Government-Owned Inventions; Availability for Licensing, 50829-50830 [E8-19915]
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Federal Register / Vol. 73, No. 168 / Thursday, August 28, 2008 / Notices
more deaths, with 24 percent in the
U.S., than any other cause.
• Cerebral ischemia is the third
leading cause of death after heart
diseases and cancer.
• Decreased blood flow underlies a
significant number of chronic diseases
that account for the majority of
morbidity and mortality for elderly
adults in this country.
• Cancer patients and traumatic
injury victims requiring reconstructive
surgery.
• Burn patients requiring skin
transplants.
• Organ transplant patients.
Development Status: Early-stage of
development (in vivo data available in
mice and pigs).
Inventors: Jeff S. Isenberg et al. (NCI).
Patent Status: PCT Application No.
PCT/US2007/080647 filed 5 Oct 2007,
which published as WO 2008/060785
on 22 May 2008 (HHS Reference No.
E–227–2006/5–PCT–01).
Licensing Status: Available for
licensing.
Licensing Contact: Charlene A.
Sydnor, PhD; 301–435–4689;
sydnorc@mail.nih.gov.
Collaborative Research Opportunity:
The National Cancer Institute Center for
Cancer Research, Laboratory of
Pathology is seeking statements of
capability or interest from parties
interested in collaborative research to
further develop, evaluate, or
commercialize therapeutics targeting
CD47 or thrombospondin-1. Please
contact John D. Hewes, PhD at 301–435–
3121 or hewesj@mail.nih.gov for more
information.
jlentini on PROD1PC65 with NOTICES
Total Synthesis of Northebaine,
Normorphine, Noroxymorphone
Enantiomers and Derivatives via N-Nor
Intermediates
Description of Technology: A new
synthetic process has been found in
which nordihydrocodeinone, an early
intermediate in the total synthesis of
codeine and related compounds, is
easily formed into a number of N-nor
compounds. These N-nor compounds
can be used as precursors in the
formation of narcotics, narcotic
antagonists, or narcotic agonistantagonists.
The manufacture of drugs of this type,
such as northebaine or normorphine,
can now be done without the use of
thebaine as starting material. The
syntheses have fewer steps than
previous methods, and also have high
yields. In addition, very significant
simplification of existing thebaine based
processes for the manufacture of opiates
can be expected.
VerDate Aug<31>2005
17:36 Aug 27, 2008
Jkt 214001
Applications: Potential new
methodology for the synthesis of
intermediates for drugs including
naloxone, naltrexone, percodan and
nalbuphine.
Market:
• More than a quarter of Americans
suffer daily pain, a condition that costs
the U.S. about $60 billion a year in lost
productivity.
• Americans spent about $2.6 billion
in over-the-counter pain medications
and another nearly $14 billion on
outpatient analgesics in 2004.
• Worldwide, nearly 300 million
people are believed to suffer from
chronic pain.
Inventors: Kenner C. Rice et al.
(NIDDK)
Patent Status:
HHS Reference No. E–012–1986/1—
• Australian Patent 642447 issued 15
Feb 1994.
• Japanese Patent 2694156 issued 12
Sept 1997.
• Canadian Patent 2067200 issued 30
Jun 1998.
• European Patent 0496830 issued 31
Mar 1999 in Austria, Switzerland,
Germany, Denmark, Greece,
Luxembourg, Spain, Belgium, The
Netherlands, Sweden, France, Italy and
United Kingdom.
HHS Reference No. E–012–1986/2—
• United States Patent 5,668,285
issued 16 Sept 1997.
Licensing Status: Available for
licensing.
Licensing Contact: Charlene A.
Sydnor, PhD; 301–435–4689;
sydnorc@mail.nih.gov.
Dated: August 18, 2008.
Richard U. Rodriguez,
Director, Division of Technology Development
and Transfer, Office of Technology Transfer,
National Institutes of Health.
[FR Doc. E8–19914 Filed 8–27–08; 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
PO 00000
Frm 00074
Fmt 4703
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50829
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.
Botulinum Toxoid
Description of Technology:
Vaccination is the only approach that
can be used to prevent botulism. A
pentavalent botulinum toxoid
comprised of formalin-detoxified
botulinum neurotoxin (BoNT) BoNT/A,
B, C, D and E hemagglutinin (Hmg)
complexes has been used to immunize
laboratory and military personnel since
1961, but this has never been licensed
by the United States Food and Drug
Administration (FDA). Vaccination
immediately after toxin exposure has no
protective benefit because the immune
response is relatively slow compared to
the rate of intoxication. The only
treatment that is available upon
intoxication is antibody therapy, which
entails the injection of equine-derived
botulinum antitoxin (BAT) or humanderived botulinum immunoglobulin
(BIG) to remove toxin from the blood.
