
commercialization of results of
federally-funded research and
development. Foreign patent
applications are filed on selected
inventions to extend market coverage
for companies and may also be available
for licensing.
ADDRESSES: Licensing information and
copies of the U.S. patent applications
listed below may be obtained by writing
to the indicated licensing contact at the
Office of Technology Transfer, National
Institutes of Health, 6011 Executive
Boulevard, Suite 325, Rockville,
Maryland 20852–3804; telephone: 301/
496–7057; fax: 301/402–0220. A signed
Confidential Disclosure Agreement will
be required to receive copies of the
patent applications.
Immortalized Cell Line for Retroviral
Studies
Description of Technology: This
technology describes immortalized
human umbilical cord-blood T
lymphocytes transformed with the
retrovirus human T-cell leukemialymphoma virus (HTLV). These cells
contain the HTLV genome and
synthesize viral RNA but are restricted
in their expression of viral structure
proteins. This cell line should be useful
in the study of retrovirus expression.
Please visit the NIH AIDS Research and
Reference Reagent Program Web site
(https://www.aidsreagent.org; catalog
#404) for additional information.
Applications: Viral expression
studies; Study of viral proteins and
nucleic acids involved in T-cell
immortalization.
Inventors: Genoveffa Franchini (NCI).
Publications:
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1. SZ Salahuddin et al. Restricted
expression of human T-cell leukemia—
lymphoma virus (HTLV) in transformed
human umbilical cord blood
lymphocytes. Virology 1983
Aug;129(1):51–64.
2. NIH AIDS Research and Reference
Reagent Program Web site.
Patent Status: HHS Reference No. E–
272– 2007/0—Research Tool.
Licensing Status: Available for
licensing.
Licensing Contact: Susan Ano, Ph.D.;
301/435–5515; anos@mail.nih.gov.
Device and Method for Protecting
Against Coronary Artery Compression
During Transcatheter Mitral Valve
Annuloplasty
Description of Technology: Catheterbased mitral valve regurgitation
treatments that use a coronary sinus
trajectory or coronary sinus implant can
have unwanted effects because the
coronary sinus and its branches have
been found to cross the outer diameter
of major coronary arteries in a majority
of humans. As a result, pressure applied
by any prosthetic device in the coronary
sinus (such as tension on the
annuloplasty device) can compress the
underlying coronary artery and induce
myocardial ischemia or infarction.
Available for licensing and
commercial development are devices
and methods that avoid constricting
coronary artery branches during
coronary sinus-based annuloplasty.
These devices and methods protect
coronary artery branches from
constriction during trans-sinus mitral
annuloplasty. The device protects a
coronary vessel from compression
during mitral annuloplasty in which an
annuloplasty element, such as a
tensioning device, extends at least
partially through the coronary sinus
over a coronary artery. The device is a
surgically sterile bridge configured for
placement within the coronary sinus at
a location where the coronary sinus
passes over a coronary artery, so that the
protection device provides a support for
a mitral annuloplasty element, such as
a compressive prosthesis, including a
tension element when it is placed under
tension. The protection device has an
arch of sufficient rigidity and
dimensions to support the tensioning
element over the coronary artery,
redistribute tension away from an
underlying coronary artery, and inhibit
application of pressure to the
underlying artery, for example when an
annuloplasty tension element is placed
under tension during mitral
annuloplasty.
In particular, the protective device
can be a support interposed in the
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coronary sinus between the
annuloplasty device and the coronary
artery. The device may be substantially
tubular so that the tensioning element is
contained within the protective device
and supported in spaced relationship to
the coronary artery. An arch may be
configured to extend between a
proximal end and a distal end that are
substantially collinear with one another
so that the ends form stabilizing
members such as feet that retain the
bridge in position over the coronary
artery.
The device may be used in methods
of improving the function of a mitral
valve in a subject in which an
annuloplasty element, for example an
element that exerts compressive
remodeling forces on the mitral valve
(such as a tensioning element), is
introduced at least partially around the
mitral valve, for example at least
partially through the coronary sinus and
over a coronary artery. The protective
device is placed between the
annuloplasty element and the coronary
artery, with the annuloplasty element
supported by the bridge of the device.
Compressive remodeling forces are
exerted by the annuloplasty device (for
example by applying tension to alter the
shape or configuration of the mitral
valve annulus to reduce its
circumference) while supporting the
annuloplasty element on the bridge to
inhibit application of pressure to the
coronary artery. The function of the
mitral valve in the patient is thereby
improved without impairing coronary
blood flow.
The annuloplasty element can be
introduced at least partially around the
mitral valve by advancing the
annuloplasty element in an
endovascular catheter through the
vascular system to the heart and
introducing the annuloplasty element
and the protective device from the
catheter into the coronary sinus through
a coronary sinus ostium. In those
embodiments in which the protective
device includes an internal lumen, the
annuloplasty element extends through
the lumen of the protective device over
the coronary artery so that the
annuloplasty element is supported by
the protective device. The protective
device can be integrated directly into
the annuloplasty element, such as a
resilient or expandable device, or a
tensioning element or tensioning
material.
