Patents by Inventor Craig Wiltsey
Craig Wiltsey has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240091401Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for embolizing vasculature including the neurovasculature within a patient, among many other uses.Type: ApplicationFiled: November 6, 2023Publication date: March 21, 2024Inventors: Jeffrey Groom, Craig Wiltsey, Quynh Pham, Nikhita Mansukhani, Courtney Guertin, Lee Core, Upma Sharma
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Publication number: 20240091402Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for embolizing vasculature including the neurovasculature within a patient, among many other uses.Type: ApplicationFiled: November 6, 2023Publication date: March 21, 2024Inventors: Jeffrey Groom, Craig Wiltsey, Quynh Pham, Nikhita Mansukhani, Courtney Guertin, Lee Core, Upma Sharma
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Patent number: 11844870Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for embolizing vasculature including the neurovasculature within a patient, among many other uses.Type: GrantFiled: May 24, 2023Date of Patent: December 19, 2023Assignee: Arsenal Medical, Inc.Inventors: Jeffrey Groom, Craig Wiltsey, Quynh Pham, Nikhita Mansukhani, Courtney Guertin, Lee Core, Upma Sharma
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Patent number: 11793909Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for controlling the movement of bodily fluid within a patient, among many other uses.Type: GrantFiled: March 21, 2022Date of Patent: October 24, 2023Assignee: Medtronic Vascular, Inc.Inventors: Craig Wiltsey, Nikhita Mansukhani, Jeffrey Groom, II, Kate Rielly, Changcheng You, Danny Concagh
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Publication number: 20230293764Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for embolizing vasculature including the neurovasculature within a patient, among many other uses.Type: ApplicationFiled: May 24, 2023Publication date: September 21, 2023Inventors: Jeffrey Groom, Craig Wiltsey, Quynh Pham, Nikhita Mansukhani, Courtney Guertin, Lee Core, Upma Sharma
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Publication number: 20230218798Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for embolizing vasculature including the neurovasculature within a patient, among many other uses.Type: ApplicationFiled: June 9, 2021Publication date: July 13, 2023Inventors: Jeffrey Groom, Craig Wiltsey, Quynh Pham, Nikhita Mansukhani, Courtney Guertin, Lee Core, Upma Sharma
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Publication number: 20220265895Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for controlling the movement of bodily fluid within a patient, among many other uses.Type: ApplicationFiled: March 21, 2022Publication date: August 25, 2022Inventors: Craig WILTSEY, Nikhita MANSUKHANI, Jeffrey GROOM, II, Kate RIELLY, Changcheng YOU, Danny CONCAGH
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Patent number: 11324853Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for controlling the movement of bodily fluid within a patient, among many other uses.Type: GrantFiled: December 4, 2020Date of Patent: May 10, 2022Assignee: MEDTRONIC VASCULAR, INC.Inventors: Craig Wiltsey, Nikhita Mansukhani, Jeffrey Groom, II, Kate Rielly, Changcheng You, Danny Concagh
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Patent number: 11311648Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for controlling the movement of bodily fluid within a patient, among many other uses.Type: GrantFiled: December 4, 2020Date of Patent: April 26, 2022Assignee: MEDTRONIC VASCULAR, INC.Inventors: Craig Wiltsey, Nikhita Mansukhani, Jeffrey Groom, II, Kate Rielly, Changcheng You, Danny Concagh
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Publication number: 20210379207Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for embolizing vasculature including the neurovasculature within a patient, among many other uses.Type: ApplicationFiled: June 9, 2021Publication date: December 9, 2021Inventors: Jeffrey Groom, Craig Wiltsey, Quynh Pham, Nikhita Mansukhani, Courtney Guertin, Lee Core, Upma Sharma
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Publication number: 20210379239Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for embolizing vasculature including the neurovasculature within a patient, among many other uses.Type: ApplicationFiled: June 9, 2021Publication date: December 9, 2021Inventors: Jeffrey Groom, Craig Wiltsey, Quynh Pham, Nikhita Mansukhani, Courtney Guertin, Lee Core, Upma Sharma
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Publication number: 20210085825Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for controlling the movement of bodily fluid within a patient, among many other uses.Type: ApplicationFiled: December 4, 2020Publication date: March 25, 2021Inventors: Craig WILTSEY, Nikhita MANSUKHANI, Jeffrey GROOM, II, Kate RIELLY, Changcheng YOU, Danny CONCAGH
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Publication number: 20210085826Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for controlling the movement of bodily fluid within a patient, among many other uses.Type: ApplicationFiled: December 4, 2020Publication date: March 25, 2021Inventors: Craig WILTSEY, Nikhita MANSUKHANI, Jeffrey GROOM, II, Kate RIELLY, Changcheng YOU, Danny CONCAGH
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Publication number: 20200268932Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for controlling the movement of bodily fluid within a patient, among many other uses.Type: ApplicationFiled: July 26, 2019Publication date: August 27, 2020Inventors: Craig WILTSEY, Nikhita MANSUKHANI, Jeffrey GROOM, II, Kate RIELLY, Changcheng YOU, Danny CONCAGH