Antibody therapy does not alleviate
symptoms of botulism, but can limit the
amount of toxin that enters nerve
terminals and thus may lessen the
severity and shorten the duration of
paralysis.
Since a vaccine can be used to either
protect a human population or produce
a BAT or BIG product, it is important to
have reliable methods to evaluate the
antigenic integrity of botulinum
vaccines. An in vitro assay that can
serve in this capacity would be useful
for evaluating the consistency of the
antigen throughout the manufacturing
process, as well as generating data that
may reduce in vivo testing.
Available for licensing are a variety of
new toxoids useful as botulinum
vaccine antigens, for BAT or BIG
production, or for development of tests
to evaluate antigenicity of botulinum
vaccines. The toxoids of the invention
are derived from the Serotype A and B
150 kDa neurotoxin proteins. The
resulting toxoids are antigenically
identical to the native toxin as measured
by inhibition ELISA in spite of showing
E:\FR\FM\28AUN1.SGM
28AUN1
jlentini on PROD1PC65 with NOTICES
50830
Federal Register / Vol. 73, No. 168 / Thursday, August 28, 2008 / Notices
a reduction of toxicity by more than
100,000-fold. Sandwich ELISA analysis
indicated that the featured toxoids were
two- to three-fold less antigenic than the
native neurotoxin compared to
commercially available toxoids, which
were about 100-fold less antigenic.
Preclinical studies have been
performed using the toxoids of the
invention. Mice were immunized twice,
on Day Zero (0) and Day Fourteen (14).
By Day Twenty-Eight (28), relatively
high toxin-specific IgG titers were
detected in animals that had received
any of the in-house toxoids, with greater
than 99% being IgG1 and the remainder
IgG2. These immunized mice remained
asymptomatic after being challenged
with Fifty (50) to One Million
(1,000,000) median lethal dose (LD50)
units of the 900 kDa neurotoxin. In
contrast, animals immunized with
several different batches of
commercially available toxoids did not
develop measurable toxin-specific
antibody titers; however, these mice did
survive neurotoxin challenges with Two
(2) LD50 units, but died when
challenged with Six (6) LD50 units.
This application claims the formalindetoxified botulinum compositions
described above and an in vitro method
for characterizing the toxoids. Also
claimed are methods of making the
botulinum compositions, and methods
of producing antitoxin to botulinum
toxin.
Applications: ELISA development,
production of equine or human-derived
botulinum antitoxin, development of
next generation botulism vaccines.
Development Status: Toxoids have
been prepared and preclinical studies
have been performed. Standard
antibody reagents for ELISA assay
development have been prepared.
Inventors: James E. Keller (FDA/
CBER).
Publication: JE Keller.
Characterization of New Formalin
Botulinum Neurotoxin Toxoids. Clin
Vaccine Immunol. 2008 Jul 30; Epub
ahead of print, doi:10.1128/CVI.00117–
08.
Patent Status: U.S. Provisional
Application No. 61/036,904 filed 14 Mar
2008 (HHS Reference No. E–325–2007/
0–US–01).
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 FDA Center for Biologics
Evaluation and Research is seeking
statements of capability or interest from
parties interested in collaborative
research to further develop, evaluate, or
VerDate Aug<31>2005
17:36 Aug 27, 2008
Jkt 214001
commercialize botulinum toxoids.
Please contact Alice Welch, PhD at 301–
827–0359 or Alice.Welch@fda.hhs.gov
for more information.
Magnetic Resonance Imaging Methods
and Systems for Estimating Cone of
Uncertainty
Description of Technology: In
diffusion tensor MRI imaging it is
desirable to determine and display the
fiber tract dispersion, e.g., the
eigenvectors and the associated
uncertainties. For example, the unit
eigenvector may be displayed with a
cone of uncertainty around its tip. This
conveys the notion that the direction of
fiber is not known precisely. However,
the known methods are directed to
computation and visualization of a
circular cone of uncertainty. These
methods are suitable for practical
computation and visualization of an
elliptical cone of uncertainty. The
current invention overcomes this
problem by providing (1) a
reconstruction procedure to construct
the covariance matrix of a major
eigenvector for each voxel of a region of
interest of a subject, (2) a visualization
technique to visualize the elliptical cone
of uncertainty of the eigenvector, and (3)
two reconstruction procedures to
compute the normalized areal and
circumferential measures of the
elliptical cone of uncertainty. The
methods can be used to diagnose
medical disorders associated with
anomalous changes in water diffusion.