In other embodiments, this disclosure
provides a method of improving
function of a mitral valve in a subject
who has mitral regurgitation by
performing a mitral valve cerclage
annuloplasty. In a particular disclosed
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example of the procedure, a guiding
catheter is percutaneously inserted
through the vasculature of a subject. The
guiding catheter is introduced through
the coronary sinus into the great cardiac
vein, and a steerable microcatheter or
other coaxial guiding catheter or
steering device introduces a guidewire
into a basal blood vessel such as the first
septal coronary vein. From there the
guidewire traverses under imaging
guidance the septal myocardium or
annulus fibrosis and reenters the right
ventricle or right atrium. The guidewire
is then retrieved using a vascular snare
and the guiding catheter and guidewire
are replaced with a tensioning system.
The protective device is then introduced
through the guiding catheter over or in
tandem with the tensioning system so as
to protect an underlying coronary artery
when tension is introduced to perform
the annuloplasty.
Applications: Cardiac valve repair;
Interventional Cardiology; Cardiac
Surgery.
Development Status: Early-stage; Preclinical data available; Prototype.
Inventors: June-Hong Kim, Robert J.
Lederman, Ozgur Kocaturk (NHLBI).
Patent Status: U.S. Provisional
Application No. 60/858,716 filed 14
Nov 2006. (HHS Reference No. E–249–
2006/0–US–01); U.S. Provisional
Application No. 60/932,611 filed 31
May 2007 (HHS Reference No. E–249–
2006/1–US–01); The issued and
pending patent rights are solely owned
by the United States Government.
Licensing Status: Available for
licensing on an exclusive or nonexclusive basis.
Licensing Contact: Michael A.
Shmilovich, Esq.; 301/435–5019;
shmilovm@mail.nih.gov.
Collaborative Research Opportunity:
The NHLBI Cardiovascular Branch is
seeking statements of capability or
interest from parties interested in
collaborative research to further
development, evaluate, or
commercialize catheter-based
cardiovascular devices. Please contact
Peg Koelble, NHLBI Office of
Technology Transfer and Development,
at 301–594–4095 or
koelblep@nhlbi.nih.gov.
A Shuttle Plasmid, Recombinant MVA/
HIV1 Clinical Vaccine Constructs and a
Mechanism for Enhanced Stability of
Foreign Gene Inserts by Codon
Alternation and for Insertion of the
Foreign Gene Between Two Vaccinia
Virus Essential Genes
Description of Technology: Since the
onset of the AIDS epidemic more than
two decades ago, enormous efforts have
been directed to making a vaccine that
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will protect against human
immunodeficiency virus-1 (HIV); an
effective vaccine is thought to require
the induction of cellular and humoral
responses. Vaccine candidates have
included a variety of HIV immunogens
delivered as DNA, attenuated
poxviruses, adenoviruses, vesicular
stomatitis virus, proteins, and various
combinations thereof. The inventors’
efforts to design an HIV vaccine have
focused on modified vaccinia virus
Ankara (MVA) as a vector.
The patent application describes (1)
The shuttle plasmid, pLW73, used for
insertion of a foreign gene between two
essential vaccinia virus genes (in this
case, I8R, G1L), (2) an MVA/Ugandan
Clade D (UGD) construct, and (3) an
MVA/HIV 75 AG construct using
pLW73 as a vector. Additionally, the
invention provides two methods: (1) A
method useful for large-scale production
of recombinant vaccinia viruses, and (2)
a method for stabilizing foreign gene
inserts that undergo mutation after
repeated passages, again useful in largescale production of recombinant
vaccinia viruses.
Application: Immunization against
HIV.
Developmental Status: Vaccine
candidates have been synthesized and
preclinical studies have been
performed. The vaccine candidates of
this invention are slated to enter Phase
I clinical trials in the next year.
Inventors: Bernard Moss, Patricia Earl,
Linda Wyatt (NIAID).
Patent Status: U.S. Patent Application
No. 60/840,093 filed 25 Aug 2006 (HHS
Reference No. E–248–2006/0–US–01);
U.S. Patent Application No. 60/840,755
filed 28 Aug 2006 (HHS Reference No.
E–248–2006/1–US–01).
Licensing Status: Available for
exclusive or non-exclusive licensing.
Licensing Contact: Peter J. Soukas,
J.D.; 301/435–4646;
soukasp@mail.nih.gov.
Molecular Probes for Identification or
Isolation of Membrane Proteins
Description of Technology: This
technology describes a new class of
molecular probes designed around an
iodonaphthyl succinate antigen that can
be used to label and tag proteins using
a variety of conventional protein
modification chemistries. The
technology is offered as a combination
of probe + monoclonal antibodies
against the probe (three clones). The
probe can be used for labeling and
tagging cell surface and integral
membrane proteins as well as soluble
proteins. The monoclonal antibodies
were tested and found effective for
immunoprecipitation, western blot, and
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flow cytometry. Once tagged, the
modified proteins can be detected or
isolated using an antibody reactive with
the probe. Several possible probes and
monoclonal antibodies that react with
them are described. These probes and
their corresponding antibodies have
significant advantages over the biotinavidin system.
Advantages: Reversibility of binding
for protein isolation; Lack of high, nonspecific binding to cell surfaces; Ability
to incorporate isotopic 125 I label in the
probe for tracking tagged proteins in
vivo.
