Patents by Inventor Stephanie A. Szobota
Stephanie A. Szobota 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: 20230293524Abstract: Provided herein are methods for preventing and/or reducing the severity of drug induced ototoxicity. Provided herein are methods for recovery from hearing loss due to drug-induced ototoxicity.Type: ApplicationFiled: October 30, 2020Publication date: September 21, 2023Inventors: Alan FOSTER, Fabrice PIU, Bonnie Elizabeth JACQUES, Phillip Michael URIBE, Stephanie SZOBOTA, Pranav Dinesh MATHUR
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Publication number: 20190374606Abstract: Disclosed herein are compositions and methods for the treatment of otic diseases or conditions with a non-natural neurotrophic agent compositions and formulations administered to an individual afflicted with an otic disease or condition, through direct application of these compositions and formulations onto or via perfusion into the targeted auris structure(s).Type: ApplicationFiled: January 26, 2018Publication date: December 12, 2019Inventors: Alan FOSTER, Stephanie SZOBOTA, Horacio Uri SARAGOVI
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Patent number: 8579967Abstract: An apparatus including a tether, and an aptation device coupled to the tether at a position corresponding to a location to contact cusps of an atrioventricular valve during systole, wherein the tether and aptation device are suitable for percutaneous delivery to a patient. An apparatus including a support annulus comprising a length corresponding to a circumference of one of an interior portion of an atrium and an atrioventricular valve annulus; and an aptation device coupled to the support annulus corresponding to a location to contact cusps of an atrioventricular valve during at least one of systole when the support annulus is seated in one of an atrium and an atrioventricular valve annulus, wherein the support annulus and aptation device are suitable for percutaneous delivery to a patient. Also, a method of introducing an aptation device to contact cusps or leaflets of an atrioventricular valve.Type: GrantFiled: April 11, 2011Date of Patent: November 12, 2013Assignee: Advanced Cardiovascular Systems, Inc.Inventors: William E. Webler, James D. Breeding, Brad D. Bisson, Firas Mourtada, Gregory M. Hyde, Stephanie A. Szobota, Gabriel Asongwe, Jeffrey T. Ellis
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Patent number: 8070804Abstract: Embodiments of a medical device and methods for percutaneously treating a heart valve. In one embodiment, the medical device has a first catheter body suitable for percutaneous advancement to a heart region, a support annulus disposed within the first catheter body, a steerable tendon disposed in the first catheter body, a deployment mechanism disposed in the first catheter body and configured to release a support annulus from the distal opening in the first catheter body, a second catheter body disposed in the first catheter body, the second catheter body defining a lumen therethrough and a clip disposed in the lumen of the second catheter body and a cord coupled to the clip.Type: GrantFiled: February 22, 2008Date of Patent: December 6, 2011Assignee: Abbott Cardiovascular Systems Inc.Inventors: Gregory Matthew Hyde, Mark Juravic, Stephanie A. Szobota, Brad David Bisson
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Publication number: 20110184512Abstract: An apparatus including a tether, and an aptation device coupled to the tether at a position corresponding to a location to contact cusps of an atrioventricular valve during systole, wherein the tether and aptation device are suitable for percutaneous delivery to a patient. An apparatus including a support annulus comprising a length corresponding to a circumference of one of an interior portion of an atrium and an atrioventricular valve annulus; and an aptation device coupled to the support annulus corresponding to a location to contact cusps of an atrioventricular valve during at least one of systole when the support annulus is seated in one of an atrium and an atrioventricular valve annulus, wherein the support annulus and aptation device are suitable for percutaneous delivery to a patient. Also, a method of introducing an aptation device to contact cusps or leaflets of an atrioventricular valve.Type: ApplicationFiled: April 11, 2011Publication date: July 28, 2011Inventors: William E. Webler, James D. Breeding, Brad D. Bisson, Firas Mourtada, Gregory M. Hyde, Stephanie A. Szobota, Gabriel Asongwe, Jeffrey T. Ellis
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Patent number: 7942928Abstract: An apparatus including a tether, and an aptation device coupled to the tether at a position corresponding to a location to contact cusps of an atrioventricular valve during systole, wherein the tether and aptation device are suitable for percutaneous delivery to a patient. An apparatus including a support annulus comprising a length corresponding to a circumference of one of an interior portion of an atrium and an atrioventricular valve annulus; and an aptation device coupled to the support annulus corresponding to a location to contact cusps of an atrioventricular valve during at least one of systole when the support annulus is seated in one of an atrium and an atrioventricular valve annulus, wherein the support annulus and aptation device are suitable for percutaneous delivery to a patient. Also, a method of introducing an aptation device to contact cusps or leaflets of an atrioventricular valve.Type: GrantFiled: February 5, 2008Date of Patent: May 17, 2011Assignee: Advanced Cardiovascular Systems, Inc.Inventors: William E. Webler, James D. Breeding, Brad D. Bisson, Firas Mourtada, Gregory M. Hyde, Stephanie A. Szobota, Gabriel Asongwe, Jeffrey T. Ellis
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Patent number: 7927370Abstract: An apparatus including a tether, and an aptation device coupled to the tether at a position corresponding to a location to contact cusps of an atrioventricular valve during systole, wherein the tether and aptation device are suitable for percutaneous delivery to a patient. An apparatus including a support annulus comprising a length corresponding to a circumference of one of an interior portion of an atrium and an atrioventricular valve annulus; and an aptation device coupled to the support annulus corresponding to a location to contact cusps of an atrioventricular valve during at least one of systole when the support annulus is seated in one of an atrium and an atrioventricular valve annulus, wherein the support annulus and aptation device are suitable for percutaneous delivery to a patient. Also, a method of introducing an aptation device to contact cusps or leaflets of an atrioventricular valve.Type: GrantFiled: February 5, 2008Date of Patent: April 19, 2011Assignee: Advanced Cardiovascular Systems, Inc.Inventors: William E. Webler, James D. Breeding, Brad D. Bisson, Firas Mourtada, Gregory M. Hyde, Stephanie A. Szobota, Gabriel Asongwe, Jeffrey T. Ellis