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Publication number: 20200268933Abstract: The present disclosure pertains to crosslinkable compositions and systems as well as methods for forming crosslinked compositions in situ, including the use of the same for controlling the movement of bodily fluid within a patient, among many other uses.Type: ApplicationFiled: October 17, 2019Publication date: August 27, 2020Inventors: Craig WILTSEY, Nikhita MANSUKHANI, Jeffrey GROOM, II, Kate RIELLY, Changcheng YOU, Danny CONCAGH
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Publication number: 20170056436Abstract: The present disclosure is directed to moisture curing formulations as well as articles, devices, systems, kits and methods based on the same.Type: ApplicationFiled: September 1, 2016Publication date: March 2, 2017Inventors: Gregory Zugates, Chetan Khatri, Joseph Lomakin, Craig Wiltsey
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Publication number: 20170000923Abstract: The disclosure relates to a composition that is liquid at a temperature below the body temperature of a mammal and that solidifies at or above the body temperature of the mammal. The composition includes a thermally-desolubilizable polymer interspersed with a polymeric component of extracellular matrix and an encapsulated form of an amine compound (preferably an aminated component of extracellular matrix) that is de-encapsulated in the body of the mammal. The polymeric component is able to form covalent bonds with amine moieties in the aminated component, in one or more tissues in the body of the mammal, or both. Upon injection off liquid suspension of these components into the body of the mammal, the thermally-desolubilizable polymer condenses, entrapping the polymeric component. The polymeric component binds covalently with a tissue in the body, and the aminated component end-caps the remaining reactive moieties of the polymeric component, forming a matrix at the site of injection.Type: ApplicationFiled: September 19, 2016Publication date: January 5, 2017Applicant: Rowan UniversityInventors: Andrea J. Vernengo, Jennifer Kadlowec, Pamela Kubinski, Thomas N. Tulenko, Cristina Iftode, Bryan Johnson, Craig Wiltsey
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Patent number: 9446167Abstract: The disclosure relates to a composition that is liquid at a temperature below the body temperature of a mammal and that solidifies at or above the body temperature of the mammal. The composition includes a thermally-desolubilizable polymer interspersed with a polymeric component of extracellular matrix and an encapsulated form of an amine compound (preferably an aminated component of extracellular matrix) that is de-encapsulated in the body of the mammal. The polymeric component is able to form covalent bonds with amine moieties in the aminated component, in one or more tissues in the body of the mammal, or both. Upon injection of a liquid suspension of these components into the body of the mammal, the thermally-desolubilizable polymer condenses, entrapping the polymeric component. The polymeric component binds covalently with a tissue in the body, and the aminated component end-caps the remaining reactive moieties of the polymeric component, forming a matrix at the site of injection.Type: GrantFiled: February 11, 2016Date of Patent: September 20, 2016Inventors: Andrea Jennifer Vernengo, Jennifer Kadlowec, Pamela Kubinski, Thomas N. Tulenko, Cristina Iftode, Bryan Johnson, Craig Wiltsey
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Publication number: 20160158406Abstract: The disclosure relates to a composition that is liquid at a temperature below the body temperature of a mammal and that solidifies at or above the body temperature of the mammal. The composition includes a thermally-desolubilizable polymer interspersed with a polymeric component of extracellular matrix and an encapsulated form of an amine compound (preferably an aminated component of extracellular matrix) that is de-encapsulated in the body of the mammal. The polymeric component is able to form covalent bonds with amine moieties in the aminated component, in one or more tissues in the body of the mammal, or both. Upon injection of a liquid suspension of these components into the body of the mammal, the thermally-desolubilizable polymer condenses, entrapping the polymeric component. The polymeric component binds covalently with a tissue in the body, and the aminated component end-caps the remaining reactive moieties of the polymeric component, forming a matrix at the site of injection.Type: ApplicationFiled: February 11, 2016Publication date: June 9, 2016Applicant: Rowan UniversityInventors: Andrea Jennifer Vernengo, Jennifer Kadlowec, Pamela Kubinski, Thomas N. Tulenko, Cristina Iftode, Bryan Johnson, Craig Wiltsey
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Patent number: 9295761Abstract: The disclosure relates to a composition that is liquid at a temperature below the body temperature of a mammal and that solidifies at or above the body temperature of the mammal. The composition includes a thermally-desolubilizable polymer interspersed with a polymeric component of extracellular matrix and an encapsulated form of an amine compound (preferably an aminated component of extracellular matrix) that is de-encapsulated in the body of the mammal. The polymeric component is able to form covalent bonds with amine moieties in the aminated component, in one or more tissues in the body of the mammal, or both. Upon injection of a liquid suspension of these components into the body of the mammal, the thermally-desolubilizable polymer condenses, entrapping the polymeric component. The polymeric component binds covalently with a tissue in the body, and the aminated component end-caps the remaining reactive moieties of the polymeric component, forming a matrix at the site of injection.Type: GrantFiled: October 15, 2012Date of Patent: March 29, 2016Inventors: Andrea Jennifer Vernengo, Jennifer Kadlowec, Pamela Kubinski, Thomas N Tulenko, Cristina Iftode, Bryan Johnson, Craig Wiltsey