Applications: Protein labeling; Protein
isolation.
Development Status: In vitro data
available.
Inventors: Yossef Raviv et al. (NCI).
Patent Status: U.S. Provisional
Application No. 60/906,166 filed 09 Mar
2007 (HHS Reference No. E–162–2006/
0–US–01).
Licensing Contact: Susan Ano, Ph.D.;
301/435–5515; anos@mail.nih.gov.
Cross-protective Influenza Vaccine
That Protects Against Lethal H5N1
Challenge
Description of Technology: Concerns
about a potential influenza pandemic
and its prevention are a regular part of
health news, with bird (avian) influenza
(prominently including H5N1 strains)
being a major concern. Vaccination is
one of the most effective ways to
minimize suffering and death from
influenza. Currently, there is not an
effective way to vaccinate against avian
influenza without knowing what
subtype and strain will circulate. The
technology described here relates to use
of influenza A matrix 2 (M2) protein of
a sequence derived from one subtype to
induce immunity protective against
infection with other subtypes, an
approach made possible by the fact that
M2 is highly conserved among different
influenza strains. The M2 component
can be expressed from a DNA vaccine or
recombinant viral vector, can be a
protein or peptide, or can involve
immunizing with one form and boosting
with another, for example a DNA or
viral vector followed by or preceded by
a polypeptide. The M2 component can
be used either alone or in combination
with other influenza components, and
can be administered with or without
adjuvant. Specifically, mouse studies
showed that the DNA vaccine priming
followed by recombinant adenoviral
boosting with constructs expressing M2
from an H1N1 strain protected against a
lethal challenge with an H5N1 strain.
Such cross-protection would be
beneficial in a seasonal or pandemic
influenza vaccine product. The current
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approach offers several advantages over
traditional influenza vaccine
approaches, including (a) ease and
speed of production without need for
eggs, (b) vaccine manufacture not based
upon surveillance to determine
dominant strain(s), and (c) effectiveness
despite antigenic shift for the
components HA and NA of circulating
viruses.
Application: Influenza vaccine.
Development Status: Animal (mouse)
data available.
Inventors: Suzanne L. Epstein et al.
(CBER/FDA).
Patent Status: U.S. Provisional
Application No. 60/786,152 filed 27 Mar
2006 (HHS Reference No. E–076–2006/
0–US–01); PCT Application No. PCT/
US2007/007679 filed 27 Mar 2007 (HHS
Reference No. E–076–2006/1–PCT–01).
Licensing Contact: Susan Ano, PhD;
301/435–5515; anos@mail.nih.gov.
Collaborative Research Opportunity:
The Center for Biologics Evaluation and
Research, Office of Cellular, Tissue, and
Gene Therapies, Division of Cellular
and Gene Therapies, Gene Therapy and
Immunogenicity Branch, is seeking
statements of capability or interest from
parties interested in collaborative
research to further develop, evaluate, or
commercialize matrix 2 (M2) vaccines
protective against influenza A subtypes,
including high-pathogenicity avian
strains, differing from the strain from
which the vaccine was derived. Please
contact Dr. Suzanne Epstein at 301–
827–0450 or
suzanne.epstein@fda.hhs.gov for more
information.
Targeting Poly-Gamma-Glutamic Acid
To Treat Staphylococcus Epidermidis
and Related Infections
Description of Invention: Over the
past decade, Staphylococcus
epidermidis has become the most
prevalent pathogen involved in
nosocomial infections. Usually an
innocuous commensal microorganism
on human skin, this member of the
coagulase-negative group of
staphylococci can cause severe infection
after penetration of the epidermal
protective barriers of the human body.
In the U.S. alone, S. epidermidis
infections on in-dwelling medical
devices, which represent the main type
of infection with S. epidermidis, cost
the public health system approximately
$1 billion per year. Importantly, S.
epidermidis is frequently resistant to
common antibiotics.
Immunogenic compositions and
methods for eliciting an immune
response against S. epidermidis and
other related staphylococci are claimed.
The immunogenic compositions can
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include immunogenic conjugates of
poly-g-glutamic acid (such as gDLPGA)
polypeptides of S. epidermidis, or
related staphylococci that express a
gPGA polypeptide. The gPGA conjugates
elicit an effective immune response
against S. epidermidis, or other
staphylococci, in subjects to which the
conjugates are administered. A method
of treating an infection caused by a
Staphylococcus organism that expresses
CAP genes is also disclosed. The
method can include selecting a subject
who is at risk of or has been diagnosed
with the infection by the
Staphylococcus organism which
expresses gPGA from the CAP genes.
Further, the expression of a gPGA
polypeptide by the organism can then
be altered.
Application: Prophylactics against S.
epidermidis.
Developmental Status: Preclinical
studies have been performed.
Inventors: Michael Otto, Stanislava
Kocianova, Cuong Vuong, Jovanka
Voyich, Yufeng Yao, Frank DeLeo
(NIAID).
Publication: S Kocianova et al. Key
role of poly-gamma-DL-glutamic acid in
immune evasion and virulence of
Staphylococcus epidermidis. J Clin
Invest. 2005 Mar;115(3):688–694.
