Government-Owned Inventions; Availability for Licensing, 66176-66177 [E6-19050]
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66176
Federal Register / Vol. 71, No. 218 / Monday, November 13, 2006 / Notices
awardees to evaluate and report
performance and outcome information.
This information will be used by the
U.S. Department of Health and Human
Services (HHS) to evaluate the
effectiveness and outcomes of the
BTCDP. HRSA will use standard data
collection forms to record the number of
healthcare providers trained by
profession and by course category,
qualitative information on progress
being achieved on approved objectives
within the cooperative agreement, and
performance outcomes of healthcare
providers participating in training. The
data collection forms do not duplicate
other data collection efforts.
The BTCDP is the only Federal
program solely committed to the
preparedness training of healthcare
providers. As such, BTCDP awardees
share curriculum, accomplishments,
and lessons learned through an
established network on a regular basis,
a network vital to the development of a
prepared healthcare workforce.
Awardees stand uniquely prepared to
respond to Congressional demand for
efficient and effective training within
the fiscal and time constraints of this
program. Collecting data from awardees
regarding their performance is the first
step in meeting this demand.
The estimated annual burden is as
follows:
Submission type
Number of
respondents
Responses
per
respondent
Total number
of responses
Hours per
response
Total burden
hours
Performance and Outcome Data .........................................
32
1
32
16
512
Send comments to Susan G. Queen,
PhD, HRSA Reports Clearance Officer,
Room 10–33, Parklawn Building, 5600
Fishers Lane, Rockville, MD 20857.
Written comments should be received
within 60 days of this notice.
be required to receive copies of the
patent applications.
Dated: November 3, 2006.
Cheryl R. Dammons,
Director, Division of Policy Review and
Coordination.
[FR Doc. E6–19087 Filed 11–9–06; 8:45 am]
Description of Technology: Antiviral
drug-resistance is the primary source for
the decreased efficacy of currently
available human immunodeficiency
virus-1 (HIV–1) therapies. The available
material provides a model system in
which to test new antiviral treatment
efficacy as well as the development of
multi-drug-resistance to HIV–1 reverse
transcriptase inhibitors, which is a
widespread obstacle of existing
antiretroviral therapies. This invention
describes a simian immunodeficiency
virus (SIV) that expresses HIV–1 reverse
transcriptase. The available virus infects
and replicates in macaques and has
demonstrated use in the study of drugresistance in an animal model. This
technology represents an advantage over
traditional SIVs, which are not
susceptible to FDA-approved
antiretroviral drugs and as a result
cannot be used to study HIV drugresistance in animals. Thus, the current
research tool provides a novel resource
for advancing the study of drugresistance to antiretroviral therapy and
has the potential to contribute to the
development of innovative therapeutic
agents that are successful against drugresistant HIV strains.
Application: Research and
development of novel therapeutics for
the treatment of drug-resistant HIV.
Development Status: Biological
Material is sufficient for use as a
research tool.
Inventors: Vineet N. KewalRamani
and Zandrea Ambrose (NCI).
Related Publication: Z Ambrose, V
Boltz, S Palmer, JM Coffin, SH Hughes,
VN KewalRamani. In vitro
BILLING CODE 4165–15–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.
AGENCY:
ACTION:
Notice.
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.
SUMMARY:
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
cprice-sewell on PROD1PC66 with NOTICES
ADDRESSES:
VerDate Aug<31>2005
15:22 Nov 09, 2006
Jkt 211001
A Simian Immunodeficiency Virus
Expressing HIV–1 Reverse
Transcriptase for the Study of Antiviral
Drug Resistance in Macaques
PO 00000
Frm 00021
Fmt 4703
Sfmt 4703
characterization of a simian
immunodeficiency virus-human
immunodeficiency virus (HIV) chimera
expressing HIV type 1 reverse
transcriptase to study antiviral
resistance in pigtail macaques. J Virol.
2004 Dec;78(24):13553–13561.
Patent Status: HHS Reference No. E–
315–2006/0—Biological Material.
Licensing Status: Available for nonexclusive licensing under a Biological
Materials License Agreement.
Licensing Contact: Sally Hu, PhD;
301/435–5606; HuS@mail.nih.gov.
