Patents by Inventor Gabriel Philip HOWLES-BANERJI
Gabriel Philip HOWLES-BANERJI 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: 20240173173Abstract: Medical tubing securement apparatuses may be configured as a stamped projection of a film including a living hinge and one or more securement catches. In particular, described herein are urinary catheter securement devices and IV securement devices. These medical tubing securement apparatuses may be three-dimensional adhesive medical devices having a layer of material that was formed by stamping or pressing a sheet of the material into a complex 3D shape capable of supporting a medical tubing (e.g., urinary catheter and/or IV line).Type: ApplicationFiled: December 1, 2023Publication date: May 30, 2024Inventors: Rajiv DOSHI, Kenneth CHOU, Arthur G. SANDOVAL, Robert Charles LANE, Gabriel Philip HOWLES-BANERJI, Michael Lawrence FAVET
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Publication number: 20220280792Abstract: Methods and apparatuses for sensory electrical stimulation of the peripheral nervous system to improve human motor function and performance are described. Methods and devices may be used to enhance physical performance of athletes, professionals, and gamers or improve motor function (hand, finger and limb movement) in patients rehabilitating from neurological deficits and impairments caused by stroke, traumatic brain injury and other neurologic or non-neurologic conditions. These apparatuses and methods may be used for physical training and mental training (to improve memory and functional performance including motor coordination, limb-eye coordination, occupational and recreational skills) through periodic or sustained sensory electrical stimulation. Treatment plans may be based on biomarkers and may be used alone or in combination with other apparatuses.Type: ApplicationFiled: March 23, 2022Publication date: September 8, 2022Inventors: Karunesh GANGULY, Adelyn TSU, Nikhilesh NATRAJ, Gabriel Philip HOWLES-BANERJI, Rajiv DOSHI, Kondapavulur T. VENKATESWARA-RAO
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Patent number: 11285321Abstract: Methods and apparatuses for sensory electrical stimulation of the peripheral nervous system to improve human motor function and performance are described. Methods and devices may be used to enhance physical performance of athletes, professionals, and gamers or improve motor function (hand, finger and limb movement) in patients rehabilitating from neurological deficits and impairments caused by stroke, traumatic brain injury and other neurologic or non-neurologic conditions. These apparatuses and methods may be used for physical training and mental training (to improve memory and functional performance including motor coordination, limb-eye coordination, occupational and recreational skills) through periodic or sustained sensory electrical stimulation. Treatment plans may be based on biomarkers and may be used alone or in combination with other apparatuses.Type: GrantFiled: November 14, 2017Date of Patent: March 29, 2022Assignees: The Regents of the University of California, U.S. Government Represented by the Department of Veterans Affairs, LightSide MD, LLCInventors: Karunesh Ganguly, Adelyn Tsu, Nikhilesh Natraj, Gabriel Philip Howles-Banerji, Rajiv Doshi, Kondapavulur T. Venkateswara-Rao
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Publication number: 20220015952Abstract: Described herein are adhesive support devices, which may include adhesive medical devices. In particular, three-dimensional adhesive medical devices from a single layer of material, typically by stamping or pressing (including cold pressing) a sheet of the material to form rigid and complex 3D shapes capable of use for a variety of medical and non-medical purposes. These adhesive support devices typically also include an adhesive material allowing the device to be attached to a subject's skin and/or mounted on a surface (e.g., wall, etc.). In particular, described herein are methods of manufacturing, assembling, and using adhesive support devices.Type: ApplicationFiled: September 15, 2021Publication date: January 20, 2022Inventors: Rajiv DOSHI, Kenneth CHOU, Arthur G. SANDOVAL, Robert Charles LANE, Gabriel Philip HOWLES-BANERJI, Michael Lawrence FAVET
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Patent number: 11141319Abstract: Described herein are adhesive support devices, which may include adhesive medical devices. In particular, three-dimensional adhesive medical devices from a single layer of material, typically by stamping or pressing (including cold pressing) a sheet of the material to form rigid and complex 3D shapes capable of use for a variety of medical and non-medical purposes. These adhesive support devices typically also include an adhesive material allowing the device to be attached to a subject's skin and/or mounted on a surface (e.g., wall, etc.). In particular, described herein are methods of manufacturing, assembling, and using adhesive support devices.Type: GrantFiled: May 10, 2019Date of Patent: October 12, 2021Assignee: LightSide MD, LLCInventors: Rajiv Doshi, Kenneth Chou, Arthur G. Sandoval, Robert Charles Lane, Gabriel Philip Howles-Banerji, Michael Lawrence Favet