Patent Status: PCT Patent Application
No. PCT/US2006/026900 filed 10 Jul
2006 (HHS Reference No. E–263–2005/
0–PCT–02).
Licensing Status: Available for
exclusive or non-exclusive licensing.
Licensing Contact: Peter A. Soukas,
J.D.; 301/435–4646;
soukasp@mail.nih.gov.
Collaborative Research Opportunity:
The National Institute of Allergy and
Infectious Diseases, Laboratory of
Human Bacterial Pathogenesis, is
seeking statements of capability or
interest from parties interested in
collaborative research to further
develop, evaluate, or commercialize the
use of poly-g-glutamic acid of
staphylococci. Please contact Dr.
Michael Otto at motto@niaid.nih.gov for
more information.
Improved Expression Vectors for
Mammalian Use
Description of Technology: This
technology relates to improving levels of
gene expression using a combination of
a constitutive RNA transport element
(CTE) with a mutant form of another
RNA transport element (RTE). The
combination of these elements results in
a synergistic effect on stability of mRNA
transcripts, which in turn leads to
increased expression levels. Using HIV–
1 gag as reporter mRNA, one mutated
RTE in combination with a CTE was
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found to improve expression of unstable
mRNA by about 500-fold. Similarly this
combination of elements led to
synergistically elevated levels of HIV–1
Env expression. The function of CTEs
and RTEs is conserved in mammalian
cells, so this technology is a simple and
useful way of obtaining high levels of
expression of otherwise poorly
expressed genes and can be used in a
number of applications such as but not
limited to improvements of gene
therapy vectors, expression vectors for
mammalian cells.
Applications: Gene therapy; DNA
vaccines; Protein expression.
Development Status: In vitro data
available.
Inventor: Barbara Felber et al. (NCI).
Patent Status: U.S. Utility Application
No. 10/557,129, filed 16 Nov 2005, from
PCT Application No. PCT/US04/15776
filed 19 May 2004, which published as
WO2004/113547 on 29 Dec 2004 (HHS
Reference No. E–223–2003/1–US–03).
Licensing Status: Available for
licensing.
Licensing Contact: Susan Ano, PhD;
301/435–5515; anos@mail.nih.gov.
Collaborative Research Opportunity:
The National Cancer Institute Vaccine
Branch is seeking statements of
capability or interest from parties
interested in collaborative research to
further develop, evaluate, or
commercialize this technology. Please
contact John D. Hewes, PhD at 301–435–
3121 or hewesj@mail.nih.gov for more
information.
determined by the Administrator,
SAMHSA, in accordance with Title 5
U.S.C. 552b(c)(6) and 5 U.S.C. App. 2,
Section 10(d).
Substantive program information, a
summary of the meeting and a roster of
Council members may be obtained as
soon as possible after the meeting, either
by accessing the SAMHSA Committee
Web site at www.nac.samhsa.gov, or by
contacting the CSAT National Advisory
Council Executive Secretary, Ms.
Cynthia Graham (see contact
information below).
Committee Name: SAMHSA Center
for Substance Abuse Treatment
National; Advisory Council.
Date/Time/Type: August 23, 2007,
from 1 p.m. to 3 p.m.; Closed.
Place: SAMHSA Building, 1 Choke
Cherry Road, VTC Room, L–1057,
Rockville, Maryland 20857.
Contact: Cynthia Graham, M.S.,
Executive Secretary, SAMHSA CSAT
National Advisory Council, 1 Choke
Cherry Road, Room 5–1035, Rockville,
Maryland 20857, Telephone: (240) 276–
1692, Fax: (240) 276–16890, E-mail:
cynthia.graham@samhsa.hhs.gov.
Dated: July 31, 2007.
Steven M. Ferguson,
Director, Division of Technology Development
and Transfer, Office of Technology Transfer,
National Institutes of Health.
[FR Doc. E7–15208 Filed 8–3–07; 8:45 am]
DEPARTMENT OF HOMELAND
SECURITY
Dated: July 31, 2007.
Toian Vaughn,
Committee Management Officer, Substance
Abuse and Mental Health, Services
Administration.
[FR Doc. E7–15217 Filed 8–3–07; 8:45 am]
BILLING CODE 4162–20–P
Office of the Secretary
[DHS–2007–0042]
BILLING CODE 4140–01–P
Privacy Act of 1974; U.S. Customs and
Border Protection, Automated
Targeting System, System of Records
DEPARTMENT OF HEALTH AND
HUMAN SERVICES
AGENCY:
Privacy Office; Department of
Homeland Security.
ACTION: Notice of Privacy Act System of
Records.
Substance Abuse and Mental Health
Services Administration
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Center for Substance Abuse
Treatment; Notice of Meeting
Pursuant to Public Law 92–463,
notice is hereby given that the
Substance Abuse and Mental Health
Services Administration (SAMHSA)
Center for Substance Abuse Treatment
(CSAT) National Advisory Council will
meet on August 23, 2007 from 1 p.m. to
3 p.m. via teleconference.