Collaborative Research Opportunity:
The National Cancer Institute’s HIV
Drug Resistance Program is seeking
statements of capability or interest from
parties interested in collaborative
research to further develop, evaluate, or
commercialize animal models in which
to evaluate anti-HIV–1 therapy. Please
contact Betty Tong, PhD at 301–594–
4263 or tongb@mail.nih.gov for more
information.
Anti-H5N1 Influenza Activity of the
Antiviral Protein Cyanovirin
Description of Technology: Influenza
A viral subtype H5N1 causes avian
influenza and is currently the subject of
increasing international attention.
Usually, avian influenza infection is
limited to birds and pigs; however
H5N1 has the unique capacity to bring
about severe illness and death in
humans. H5N1 is highly contagious, fast
spreading and rapidly evolving and
therefore has the potential to cause a
worldwide health epidemic.
The available technology embodies
methods of using a cyanovirin-N (CV–N)
peptide, protein, or nucleic acid in the
prevention and/or treatment of
infection. Methods, which utilize CV–N
in the treatment of certain influenza
strains, have previously been
demonstrated. However, the novel use
of CV–N to treat the H5N1 strain is
E:\FR\FM\13NON1.SGM
13NON1
Federal Register / Vol. 71, No. 218 / Monday, November 13, 2006 / Notices
cprice-sewell on PROD1PC66 with NOTICES
unique and development of
prophylactics and/or therapeutics
against the virus represents a significant
contribution to agriculture and public
health sectors throughout the world.
Application: Novel therapeutics for
the treatment and prevention of avian
influenza.
Development Status: In vitro and
early-stage animal studies have been
performed.
Inventors: Barry R. O’Keefe and James
B. McMahon (NCI).
Patent Status: U.S. Provisional
Application No. 60/838,712 filed 18
Aug 2006 (HHS Reference No. E–198–
2006/0–US–01).
Licensing Status: Available for nonexclusive or exclusive licensing.
Licensing Contact: Sally Hu, PhD;
301/435–5606; HuS@mail.nih.gov.
Collaborative Research Opportunity:
The NCI Molecular Targets
Development Program is seeking
statements of capability or interest from
parties interested in collaborative
research to further develop, evaluate, or
commercialize cyanovirin-N for use
against H5N1 influenza. Please contact
Betty Tong, PhD at 301–594–4263 or
tongb@mail.nih.gov for more
information.
Methods for Treating Drug-Resistant
HIV–1 Infection
Description of Technology: Drugresistance is a critical factor
contributing to the loss of clinical
benefit of currently available human
immunodeficiency virus-1 (HIV–1)
therapies. Accordingly, combination
therapies have evolved to address the
rapidly evolving virus. However, there
has been great concern regarding the
growing resistance of HIV–1 strains to
current therapies as multi-drug
resistance to protease inhibitors is
becoming more common. The current
technology embodies a breakthrough
against this immense obstacle of
existing HIV–1 treatments.
Compositions and methods of
inhibiting the protease of multi-drug
resistant retroviruses such as HIV–1 are
available for non-exclusive licensing
and commercial development. The
antiviral activity of the compound
described by the current invention has
been established against multi-protease
inhibitor-resistant HIV–1 variants and
demonstrated effective in patients with
widespread resistance to currently
available protease inhibitors. In
addition, commercial development of
this composition has resulted in the
production of a novel drug that has
recently been granted accelerated
approval by the U.S. Food and Drug
Administration (FDA) for the treatment
VerDate Aug<31>2005
15:22 Nov 09, 2006
Jkt 211001
of HIV–1 in patients who are nonresponsive to existing antiretroviral
therapies.
The available composition retains the
unique ability to inhibit drug resistant
mutants due to its distinctive points of
interaction with the enzyme: the agent
tightly binds to the part of the protease
substrate binding site, which the virus
cannot easily change. Other
‘‘conventional’’ protease inhibitors bind
to other parts of the protease substrate
binding site, which the virus can
relatively easily change, rendering these
drugs ineffective after repeated use.
Therefore, the current technology
represents a highly effective method of
targeting drug resistant HIV–1 strains.
Applications: (1) Novel therapeutics
for the treatment of drug-resistant HIV;
(2) Safe and effective methods for
administration of anti-HIV/AIDS drugs.
Development Status: Clinical trials
have been performed with PrezistaTM
(darunavir), a drug resulting from
development of the present technology,
which has received accelerated approval
from the FDA.
