Abstract: A method of treating skeletal muscle cachexia and inflammation associated with burn injury in a subject in need thereof is provided, the method including administering to the subject an effective amount of a phosphodiesterase-4B (PED4B)-selective inhibitor.
Type:
Grant
Filed:
November 28, 2018
Date of Patent:
July 6, 2021
Assignees:
University of Cincinnati, Shriners Hospital For Children
Abstract: The disclosure describes methods of making high-strength NDGA collagen and associated methods of preparing collagen preparatory material and medical bioprostheses.
Type:
Grant
Filed:
February 13, 2017
Date of Patent:
November 12, 2019
Assignee:
Shriners Hospitals for Children
Inventors:
Thomas J. Koob, Douglas Pringle, Daniel Hernandez
Abstract: Anchoring system including a fastener and a clasp. The fastener includes a substantially planar base, a first clasp-engaging member protruding from a portion of the base and having an outwardly-extending flange, the fastener further including an adhesive suitable to secure the base directly to the skin of a wearer. The clasp includes a first end configured to engage and rotate about the first clasp-engaging member and a second end configured to engage a cable of a prosthetic or orthotic device, the adhesive having a sufficient strength to support manual operation of the prosthetic or orthotic device.
Abstract: Method for performing spinal correction surgery. The method includes creating at least one access opening in a patient, and implanting a plurality of anchor devices through the at least one access opening onto a plurality of corresponding vertebral bodies. Each anchor device has a channel defined therein. The method further includes disposing a tether into the channel of each of the plurality of anchor devices. A first end portion of the tether is secured to a first of the plurality of anchor devices. Additionally, the method includes translating the vertebral body corresponding to the selected anchor device using a pusher tool. Furthermore, the method includes applying a tension to the tether using a tensioner.
Abstract: The present invention provides a method for preventing or treating a demyelinating disease in a subject. Also provided herein is a method for reducing demyelination, inducing remyelination, promoting oligodendroglial progenitor cell (OPC) proliferation, and/or promoting oligodendrocyte differentiation in a subject. Kits are also described herein.
Type:
Application
Filed:
September 27, 2018
Publication date:
April 4, 2019
Applicants:
THE REGENTS OF THE UNIVERSITY OF CALIFORNIA, SHRINERS HOSPITALS FOR CHILDREN
Abstract: The presently disclosed subject matter relates to antagonists of PTEN and methods of using the same. In particular, the presently disclosed subject matter provides for PTEN antagonist peptides for use in treating central nervous system disorders. In an exemplary embodiment, the presently disclosed subject matter provides methods for promoting nerve fiber growth in a subject by administering to the subject a therapeutically effective amount of a PTEN antagonist peptide.
Abstract: The present invention relates to the newly identified timerization initiating and stagger determining capacity of the NC2 domain of collagen IX. The invention further relates to a hexavalent molecular building block wherein the linkage of additional moieties to the amino and carboxyl terminals of monomers comprising the NC2 domain of collagen IX promotes the directed association of those moieties via the trimerization initiating and stagger determining capacity of the NC2 domain of collagen IX.
Abstract: The disclosure describes implantable medical products, that include dry or partially hydrated biocompatible constructs comprising collagen fibers configured to expand in situ after implantation to frictionally engage a bone tunnel wall to thereby affix the construct in the bone tunnel.
Abstract: The present disclosure provides a method of making a systematic single point mutation in a target nucleic acid and a method of generating a mutational library comprising target nucleic acids with single point mutations. The mutational library comprises target nucleic acids with single point mutations distributed evenly throughout the target nucleic acid.
Type:
Grant
Filed:
May 4, 2016
Date of Patent:
January 16, 2018
Assignees:
WASHINGTON UNIVERSITY, SHRINERS HOSPITALS FOR CHILDREN
Inventors:
Christine Gurnett, Gabriel Haller, Matthew Dobbs, David Alvarado
Abstract: The present invention makes use of immunoassays, such as sandwich ELISAs, to profile the circulating concentration of elastic fiber and microfibril fragments in samples from individuals with diseases associated with elastic fiber and/or microfibril degradation. Examples of such diseases include, Marfan's syndrome, aortic aneurysm, and scleroderma. Profiling the concentration of such fragments can be used to diagnose disease and monitor disease progression.