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Patent number: 10786652Abstract: Described herein are support devices, which may include medical support devices. In particular, three-dimensional medical (and non-medical) devices from a single layer of material, typically by stamping or pressing (including cold pressing) a sheet of the material to form rigid and complex 3D shapes capable of use for a variety of medical and non-medical purposes. These support devices typically also include an adhesive material allowing the device to be attached to a subject's skin and/or mounted on a surface (e.g., wall, etc.). In particular, described herein are methods of manufacturing, assembling, and using adhesive support devices.Type: GrantFiled: October 17, 2014Date of Patent: September 29, 2020Assignee: LightSide MD, LLCInventors: Rajiv Doshi, Kenneth Chou, Arthur G. Sandoval, Robert Charles Lane, Gabriel Philip Howles-Banerji, Michael Lawrence Favet, Daejin Ahn
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Publication number: 20190328581Abstract: Described herein are adhesive support devices, which may include adhesive medical devices. In particular, three-dimensional adhesive medical devices from a single layer of material, typically by stamping or pressing (including cold pressing) a sheet of the material to form rigid and complex 3D shapes capable of use for a variety of medical and non-medical purposes. These adhesive support devices typically also include an adhesive material allowing the device to be attached to a subject's skin and/or mounted on a surface (e.g., wall, etc.). In particular, described herein are methods of manufacturing, assembling, and using adhesive support devices.Type: ApplicationFiled: May 10, 2019Publication date: October 31, 2019Inventors: Rajiv DOSHI, Kenneth CHOU, Arthur G. SANDOVAL, Robert Charles LANE, Gabriel Philip HOWLES-BANERJI, Michael Lawrence FAVET
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Patent number: 10335322Abstract: Described herein are adhesive support devices, which may include adhesive medical devices. In particular, three-dimensional adhesive medical devices from a single layer of material, typically by stamping or pressing (including cold pressing) a sheet of the material to form rigid and complex 3D shapes capable of use for a variety of medical and non-medical purposes. These adhesive support devices typically also include an adhesive material allowing the device to be attached to a subject's skin and/or mounted on a surface (e.g., wall, etc.). In particular, described herein are methods of manufacturing, assembling, and using adhesive support devices.Type: GrantFiled: August 26, 2014Date of Patent: July 2, 2019Assignee: LightSide MD, LLCInventors: Rajiv Doshi, Kenneth Chou, Arthur G. Sandoval, Robert Charles Lane, Gabriel Philip Howles-Banerji, Michael Lawrence Favet
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Publication number: 20160256665Abstract: Described herein are support devices, which may include medical support devices. In particular, three-dimensional medical (and non-medical) devices from a single layer of material, typically by stamping or pressing (including cold pressing) a sheet of the material to form rigid and complex 3D shapes capable of use for a variety of medical and non-medical purposes. These support devices typically also include an adhesive material allowing the device to be attached to a subject's skin and/or mounted on a surface (e.g., wall, etc.). In particular, described herein are methods of manufacturing, assembling, and using adhesive support devices.Type: ApplicationFiled: October 17, 2014Publication date: September 8, 2016Applicant: LIGHTSIDE MD, LLCInventors: Rajiv DOSHI, Kenneth CHOU, Arthur G. SANDOVAL, Robert Charles LANE, Gabriel Philip HOWLES-BANERJI, Michael Lawrence FAVET, Daejin AHN
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Publication number: 20160199230Abstract: Described herein are adhesive support devices, which may include adhesive medical devices. In particular, three-dimensional adhesive medical devices from a single layer of material, typically by stamping or pressing (including cold pressing) a sheet of the material to form rigid and complex 3D shapes capable of use for a variety of medical and non-medical purposes. These adhesive support devices typically also include an adhesive material allowing the device to be attached to a subject's skin and/or mounted on a surface (e.g., wall, etc.). In particular, described herein are methods of manufacturing, assembling, and using adhesive support devices.Type: ApplicationFiled: August 26, 2014Publication date: July 14, 2016Applicant: LIGHTSIDE MD, LLCInventors: Rajiv DOSHI, Kenneth CHOU, Arthur G. SANDOVAL, Robert Charles LANE, Gabriel Philip HOWLES-BANERJI, Michael Lawrence FAVET