Inventors: John W. Erickson (SAIC/
NCI), Sergei V. Gulnik (SAIC/NCI),
Hiroaki C. Mitsuya (NCI), and Arun K.
Ghosh.
Related Publications:
1. K Yoshimura, R Kato, MF Kavlick,
A Nguyen, V Maroun, K Maeda, KA
Hussain, AK Ghosh, SV Gulnik, JW
Erickson, H Mitsuya. A potent human
immunodeficiency virus type 1 protease
Inhibitor, UIC–94003 (TMC 126), and
selection of a novel (A28S) mutation in
the protease active site. J Virol. 2002
Feb;76(3):1349–1358.
2. Y Koh, K Maeda, H Ogata, G Bilcer,
T Devasamudram, JF Kincaid, P Boross,
Y-F Wang, Y Tie, P Volarath, L Gaddis,
JM Louis, RW Harrison, IT Weber, AK
Ghosh, H Mitsuya. Novel bis
tetrahydrofuranyl-urethane-containing
nonpeptidic protease inhibitor (PI) UIC–
94017 (TMC114) potent against multiPI-resistant human immunodeficiency
virus in vitro. Antimicrob Agents
Chemother. 2003 Oct;47(10):3123–3129.
3. AK Ghosh, PR Sridhar, S
Leshchenko, AK Hussain, J Li, AY
Kovalevsky, DE Walters, JE Wedekind,
V Grum-Tokars, D Das, H Mitsuya.
Structure-based design of novel HIV–1
protease inhibitors to combat drug
resistance. J Med Chem. 2006 Aug 24;
49(17):5252–5261.
4. AK Ghosh, P Ramu Sridhar, N
Kumaragurubaran, Y Koh, IT Weber, H
Mitsuya. Bis-tetrahydrofuran: a
privileged ligand for darunavir and a
new generation of HIV protease
inhibitors that combat drug resistance.
ChemMedChem. 2006 Sep;1(9):939–950.
PO 00000
Frm 00022
Fmt 4703
Sfmt 4703
66177
Patent Status: U.S. Patent Application
No. 09/720,276 filed 07 Mar 2001 (HHS
Reference No. E–200–1998/0–US–02);
European Patent Application No.
99931861.1 filed 23 Jun 1999 (HHS
Reference No. E–200–1998/0–EP 08).
Licensing Status: Available for nonexclusive licensing.
Licensing Contact: Sally Hu, PhD;
301/435–5606; HuS@mail.nih.gov.
Dated: November 3, 2006.
Steven M. Ferguson,
Director, Division of Technology Development
and Transfer, Office of Technology Transfer,
National Institutes of Health.
[FR Doc. E6–19050 Filed 11–9–06; 8:45 am]
BILLING CODE 4140–01–P
DEPARTMENT OF HEALTH AND
HUMAN SERVICES
National Institutes of Health
Office of the Director, National
Institutes of Health, Notice of Meeting
Pursuant to section 10(a) of the
Federal Advisory Committee Act, as
amended (5 U.S.C. Appendix 2), notice
is hereby given of a meeting of the
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The meeting will be open to the
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available. Individuals who plan to
attend and need special assistance, such
as sign language interpretation or other
reasonable accommodations, should
notify the Contact Person listed below
in advance of the meeting.
Name of Committee: Advisory Committee
to the Director, NIH.
Date: December 1, 2006.
Time: 8:30 a.m. to 5 p.m.
Agenda: Among the topics proposed for
discussion are: (1) NIH Director’s Report; (2)
NIH Director’s Council of Public
Representatives Liaison Report; (3) Institute
Director’s Report; and (4) Work Group on
Outside Awards for NIH Employees.
Place: National Institutes of Health,
Building 31, C Wing, Conference Room 6,
9000 Rockville Pike, Bethesda, MD 20892.
Contact Person: Shelly Pollard, ACD
Coordinator, National Institutes of Health,
9000 Rockville Pike, Building 31, Room
5B64, Bethesda, MD 20892. (301) 496–0959.
Any interested person may file written
comments with the committee by forwarding
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form of identification (for example, a
E:\FR\FM\13NON1.SGM
13NON1
]]>Agencies
[Federal Register Volume 71, Number 218 (Monday, November 13, 2006)]
[Notices]
[Pages 66176-66177]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: E6-19050]
-----------------------------------------------------------------------
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.