The methods can also be used in
applications in material science and
earth science (geomagnetism).
Applications: Magnetic Resonance
Imaging; Diagnostics; Material science;
Earth science (Geomagnetism).
Inventor: Cheng Guan Koay (NICHD).
Publications:
1. CG Koay et al. The elliptical cone
of uncertainty and its normalized
measures in diffusion tensor imaging.
IEEE Trans Med Imaging. 2008
Jun;27(6):834–846.
2. CG Koay et al. Error propagation
framework for diffusion tensor imaging
via diffusion tensor representations.
IEEE Trans Med Imaging. 2007
Aug;26(8):1017–1034.
3. CG Koay et al. A unifying
theoretical and algorithmic framework
for least squares methods of estimation
in diffusion tensor imaging. J Magn
Reson. 2006 Sep;182(1):115–125.
Patent Status: U.S. Provisional
Application No. 60/996,169 filed 05
Nov 2007 (HHS Reference No. E–273–
2007/0–US–01).
Licensing Status: Available for
licensing.
PO 00000
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Fmt 4703
Sfmt 4703
Licensing Contact: Michael A.
Shmilovich, Esq.; 301–435–5019;
shmilovm@mail.nih.gov.
Collaborative Research Opportunity:
The NICHD, Section on Tissue
Biophysics and Biomimetics, is seeking
statements of capability or interest from
parties interested in collaborative
research to further develop, evaluate, or
commercialize this technology. Please
contact Alan E. Hubbs, PhD at 301–594–
4263 or hubbsa@mail.nih.gov for more
information.
Dated: August 18, 2008.
Richard U. Rodriguez,
Director, Division of Technology Development
and Transfer, Office of Technology Transfer,
National Institutes of Health.
[FR Doc. E8–19915 Filed 8–27–08; 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.
Radiotracers for Imaging Cannabinoid
Sub-Type1 (CB1) Receptor
Description of Technology: The
present invention relates to novel
radiolabeled compounds for imaging
cannabinoid sub-type 1 (CB1) receptors
in brains of mammals, particularly
humans, using positron emission
tomography (PET) or single photon
emission computed tomography
E:\FR\FM\28AUN1.SGM
28AUN1
]]>Agencies
[Federal Register Volume 73, Number 168 (Thursday, August 28, 2008)]
[Notices]
[Pages 50829-50830]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: E8-19915]
-----------------------------------------------------------------------
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.
Botulinum Toxoid
Description of Technology: Vaccination is the only approach that
can be used to prevent botulism. A pentavalent botulinum toxoid
comprised of formalin-detoxified botulinum neurotoxin (BoNT) BoNT/A, B,
C, D and E hemagglutinin (Hmg) complexes has been used to immunize
laboratory and military personnel since 1961, but this has never been
licensed by the United States Food and Drug Administration (FDA).
Vaccination immediately after toxin exposure has no protective benefit
because the immune response is relatively slow compared to the rate of
intoxication. The only treatment that is available upon intoxication is
antibody therapy, which entails the injection of equine-derived
botulinum antitoxin (BAT) or human-derived botulinum immunoglobulin
(BIG) to remove toxin from the blood. Antibody therapy does not
alleviate symptoms of botulism, but can limit the amount of toxin that
enters nerve terminals and thus may lessen the severity and shorten the
duration of paralysis.
Since a vaccine can be used to either protect a human population or
produce a BAT or BIG product, it is important to have reliable methods
to evaluate the antigenic integrity of botulinum vaccines. An in vitro
assay that can serve in this capacity would be useful for evaluating
the consistency of the antigen throughout the manufacturing process, as
well as generating data that may reduce in vivo testing.
Available for licensing are a variety of new toxoids useful as
botulinum vaccine antigens, for BAT or BIG production, or for
development of tests to evaluate antigenicity of botulinum vaccines.
The toxoids of the invention are derived from the Serotype A and B 150
kDa neurotoxin proteins. The resulting toxoids are antigenically
identical to the native toxin as measured by inhibition ELISA in spite
of showing
[[Page 50830]]
a reduction of toxicity by more than 100,000-fold. Sandwich ELISA
analysis indicated that the featured toxoids were two- to three-fold
less antigenic than the native neurotoxin compared to commercially
available toxoids, which were about 100-fold less antigenic.