The meeting will include review,
discussion, and evaluation of grant
applications. Therefore, the meeting
will be closed to the public as
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SUMMARY: This document is a new
System of Records Notice (SORN) for
the Automated Targeting System (ATS)
and is subject to the Privacy Act of
1974, as amended. ATS is an
enforcement screening tool consisting of
six separate components, all of which
rely substantially on information in the
Treasury Enforcement Communications
System (TECS). ATS historically was
covered by the SORN for TECS. The
Department of Homeland Security, U.S.
Customs and Border Protection (CBP)
published a separate SORN for ATS in
the Federal Register on November 2,
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2006. This SORN did not describe any
new collection of information and was
intended solely to provide increased
notice and transparency to the public
about ATS. Based on comments
received in response to the November 2,
2006 notice, CBP issues this revised
SORN, which responds to those
comments, makes certain amendments
with regard to the retention period and
access provisions of the prior notice,
and provides further notice and
transparency to the public about the
functionality of ATS.
TECS is an overarching law
enforcement information collection, risk
assessment, and information sharing
environment. It is also a repository for
law enforcement and investigative
information. TECS is comprised of
several modules that collect, maintain,
and evaluate screening data, conduct
targeting, and make information
available to appropriate officers of the
U.S. government. ATS is one of those
modules. It is a decision support tool
that compares traveler, cargo, and
conveyance information against
intelligence and other enforcement data
by incorporating risk-based targeting
scenarios and assessments. As such,
ATS allows DHS officers charged with
enforcing U.S. law and preventing
terrorism and other crimes to effectively
and efficiently manage information
collected when travelers or goods seek
to enter, exit, or transit through the
United States.
Within ATS there are six separate and
distinct components that perform
screening of inbound and outbound
cargo, conveyances, or travelers. These
modules compare information received
against CBP’s law enforcement
databases, the Federal Bureau of
Investigation Terrorist Screening
Center’s Terrorist Screening Database
(TSDB), information on outstanding
wants or warrants, information from
other government agencies regarding
high-risk parties, and risk-based rules
developed by analysts using law
enforcement data, intelligence, and past
case experience. The modules also
facilitate analysis of the screening
results of these comparisons. In the case
of cargo and conveyances, this screening
results in a risk assessment score. In the
case of travelers, however, it does not
result in a risk assessment score.
DATES: The new system of records will
be effective September 5, 2007.
FOR FURTHER INFORMATION CONTACT: For
general questions please contact:
Laurence E. Castelli (202–572–8790),
Chief, Privacy Act Policy and
Procedures Branch, U.S. Customs and
Border Protection, Office of
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[Federal Register Volume 72, Number 150 (Monday, August 6, 2007)]
[Notices]
[Pages 43647-43650]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: E7-15208]
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DEPARTMENT OF HEALTH AND HUMAN SERVICES
National Institutes of Health
Government-Owned Inventions; Availability for Licensing
AGENCY: National Institutes of Health, Public Health Service, HHS
ACTION: Notice
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SUMMARY: The inventions listed below are owned by an agency of the U.S.
Government and are available for licensing in the U.S. in accordance
with 35 U.S.C. 207 to achieve expeditious commercialization of results
of federally-funded research and development. Foreign patent
applications are filed on selected inventions to extend market coverage
for companies and may also be available for licensing.
ADDRESSES: Licensing information and copies of the U.S. patent
applications listed below may be obtained by writing to the indicated
licensing contact at the Office of Technology Transfer, National
Institutes of Health, 6011 Executive Boulevard, Suite 325, Rockville,
Maryland 20852-3804; telephone: 301/496-7057; fax: 301/402-0220. A
signed Confidential Disclosure Agreement will be required to receive
copies of the patent applications.
Immortalized Cell Line for Retroviral Studies
Description of Technology: This technology describes immortalized
human umbilical cord-blood T lymphocytes transformed with the
retrovirus human T-cell leukemia-lymphoma virus (HTLV). These cells
contain the HTLV genome and synthesize viral RNA but are restricted in
their expression of viral structure proteins. This cell line should be
useful in the study of retrovirus expression. Please visit the NIH AIDS
Research and Reference Reagent Program Web site (https://
www.aidsreagent.org; catalog #404) for additional information.
Applications: Viral expression studies; Study of viral proteins and
nucleic acids involved in T-cell immortalization.
Inventors: Genoveffa Franchini (NCI).
Publications:
1. SZ Salahuddin et al. Restricted expression of human T-cell
leukemia--lymphoma virus (HTLV) in transformed human umbilical cord
blood lymphocytes. Virology 1983 Aug;129(1):51-64.
2. NIH AIDS Research and Reference Reagent Program Web site.
Patent Status: HHS Reference No. E-272- 2007/0--Research Tool.
Licensing Status: Available for licensing.
Licensing Contact: Susan Ano, Ph.D.; 301/435-5515;
anos@mail.nih.gov.
Device and Method for Protecting Against Coronary Artery Compression
During Transcatheter Mitral Valve Annuloplasty
Description of Technology: Catheter-based mitral valve
regurgitation treatments that use a coronary sinus trajectory or
coronary sinus implant can have unwanted effects because the coronary
sinus and its branches have been found to cross the outer diameter of
major coronary arteries in a majority of humans. As a result, pressure
applied by any prosthetic device in the coronary sinus (such as tension
on the annuloplasty device) can compress the underlying coronary artery
and induce myocardial ischemia or infarction.