-----------------------------------------------------------------------
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.
A Simian Immunodeficiency Virus Expressing HIV-1 Reverse Transcriptase
for the Study of Antiviral Drug Resistance in Macaques
Description of Technology: Antiviral drug-resistance is the primary
source for the decreased efficacy of currently available human
immunodeficiency virus-1 (HIV-1) therapies. The available material
provides a model system in which to test new antiviral treatment
efficacy as well as the development of multi-drug-resistance to HIV-1
reverse transcriptase inhibitors, which is a widespread obstacle of
existing antiretroviral therapies. This invention describes a simian
immunodeficiency virus (SIV) that expresses HIV-1 reverse
transcriptase. The available virus infects and replicates in macaques
and has demonstrated use in the study of drug-resistance in an animal
model. This technology represents an advantage over traditional SIVs,
which are not susceptible to FDA-approved antiretroviral drugs and as a
result cannot be used to study HIV drug-resistance in animals. Thus,
the current research tool provides a novel resource for advancing the
study of drug-resistance to antiretroviral therapy and has the
potential to contribute to the development of innovative therapeutic
agents that are successful against drug-resistant HIV strains.
Application: Research and development of novel therapeutics for the
treatment of drug-resistant HIV.
Development Status: Biological Material is sufficient for use as a
research tool.
Inventors: Vineet N. KewalRamani and Zandrea Ambrose (NCI).
Related Publication: Z Ambrose, V Boltz, S Palmer, JM Coffin, SH
Hughes, VN KewalRamani. In vitro characterization of a simian
immunodeficiency virus-human immunodeficiency virus (HIV) chimera
expressing HIV type 1 reverse transcriptase to study antiviral
resistance in pigtail macaques. J Virol. 2004 Dec;78(24):13553-13561.
Patent Status: HHS Reference No. E-315-2006/0--Biological Material.
Licensing Status: Available for non-exclusive licensing under a
Biological Materials License Agreement.
Licensing Contact: Sally Hu, PhD; 301/435-5606; HuS@mail.nih.gov.
Collaborative Research Opportunity: The National Cancer Institute's
HIV Drug Resistance Program is seeking statements of capability or
interest from parties interested in collaborative research to further
develop, evaluate, or commercialize animal models in which to evaluate
anti-HIV-1 therapy. Please contact Betty Tong, PhD at 301-594-4263 or
tongb@mail.nih.gov for more information.
Anti-H5N1 Influenza Activity of the Antiviral Protein Cyanovirin
Description of Technology: Influenza A viral subtype H5N1 causes
avian influenza and is currently the subject of increasing
international attention. Usually, avian influenza infection is limited
to birds and pigs; however H5N1 has the unique capacity to bring about
severe illness and death in humans. H5N1 is highly contagious, fast
spreading and rapidly evolving and therefore has the potential to cause
a worldwide health epidemic.
The available technology embodies methods of using a cyanovirin-N
(CV-N) peptide, protein, or nucleic acid in the prevention and/or
treatment of infection. Methods, which utilize CV-N in the treatment of
certain influenza strains, have previously been demonstrated. However,
the novel use of CV-N to treat the H5N1 strain is
[[Page 66177]]
unique and development of prophylactics and/or therapeutics against the
virus represents a significant contribution to agriculture and public
health sectors throughout the world.
Application: Novel therapeutics for the treatment and prevention of
avian influenza.
Development Status: In vitro and early-stage animal studies have
been performed.
Inventors: Barry R. O'Keefe and James B. McMahon (NCI).
Patent Status: U.S. Provisional Application No. 60/838,712 filed 18
Aug 2006 (HHS Reference No. E-198-2006/0-US-01).
Licensing Status: Available for non-exclusive or exclusive
licensing.
Licensing Contact: Sally Hu, PhD; 301/435-5606; HuS@mail.nih.gov.
Collaborative Research Opportunity: The NCI Molecular Targets
Development Program is seeking statements of capability or interest
from parties interested in collaborative research to further develop,
evaluate, or commercialize cyanovirin-N for use against H5N1 influenza.
Please contact Betty Tong, PhD at 301-594-4263 or tongb@mail.nih.gov
for more information.