Preclinical studies have been performed using the toxoids of the
invention. Mice were immunized twice, on Day Zero (0) and Day Fourteen
(14). By Day Twenty-Eight (28), relatively high toxin-specific IgG
titers were detected in animals that had received any of the in-house
toxoids, with greater than 99% being IgG1 and the remainder IgG2. These
immunized mice remained asymptomatic after being challenged with Fifty
(50) to One Million (1,000,000) median lethal dose (LD50) units of the
900 kDa neurotoxin. In contrast, animals immunized with several
different batches of commercially available toxoids did not develop
measurable toxin-specific antibody titers; however, these mice did
survive neurotoxin challenges with Two (2) LD50 units, but died when
challenged with Six (6) LD50 units.
This application claims the formalin-detoxified botulinum
compositions described above and an in vitro method for characterizing
the toxoids. Also claimed are methods of making the botulinum
compositions, and methods of producing antitoxin to botulinum toxin.
Applications: ELISA development, production of equine or human-
derived botulinum antitoxin, development of next generation botulism
vaccines.
Development Status: Toxoids have been prepared and preclinical
studies have been performed. Standard antibody reagents for ELISA assay
development have been prepared.
Inventors: James E. Keller (FDA/CBER).
Publication: JE Keller. Characterization of New Formalin Botulinum
Neurotoxin Toxoids. Clin Vaccine Immunol. 2008 Jul 30; Epub ahead of
print, doi:10.1128/CVI.00117-08.
Patent Status: U.S. Provisional Application No. 61/036,904 filed 14
Mar 2008 (HHS Reference No. E-325-2007/0-US-01).
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 FDA Center for Biologics
Evaluation and Research is seeking statements of capability or interest
from parties interested in collaborative research to further develop,
evaluate, or commercialize botulinum toxoids. Please contact Alice
Welch, PhD at 301-827-0359 or Alice.Welch@fda.hhs.gov for more
information.
Magnetic Resonance Imaging Methods and Systems for Estimating Cone of
Uncertainty
Description of Technology: In diffusion tensor MRI imaging it is
desirable to determine and display the fiber tract dispersion, e.g.,
the eigenvectors and the associated uncertainties. For example, the
unit eigenvector may be displayed with a cone of uncertainty around its
tip. This conveys the notion that the direction of fiber is not known
precisely. However, the known methods are directed to computation and
visualization of a circular cone of uncertainty. These methods are
suitable for practical computation and visualization of an elliptical
cone of uncertainty. The current invention overcomes this problem by
providing (1) a reconstruction procedure to construct the covariance
matrix of a major eigenvector for each voxel of a region of interest of
a subject, (2) a visualization technique to visualize the elliptical
cone of uncertainty of the eigenvector, and (3) two reconstruction
procedures to compute the normalized areal and circumferential measures
of the elliptical cone of uncertainty. The methods can be used to
diagnose medical disorders associated with anomalous changes in water
diffusion. The methods can also be used in applications in material
science and earth science (geomagnetism).
Applications: Magnetic Resonance Imaging; Diagnostics; Material
science; Earth science (Geomagnetism).
Inventor: Cheng Guan Koay (NICHD).
Publications:
1. CG Koay et al. The elliptical cone of uncertainty and its
normalized measures in diffusion tensor imaging. IEEE Trans Med
Imaging. 2008 Jun;27(6):834-846.
2. CG Koay et al. Error propagation framework for diffusion tensor
imaging via diffusion tensor representations. IEEE Trans Med Imaging.
2007 Aug;26(8):1017-1034.
3. CG Koay et al. A unifying theoretical and algorithmic framework
for least squares methods of estimation in diffusion tensor imaging. J
Magn Reson. 2006 Sep;182(1):115-125.
Patent Status: U.S. Provisional Application No. 60/996,169 filed 05
Nov 2007 (HHS Reference No. E-273-2007/0-US-01).
Licensing Status: Available for licensing.
Licensing Contact: Michael A. Shmilovich, Esq.; 301-435-5019;
shmilovm@mail.nih.gov.
Collaborative Research Opportunity: The NICHD, Section on Tissue
Biophysics and Biomimetics, is seeking statements of capability or
interest from parties interested in collaborative research to further
develop, evaluate, or commercialize this technology. Please contact
Alan E. Hubbs, PhD at 301-594-4263 or hubbsa@mail.nih.gov for more
information.
Dated: August 18, 2008.
Richard U. Rodriguez,
Director, Division of Technology Development and Transfer, Office of
Technology Transfer, National Institutes of Health.
[FR Doc. E8-19915 Filed 8-27-08; 8:45 am]
BILLING CODE 4140-01-P