Available for licensing and commercial development are devices and
methods that avoid constricting coronary artery branches during
coronary sinus-based annuloplasty. These devices and methods protect
coronary artery branches from constriction during trans-sinus mitral
annuloplasty. The device protects a coronary vessel from compression
during mitral annuloplasty in which an annuloplasty element, such as a
tensioning device, extends at least partially through the coronary
sinus over a coronary artery. The device is a surgically sterile bridge
configured for placement within the coronary sinus at a location where
the coronary sinus passes over a coronary artery, so that the
protection device provides a support for a mitral annuloplasty element,
such as a compressive prosthesis, including a tension element when it
is placed under tension. The protection device has an arch of
sufficient rigidity and dimensions to support the tensioning element
over the coronary artery, redistribute tension away from an underlying
coronary artery, and inhibit application of pressure to the underlying
artery, for example when an annuloplasty tension element is placed
under tension during mitral annuloplasty.
In particular, the protective device can be a support interposed in
the
[[Page 43648]]
coronary sinus between the annuloplasty device and the coronary artery.
The device may be substantially tubular so that the tensioning element
is contained within the protective device and supported in spaced
relationship to the coronary artery. An arch may be configured to
extend between a proximal end and a distal end that are substantially
collinear with one another so that the ends form stabilizing members
such as feet that retain the bridge in position over the coronary
artery.
The device may be used in methods of improving the function of a
mitral valve in a subject in which an annuloplasty element, for example
an element that exerts compressive remodeling forces on the mitral
valve (such as a tensioning element), is introduced at least partially
around the mitral valve, for example at least partially through the
coronary sinus and over a coronary artery. The protective device is
placed between the annuloplasty element and the coronary artery, with
the annuloplasty element supported by the bridge of the device.
Compressive remodeling forces are exerted by the annuloplasty device
(for example by applying tension to alter the shape or configuration of
the mitral valve annulus to reduce its circumference) while supporting
the annuloplasty element on the bridge to inhibit application of
pressure to the coronary artery. The function of the mitral valve in
the patient is thereby improved without impairing coronary blood flow.
The annuloplasty element can be introduced at least partially
around the mitral valve by advancing the annuloplasty element in an
endovascular catheter through the vascular system to the heart and
introducing the annuloplasty element and the protective device from the
catheter into the coronary sinus through a coronary sinus ostium. In
those embodiments in which the protective device includes an internal
lumen, the annuloplasty element extends through the lumen of the
protective device over the coronary artery so that the annuloplasty
element is supported by the protective device. The protective device
can be integrated directly into the annuloplasty element, such as a
resilient or expandable device, or a tensioning element or tensioning
material.
In other embodiments, this disclosure provides a method of
improving function of a mitral valve in a subject who has mitral
regurgitation by performing a mitral valve cerclage annuloplasty. In a
particular disclosed example of the procedure, a guiding catheter is
percutaneously inserted through the vasculature of a subject. The
guiding catheter is introduced through the coronary sinus into the
great cardiac vein, and a steerable microcatheter or other coaxial
guiding catheter or steering device introduces a guidewire into a basal
blood vessel such as the first septal coronary vein. From there the
guidewire traverses under imaging guidance the septal myocardium or
annulus fibrosis and reenters the right ventricle or right atrium. The
guidewire is then retrieved using a vascular snare and the guiding
catheter and guidewire are replaced with a tensioning system. The
protective device is then introduced through the guiding catheter over
or in tandem with the tensioning system so as to protect an underlying
coronary artery when tension is introduced to perform the annuloplasty.
Applications: Cardiac valve repair; Interventional Cardiology;
Cardiac Surgery.
Development Status: Early-stage; Pre-clinical data available;
Prototype.
Inventors: June-Hong Kim, Robert J. Lederman, Ozgur Kocaturk
(NHLBI).
Patent Status: U.S. Provisional Application No. 60/858,716 filed 14
Nov 2006. (HHS Reference No. E-249-2006/0-US-01); U.S. Provisional
Application No. 60/932,611 filed 31 May 2007 (HHS Reference No. E-249-
2006/1-US-01); The issued and pending patent rights are solely owned by
the United States Government.
Licensing Status: Available for licensing on an exclusive or non-
exclusive basis.
Licensing Contact: Michael A. Shmilovich, Esq.; 301/435-5019;
shmilovm@mail.nih.gov.
Collaborative Research Opportunity: The NHLBI Cardiovascular Branch
is seeking statements of capability or interest from parties interested
in collaborative research to further development, evaluate, or
commercialize catheter-based cardiovascular devices. Please contact Peg
Koelble, NHLBI Office of Technology Transfer and Development, at 301-
594-4095 or koelblep@nhlbi.nih.gov.
A Shuttle Plasmid, Recombinant MVA/HIV1 Clinical Vaccine Constructs and
a Mechanism for Enhanced Stability of Foreign Gene Inserts by Codon
Alternation and for Insertion of the Foreign Gene Between Two Vaccinia
Virus Essential Genes
Description of Technology: Since the onset of the AIDS epidemic
more than two decades ago, enormous efforts have been directed to
making a vaccine that will protect against human immunodeficiency
virus-1 (HIV); an effective vaccine is thought to require the induction
of cellular and humoral responses. Vaccine candidates have included a
variety of HIV immunogens delivered as DNA, attenuated poxviruses,
adenoviruses, vesicular stomatitis virus, proteins, and various
combinations thereof. The inventors' efforts to design an HIV vaccine
have focused on modified vaccinia virus Ankara (MVA) as a vector.