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Patent number: 7404824Abstract: An apparatus including a tether, and an aptation device coupled to the tether at a position corresponding to a location to contact cusps of an atrioventricular valve during systole, wherein the tether and aptation device are suitable for percutaneous delivery to a patient. An apparatus including a support annulus comprising a length corresponding to a circumference of one of an interior portion of an atrium and an atrioventricular valve annulus; and an aptation device coupled to the support annulus corresponding to a location to contact cusps of an atrioventricular valve during at least one of systole when the support annulus is seated in one of an atrium and an atrioventricular valve annulus, wherein the support annulus and aptation device are suitable for percutaneous delivery to a patient. Also, a method of introducing an aptation device to contact cusps or leaflets of an atrioventricular valve.Type: GrantFiled: November 12, 2003Date of Patent: July 29, 2008Assignee: Advanced Cardiovascular Systems, Inc.Inventors: William E. Webler, James D. Breeding, Brad D. Bisson, Firas Mourtada, Gregory M. Hyde, Stephanie A. Szobota, Gabriel Asongwe, Jeffrey T. Ellis
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Publication number: 20080177382Abstract: Embodiments of a medical device and methods for percutaneously treating a heart valve. In one embodiment, the medical device has a first cardiac tissue fastener having a first lock, a second cardiac tissue fastener having a second lock, and a chord coupled to the first and second fasteners. Pulling the chord engages the first lock with the second lock.Type: ApplicationFiled: February 22, 2008Publication date: July 24, 2008Inventors: Gregory Matthew Hyde, Mark Juravic, Stephanie A. Szobota, Brad David Bisson
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Publication number: 20080125860Abstract: An apparatus including a tether, and an aptation device coupled to the tether at a position corresponding to a location to contact cusps of an atrioventricular valve during systole, wherein the tether and aptation device are suitable for percutaneous delivery to a patient. An apparatus including a support annulus comprising a length corresponding to a circumference of one of an interior portion of an atrium and an atrioventricular valve annulus; and an aptation device coupled to the support annulus corresponding to a location to contact cusps of an atrioventricular valve during at least one of systole when the support annulus is seated in one of an atrium and an atrioventricular valve annulus, wherein the support annulus and aptation device are suitable for percutaneous delivery to a patient. Also, a method of introducing an aptation device to contact cusps or leaflets of an atrioventricular valve.Type: ApplicationFiled: February 5, 2008Publication date: May 29, 2008Inventors: William E. Webler, James D. Breeding, Brad D. Bisson, Firas Mourtada, Gregory M. Hyde, Stephanie A. Szobota, Gabriel Asongwe, Jeffrey T. Ellis
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Publication number: 20080125861Abstract: An apparatus including a tether, and an aptation device coupled to the tether at a position corresponding to a location to contact cusps of an atrioventricular valve during systole, wherein the tether and aptation device are suitable for percutaneous delivery to a patient. An apparatus including a support annulus comprising a length corresponding to a circumference of one of an interior portion of an atrium and an atrioventricular valve annulus; and an aptation device coupled to the support annulus corresponding to a location to contact cusps of an atrioventricular valve during at least one of systole when the support annulus is seated in one of an atrium and an atrioventricular valve annulus, wherein the support annulus and aptation device are suitable for percutaneous delivery to a patient. Also, a method of introducing an aptation device to contact cusps or leaflets of an atrioventricular valve.Type: ApplicationFiled: February 5, 2008Publication date: May 29, 2008Inventors: William E. Webler, James D. Breeding, Brad D. Bisson, Firas Mourtada, Gregory M. Hyde, Stephanie A. Szobota, Gabriel Asongwe, Jeffrey T. Ellis
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Patent number: 7335213Abstract: Embodiments of a medical device and methods for percutaneously treating a heart valve. In one embodiment, the medical device has a first cardiac tissue fastener having a first lock, a second cardiac tissue fastener having a second lock, and a chord coupled to the first and second fasteners. Pulling the chord engages the first lock with the second lock.Type: GrantFiled: November 15, 2002Date of Patent: February 26, 2008Assignee: Abbott Cardiovascular Systems Inc.Inventors: Gregory Matthew Hyde, Mark Juravic, Stephanie A. Szobota, Brad David Bisson
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Publication number: 20070042337Abstract: Because ice-I is less dense than water, the formation of an ice nucleus in an isochoric (constant volume) system containing water at pressures lower than about 200 MPa will cause an increase in pressure. This increase in pressure increases the energy required for reducing the probability for ice nucleation in an isochoric system containing water. In the present invention, a system for decreasing the probability of ice nucleation in a system containing water based on isochoric cooling and warming is provided. Reduction in the probability of ice nucleation has use in biological material preservation at low temperatures in: a supercooled state, by rapid freezing and through vitrification.Type: ApplicationFiled: July 12, 2006Publication date: February 22, 2007Applicant: The Regents of the University of CaliforniaInventors: Boris Rubinsky, Stephanie Szobota