Type:
Grant
Filed:
October 25, 2011
Date of Patent:
January 2, 2018
Assignee:
SHRINERS HOSPITAL FOR CHILDREN
Inventors:
Lynn Y. Sakai, Lynn M. Marshall, Eric J. Carlson, Noe L. Charbonneau, Susan J. Hayflick
Abstract: The presently disclosed subject matter relates to the generation of induced pluripotent stem cell (iPSC)-derived neuronal cell lines from subjects diagnosed with polyhydramnios-megalencephaly-symptomatic-epilepsy (PMSE) and assays making use of such cell lines to identify mammalian target of rapamycin (mTOR) signalling modulators as well as anti-epileptogenic compounds.
Abstract: The disclosure describes methods of making high-strength NDGA collagen and associated methods of preparing collagen preparatory material and medical bioprostheses.
Type:
Grant
Filed:
December 27, 2007
Date of Patent:
March 28, 2017
Assignee:
Shriners Hospitals for Children
Inventors:
Thomas J. Koob, Douglas Pringle, Daniel Hernandez
Abstract: Protective sleeve for a medical device having a moveable joint including a tubular assembly comprising a flexible material that satisfies International Organization for Standardization ISO13997 (1999) for a cut resistance of at least ISO level 5. The tubular assembly has a first end portion, a second end portion, and a length extending therebetween. The tubular assembly includes a base member made of the flexible material having an internal surface and an external surface and a reinforcing member made of the flexible material coupled to the base member along the internal surface and the external surface of the base member. The reinforcing member forms a channel at the first end portion. The tubular assembly has an internal cross dimension sized to receive a medical device having a moveable joint therein. The protective sleeve further includes an adjustment member received in the channel to radially adjust the first end portion.
Abstract: The present disclosure provides a method of making a systematic single point mutation in a target nucleic acid and a method of generating a mutational library comprising target nucleic acids with single point mutations. The mutational library comprises target nucleic acids with single point mutations distributed evenly throughout the target nucleic acid.
Type:
Application
Filed:
May 4, 2016
Publication date:
November 10, 2016
Applicant:
Shriners Hospital for Children
Inventors:
Christine Gurnett, Gabriel Haller, Matthew Dobbs, David Alvarado
Abstract: The present invention relates to the newly identified timerization initiating and stagger determining capacity of the NC2 domain of collagen IX. The invention further relates to a hexavalent molecular building block wherein the linkage of additional moieties to the amino and carboxyl terminals of monomers comprising the NC2 domain of collagen IX promotes the directed association of those moieties via the trimerization initiating and stagger determining capacity of the NC2 domain of collagen IX.
Abstract: The disclosure describes implantable medical products, that include dry or partially hydrated biocompatible constructs comprising collagen fibers configured to expand in situ after implantation to frictionally engage a bone tunnel wall to thereby affix the construct in the bone tunnel.
Abstract: The present invention relates to the newly identified timerization initiating and stagger determining capacity of the NC2 domain of collagen IX. The invention further relates to a hexavalent molecular building block wherein the linkage of additional moieties to the amino and carboxyl terminals of monomers comprising the NC2 domain of collagen IX promotes the directed association of those moieties via the trimerization initiating and stagger determining capacity of the NC2 domain of collagen IX.
Abstract: Method for performing spinal correction surgery. The method includes creating at least one access opening in a patient, and implanting a plurality of anchor devices through the at least one access opening onto a plurality of corresponding vertebral bodies. Each anchor device has a channel defined therein. The method further includes disposing a tether into the channel of each of the plurality of anchor devices. A first end portion of the tether is secured to a first of the plurality of anchor devices. Additionally, the method includes translating the vertebral body corresponding to the selected anchor device using a pusher tool. Furthermore, the method includes applying a tension to the tether using a tensioner.
Abstract: The disclosure describes implantable medical products, that include dry or partially hydrated biocompatible constructs comprising collagen fibers configured to expand in situ after implantation to frictionally engage a bone tunnel wall to thereby affix the construct in the bone tunnel.
Abstract: Method for performing spinal correction surgery. The method includes creating at least one access opening in a patient, and implanting a plurality of anchor devices through the at least one access opening onto a plurality of corresponding vertebral bodies. Each anchor device has a channel defined therein. The method further includes disposing a tether into the channel of each of the plurality of anchor devices. A first end portion of the tether is secured to a first of the plurality of anchor devices. Additionally, the method includes translating the vertebral body corresponding to the selected anchor device using a pusher tool. Furthermore, the method includes applying a tension to the tether using a tensioner.