Methods for Treating Drug-Resistant HIV-1 Infection
Description of Technology: Drug-resistance is a critical factor
contributing to the loss of clinical benefit of currently available
human immunodeficiency virus-1 (HIV-1) therapies. Accordingly,
combination therapies have evolved to address the rapidly evolving
virus. However, there has been great concern regarding the growing
resistance of HIV-1 strains to current therapies as multi-drug
resistance to protease inhibitors is becoming more common. The current
technology embodies a breakthrough against this immense obstacle of
existing HIV-1 treatments.
Compositions and methods of inhibiting the protease of multi-drug
resistant retroviruses such as HIV-1 are available for non-exclusive
licensing and commercial development. The antiviral activity of the
compound described by the current invention has been established
against multi-protease inhibitor-resistant HIV-1 variants and
demonstrated effective in patients with widespread resistance to
currently available protease inhibitors. In addition, commercial
development of this composition has resulted in the production of a
novel drug that has recently been granted accelerated approval by the
U.S. Food and Drug Administration (FDA) for the treatment of HIV-1 in
patients who are non-responsive to existing antiretroviral therapies.
The available composition retains the unique ability to inhibit
drug resistant mutants due to its distinctive points of interaction
with the enzyme: the agent tightly binds to the part of the protease
substrate binding site, which the virus cannot easily change. Other
``conventional'' protease inhibitors bind to other parts of the
protease substrate binding site, which the virus can relatively easily
change, rendering these drugs ineffective after repeated use.
Therefore, the current technology represents a highly effective method
of targeting drug resistant HIV-1 strains.
Applications: (1) Novel therapeutics for the treatment of drug-
resistant HIV; (2) Safe and effective methods for administration of
anti-HIV/AIDS drugs.
Development Status: Clinical trials have been performed with
PrezistaTM (darunavir), a drug resulting from development of
the present technology, which has received accelerated approval from
the FDA.
Inventors: John W. Erickson (SAIC/NCI), Sergei V. Gulnik (SAIC/
NCI), Hiroaki C. Mitsuya (NCI), and Arun K. Ghosh.
Related Publications:
1. K Yoshimura, R Kato, MF Kavlick, A Nguyen, V Maroun, K Maeda, KA
Hussain, AK Ghosh, SV Gulnik, JW Erickson, H Mitsuya. A potent human
immunodeficiency virus type 1 protease Inhibitor, UIC-94003 (TMC 126),
and selection of a novel (A28S) mutation in the protease active site. J
Virol. 2002 Feb;76(3):1349-1358.
2. Y Koh, K Maeda, H Ogata, G Bilcer, T Devasamudram, JF Kincaid, P
Boross, Y-F Wang, Y Tie, P Volarath, L Gaddis, JM Louis, RW Harrison,
IT Weber, AK Ghosh, H Mitsuya. Novel bis tetrahydrofuranyl-urethane-
containing nonpeptidic protease inhibitor (PI) UIC-94017 (TMC114)
potent against multi-PI-resistant human immunodeficiency virus in
vitro. Antimicrob Agents Chemother. 2003 Oct;47(10):3123-3129.
3. AK Ghosh, PR Sridhar, S Leshchenko, AK Hussain, J Li, AY
Kovalevsky, DE Walters, JE Wedekind, V Grum-Tokars, D Das, H Mitsuya.
Structure-based design of novel HIV-1 protease inhibitors to combat
drug resistance. J Med Chem. 2006 Aug 24; 49(17):5252-5261.
4. AK Ghosh, P Ramu Sridhar, N Kumaragurubaran, Y Koh, IT Weber, H
Mitsuya. Bis-tetrahydrofuran: a privileged ligand for darunavir and a
new generation of HIV protease inhibitors that combat drug resistance.
ChemMedChem. 2006 Sep;1(9):939-950.
Patent Status: U.S. Patent Application No. 09/720,276 filed 07 Mar
2001 (HHS Reference No. E-200-1998/0-US-02); European Patent
Application No. 99931861.1 filed 23 Jun 1999 (HHS Reference No. E-200-
1998/0-EP 08).
Licensing Status: Available for non-exclusive licensing.
Licensing Contact: Sally Hu, PhD; 301/435-5606; HuS@mail.nih.gov.
Dated: November 3, 2006.
Steven M. Ferguson,
Director, Division of Technology Development and Transfer, Office of
Technology Transfer, National Institutes of Health.
[FR Doc. E6-19050 Filed 11-9-06; 8:45 am]
BILLING CODE 4140-01-P
