Patents by Inventor Kemal Schankereli
Kemal Schankereli 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: 20230000619Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: ApplicationFiled: September 8, 2022Publication date: January 5, 2023Applicant: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Patent number: 11484404Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: GrantFiled: June 4, 2022Date of Patent: November 1, 2022Assignee: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Publication number: 20220323208Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: ApplicationFiled: June 4, 2022Publication date: October 13, 2022Applicant: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Publication number: 20220304802Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: ApplicationFiled: June 4, 2022Publication date: September 29, 2022Applicant: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Patent number: 11382737Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: GrantFiled: January 13, 2022Date of Patent: July 12, 2022Assignee: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Patent number: 11364116Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: GrantFiled: August 16, 2021Date of Patent: June 21, 2022Assignee: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Publication number: 20220133471Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: ApplicationFiled: January 13, 2022Publication date: May 5, 2022Applicant: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Patent number: 11311374Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: GrantFiled: August 16, 2021Date of Patent: April 26, 2022Assignee: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Patent number: 11278389Abstract: A method for treating at least one of an ophthalmic artery or an ostium between the ophthalmic artery and an internal carotid artery of a subject may include delivering a microcatheter to a location within vasculature of the subject. The method may further include delivering a filter to a location within at least one of the ophthalmic artery or the ostium and transitioning the filter between a first delivery configuration and a second deployed configuration. Further, the method may include deploying a stent to a location within the internal carotid artery.Type: GrantFiled: December 7, 2017Date of Patent: March 22, 2022Assignee: J.D. Franco & Co., LLCInventors: Michael Calhoun, Jeff Franco, Kemal Schankereli
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Publication number: 20210386542Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: ApplicationFiled: August 27, 2021Publication date: December 16, 2021Applicants: COLORADO STATE UNIVERSITY RESEARCH FOUNDATION, AVALON MEDICAL, LTD.Inventors: Kemal Schankereli, E. Christopher Orton
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Publication number: 20210378819Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: ApplicationFiled: August 16, 2021Publication date: December 9, 2021Applicant: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Publication number: 20210369449Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: ApplicationFiled: August 16, 2021Publication date: December 2, 2021Applicant: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Patent number: 11179236Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: GrantFiled: May 24, 2016Date of Patent: November 23, 2021Assignees: COLORADO STATE UNIVERSITY RESEARCH FOUNDATION, AVALON MEDICAL, LTD.Inventors: Kemal Schankereli, E. Christopher Orton
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Patent number: 11135055Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: GrantFiled: April 15, 2021Date of Patent: October 5, 2021Assignee: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Patent number: 11123181Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: GrantFiled: April 15, 2021Date of Patent: September 21, 2021Assignee: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Patent number: 11123180Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: GrantFiled: October 7, 2019Date of Patent: September 21, 2021Assignee: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Patent number: 11090155Abstract: This invention relates to a delivery apparatus and method for deployment of a mitral valve replacement.Type: GrantFiled: February 7, 2019Date of Patent: August 17, 2021Assignee: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli
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Publication number: 20210228345Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: ApplicationFiled: April 15, 2021Publication date: July 29, 2021Applicant: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Publication number: 20210228344Abstract: This invention relates to the design and function of a compressible valve replacement prosthesis, collared or uncollared, which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed focuses on the deployment of a device via a minimally invasive fashion and by way of example considers a minimally invasive surgical procedure preferably utilizing the intercostal or subxyphoid space for valve introduction. In order to accomplish this, the valve is formed in such a manner that it can be compressed to fit within a delivery system and secondarily ejected from the delivery system into the annulus of a target valve such as a mitral valve or tricuspid valve.Type: ApplicationFiled: April 15, 2021Publication date: July 29, 2021Applicant: Tendyne Holdings, Inc.Inventors: Robert Vidlund, Kemal Schankereli, Lucian Lozonschi, Georg Lutter
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Publication number: 20210177588Abstract: This invention relates to the design and function of a single-tether compressible valve replacement prosthesis which can be deployed into a beating heart without extracorporeal circulation using a transcatheter delivery system. The design as discussed combats the process of wear on anchoring tethers over time by using a plurality of stent-attached, centering tethers, which are themselves attached to a single anchoring tether, which extends through the ventricle and is anchored to a securing device located on the epicardium.Type: ApplicationFiled: February 22, 2021Publication date: June 17, 2021Inventors: Robert Vidlund, Kemal Schankereli