The patent application describes (1) The shuttle plasmid, pLW73,
used for insertion of a foreign gene between two essential vaccinia
virus genes (in this case, I8R, G1L), (2) an MVA/Ugandan Clade D (UGD)
construct, and (3) an MVA/HIV 75 AG construct using pLW73 as a vector.
Additionally, the invention provides two methods: (1) A method useful
for large-scale production of recombinant vaccinia viruses, and (2) a
method for stabilizing foreign gene inserts that undergo mutation after
repeated passages, again useful in large-scale production of
recombinant vaccinia viruses.
Application: Immunization against HIV.
Developmental Status: Vaccine candidates have been synthesized and
preclinical studies have been performed. The vaccine candidates of this
invention are slated to enter Phase I clinical trials in the next year.
Inventors: Bernard Moss, Patricia Earl, Linda Wyatt (NIAID).
Patent Status: U.S. Patent Application No. 60/840,093 filed 25 Aug
2006 (HHS Reference No. E-248-2006/0-US-01); U.S. Patent Application
No. 60/840,755 filed 28 Aug 2006 (HHS Reference No. E-248-2006/1-US-
01).
Licensing Status: Available for exclusive or non-exclusive
licensing.
Licensing Contact: Peter J. Soukas, J.D.; 301/435-4646;
soukasp@mail.nih.gov.
Molecular Probes for Identification or Isolation of Membrane Proteins
Description of Technology: This technology describes a new class of
molecular probes designed around an iodonaphthyl succinate antigen that
can be used to label and tag proteins using a variety of conventional
protein modification chemistries. The technology is offered as a
combination of probe + monoclonal antibodies against the probe (three
clones). The probe can be used for labeling and tagging cell surface
and integral membrane proteins as well as soluble proteins. The
monoclonal antibodies were tested and found effective for
immunoprecipitation, western blot, and
[[Page 43649]]
flow cytometry. Once tagged, the modified proteins can be detected or
isolated using an antibody reactive with the probe. Several possible
probes and monoclonal antibodies that react with them are described.
These probes and their corresponding antibodies have significant
advantages over the biotin-avidin system.
Advantages: Reversibility of binding for protein isolation; Lack of
high, non-specific binding to cell surfaces; Ability to incorporate
isotopic 125 I label in the probe for tracking tagged
proteins in vivo.
Applications: Protein labeling; Protein isolation.
Development Status: In vitro data available.
Inventors: Yossef Raviv et al. (NCI).
Patent Status: U.S. Provisional Application No. 60/906,166 filed 09
Mar 2007 (HHS Reference No. E-162-2006/0-US-01).
Licensing Contact: Susan Ano, Ph.D.; 301/435-5515;
anos@mail.nih.gov.
Cross-protective Influenza Vaccine That Protects Against Lethal H5N1
Challenge
Description of Technology: Concerns about a potential influenza
pandemic and its prevention are a regular part of health news, with
bird (avian) influenza (prominently including H5N1 strains) being a
major concern. Vaccination is one of the most effective ways to
minimize suffering and death from influenza. Currently, there is not an
effective way to vaccinate against avian influenza without knowing what
subtype and strain will circulate. The technology described here
relates to use of influenza A matrix 2 (M2) protein of a sequence
derived from one subtype to induce immunity protective against
infection with other subtypes, an approach made possible by the fact
that M2 is highly conserved among different influenza strains. The M2
component can be expressed from a DNA vaccine or recombinant viral
vector, can be a protein or peptide, or can involve immunizing with one
form and boosting with another, for example a DNA or viral vector
followed by or preceded by a polypeptide. The M2 component can be used
either alone or in combination with other influenza components, and can
be administered with or without adjuvant. Specifically, mouse studies
showed that the DNA vaccine priming followed by recombinant adenoviral
boosting with constructs expressing M2 from an H1N1 strain protected
against a lethal challenge with an H5N1 strain. Such cross-protection
would be beneficial in a seasonal or pandemic influenza vaccine
product. The current approach offers several advantages over
traditional influenza vaccine approaches, including (a) ease and speed
of production without need for eggs, (b) vaccine manufacture not based
upon surveillance to determine dominant strain(s), and (c)
effectiveness despite antigenic shift for the components HA and NA of
circulating viruses.
Application: Influenza vaccine.
Development Status: Animal (mouse) data available.
Inventors: Suzanne L. Epstein et al. (CBER/FDA).
Patent Status: U.S. Provisional Application No. 60/786,152 filed 27
Mar 2006 (HHS Reference No. E-076-2006/0-US-01); PCT Application No.
PCT/US2007/007679 filed 27 Mar 2007 (HHS Reference No. E-076-2006/1-
PCT-01).
Licensing Contact: Susan Ano, PhD; 301/435-5515; anos@mail.nih.gov.
Collaborative Research Opportunity: The Center for Biologics
Evaluation and Research, Office of Cellular, Tissue, and Gene
Therapies, Division of Cellular and Gene Therapies, Gene Therapy and
Immunogenicity Branch, is seeking statements of capability or interest
from parties interested in collaborative research to further develop,
evaluate, or commercialize matrix 2 (M2) vaccines protective against
influenza A subtypes, including high-pathogenicity avian strains,
differing from the strain from which the vaccine was derived. Please
contact Dr. Suzanne Epstein at 301-827-0450 or
suzanne.epstein@fda.hhs.gov for more information.
Targeting Poly-Gamma-Glutamic Acid To Treat Staphylococcus Epidermidis
and Related Infections
Description of Invention: Over the past decade, Staphylococcus
epidermidis has become the most prevalent pathogen involved in
nosocomial infections. Usually an innocuous commensal microorganism on
human skin, this member of the coagulase-negative group of
staphylococci can cause severe infection after penetration of the
epidermal protective barriers of the human body. In the U.S. alone, S.
epidermidis infections on in-dwelling medical devices, which represent
the main type of infection with S. epidermidis, cost the public health
system approximately $1 billion per year. Importantly, S. epidermidis
is frequently resistant to common antibiotics.
Immunogenic compositions and methods for eliciting an immune
response against S. epidermidis and other related staphylococci are
claimed. The immunogenic compositions can include immunogenic
conjugates of poly-[gamma]-glutamic acid (such as [gamma]DLPGA)
polypeptides of S. epidermidis, or related staphylococci that express a
[gamma]PGA polypeptide. The [gamma]PGA conjugates elicit an effective
immune response against S. epidermidis, or other staphylococci, in
subjects to which the conjugates are administered. A method of treating
an infection caused by a Staphylococcus organism that expresses CAP
genes is also disclosed. The method can include selecting a subject who
is at risk of or has been diagnosed with the infection by the
Staphylococcus organism which expresses [gamma]PGA from the CAP genes.
Further, the expression of a [gamma]PGA polypeptide by the organism can
then be altered.
Application: Prophylactics against S. epidermidis.
Developmental Status: Preclinical studies have been performed.
Inventors: Michael Otto, Stanislava Kocianova, Cuong Vuong, Jovanka
Voyich, Yufeng Yao, Frank DeLeo (NIAID).
Publication: S Kocianova et al. Key role of poly-gamma-DL-glutamic
acid in immune evasion and virulence of Staphylococcus epidermidis. J
Clin Invest. 2005 Mar;115(3):688-694.
Patent Status: PCT Patent Application No. PCT/US2006/026900 filed
10 Jul 2006 (HHS Reference No. E-263-2005/0-PCT-02).
Licensing Status: Available for exclusive or non-exclusive
licensing.
Licensing Contact: Peter A. Soukas, J.D.; 301/435-4646;
soukasp@mail.nih.gov.
Collaborative Research Opportunity: The National Institute of
Allergy and Infectious Diseases, Laboratory of Human Bacterial
Pathogenesis, is seeking statements of capability or interest from
parties interested in collaborative research to further develop,
evaluate, or commercialize the use of poly-[gamma]-glutamic acid of
staphylococci. Please contact Dr. Michael Otto at motto@niaid.nih.gov
for more information.
Improved Expression Vectors for Mammalian Use
Description of Technology: This technology relates to improving
levels of gene expression using a combination of a constitutive RNA
transport element (CTE) with a mutant form of another RNA transport
element (RTE). The combination of these elements results in a
synergistic effect on stability of mRNA transcripts, which in turn
leads to increased expression levels. Using HIV-1 gag as reporter mRNA,
one mutated RTE in combination with a CTE was
[[Page 43650]]
found to improve expression of unstable mRNA by about 500-fold.
Similarly this combination of elements led to synergistically elevated
levels of HIV-1 Env expression. The function of CTEs and RTEs is
conserved in mammalian cells, so this technology is a simple and useful
way of obtaining high levels of expression of otherwise poorly
expressed genes and can be used in a number of applications such as but
not limited to improvements of gene therapy vectors, expression vectors
for mammalian cells.
Applications: Gene therapy; DNA vaccines; Protein expression.
Development Status: In vitro data available.
Inventor: Barbara Felber et al. (NCI).
Patent Status: U.S. Utility Application No. 10/557,129, filed 16
Nov 2005, from PCT Application No. PCT/US04/15776 filed 19 May 2004,
which published as WO2004/113547 on 29 Dec 2004 (HHS Reference No. E-
223-2003/1-US-03).
Licensing Status: Available for licensing.
Licensing Contact: Susan Ano, PhD; 301/435-5515; anos@mail.nih.gov.
Collaborative Research Opportunity: The National Cancer Institute
Vaccine Branch is seeking statements of capability or interest from
parties interested in collaborative research to further develop,
evaluate, or commercialize this technology. Please contact John D.
Hewes, PhD at 301-435-3121 or hewesj@mail.nih.gov for more information.
Dated: July 31, 2007.
Steven M. Ferguson,
Director, Division of Technology Development and Transfer, Office of
Technology Transfer, National Institutes of Health.
[FR Doc. E7-15208 Filed 8-3-07; 8:45 am]
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