Patents by Inventor Gary Thill
Gary Thill 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: 20170020665Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: ApplicationFiled: October 3, 2016Publication date: January 26, 2017Applicant: HLT, Inc.Inventors: Gary A. Thill, Robert Foster Wilson, John P. Gainor, Christopher M. Banick
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Publication number: 20170007262Abstract: Implantable occlusion devices that include one or more flanges extending from a tubular body are disclosed. The flange or flanges may assist in retention of the device within a vessel, cavity, appendage, etc. At least one flange on the occlusion device may include a concave surface proximate one end of a body. Because of the shape of the flange, e.g., its concavity, the occlusion device may resist dislocation due to e.g., the forces generated within the left atrial appendage during atrial filbrillation.Type: ApplicationFiled: September 21, 2016Publication date: January 12, 2017Inventors: Kurt Amplatz, Gary A. Thill, Pat Russo, Xiaoping Gu, Jana Santer
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Publication number: 20160361165Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: ApplicationFiled: August 24, 2016Publication date: December 15, 2016Applicant: HLT, Inc.Inventors: Gary A. Thill, Robert Foster Wilson, John P. Gainor, Christopher M. Banick
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Patent number: 9439760Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: GrantFiled: March 2, 2015Date of Patent: September 13, 2016Assignee: HLT, Inc.Inventors: Gary A. Thill, Robert Foster Wilson, John P. Gainor, Christopher M. Banick
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Patent number: 9439761Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: GrantFiled: March 15, 2013Date of Patent: September 13, 2016Assignee: HLT, Inc.Inventors: Gary A. Thill, Robert Foster Wilson, John P. Gainor, Christopher M. Banick
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Publication number: 20160095702Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: ApplicationFiled: July 1, 2015Publication date: April 7, 2016Applicant: HLT, INC.Inventors: John Gainor, Gary A. Thill, Robert Foster Wilson, Christopher M. Banick
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Patent number: 9271831Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: GrantFiled: July 27, 2011Date of Patent: March 1, 2016Assignee: HLT, Inc.Inventors: Gary A. Thill, Robert Foster Wilson, John Gainor, Christopher M. Banick
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Patent number: 9180002Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: GrantFiled: April 27, 2012Date of Patent: November 10, 2015Assignee: HLT, Inc.Inventors: Gary A. Thill, Robert Foster Wilson, John Gainor, Christopher M. Banick
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Patent number: 9168132Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: GrantFiled: May 15, 2013Date of Patent: October 27, 2015Assignee: HLT, Inc.Inventors: Gary A. Thill, Robert Foster Wilson, John P. Gainor, Christopher M. Banick
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Patent number: 9089423Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: GrantFiled: May 10, 2011Date of Patent: July 28, 2015Assignee: HLT, Inc.Inventors: John Gainor, Gary A. Thill, Robert Foster Wilson, Christopher M. Banick
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Publication number: 20150164638Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: ApplicationFiled: March 2, 2015Publication date: June 18, 2015Inventors: Gary A. Thill, Robert Foster Wilson, John P. Gainor, Christopher M. Banick
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Patent number: 8974523Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: GrantFiled: May 30, 2006Date of Patent: March 10, 2015Assignee: HLT, Inc.Inventors: Gary A. Thill, Robert Foster Wilson, John Gainor, Christopher M. Banick
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Publication number: 20130282098Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: ApplicationFiled: May 15, 2013Publication date: October 24, 2013Inventors: Gary A. Thill, Robert Foster Wilson, John P. Gainor, Christopher M. Banick
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Publication number: 20130144383Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: ApplicationFiled: October 12, 2012Publication date: June 6, 2013Inventors: Gary A. Thill, Robert Foster Wilson, John Gainor, Christopher M. Banick
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Patent number: 8398670Abstract: A collapsible medical device and associated methods of occluding an abnormal opening in, for example, a body organ, wherein the medical device is shaped from plural layers of a heat-treatable metal fabric. Each of the fabric layers is formed from a plurality of metal strands and the assembly is heat-treated within a mold in order to substantially set a desired shape of the device. By incorporating plural layers in the thus-formed medical device, the ability of the device to rapidly occlude an abnormal opening in a body organ is significantly improved.Type: GrantFiled: June 23, 2006Date of Patent: March 19, 2013Assignee: AGA Medical CorporationInventors: Kurt Amplatz, Xiaoping Gu, John C. Oslund, Gary A. Thill
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Publication number: 20130012979Abstract: A collapsible medical device and associated methods of occluding an abnormal opening in, for example, a body organ, wherein the medical device is shaped from plural layers of a heat-treatable metal fabric. Each of the fabric layers is formed from a plurality of metal strands and the assembly is heat-treated within a mold in order to substantially set a desired shape of the device. By incorporating plural layers in the thus-formed medical device, the ability of the device to rapidly occlude an abnormal opening in a body organ is significantly improved.Type: ApplicationFiled: September 14, 2012Publication date: January 10, 2013Applicant: AGA MEDICAL CORPORATIONInventors: Kurt Amplatz, Xiaoping Gu, John C. Oslund, Gary A. Thill
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Publication number: 20120209370Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: ApplicationFiled: April 27, 2012Publication date: August 16, 2012Inventors: Gary A. Thill, Robert Foster Wilson, John Gainor, Christopher M. Banick
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Publication number: 20120065728Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: ApplicationFiled: May 10, 2011Publication date: March 15, 2012Inventors: John Gainor, Gary A. Thill, Robert Foster Wilson, Christopher M. Banick
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Publication number: 20110282439Abstract: A stentless support structure capable of being at least partly assembled in situ. The support structure comprises a braided tube that is very flexible and, when elongated, becomes very long and very small in diameter, thereby being capable of placement within a small diameter catheter. The support structure is preferably constructed of one or more thin strands of a super-elastic or shape memory material such as Nitinol. When released from the catheter, the support structure folds itself into a longitudinally compact configuration. The support structure thus gains significant strength as the number of folds increase. This radial strength obviates the need for a support stent. The support structure may include attachment points for a prosthetic valve.Type: ApplicationFiled: July 27, 2011Publication date: November 17, 2011Inventors: Gary A. Thill, Robert Foster Wilson, John Gainor, Christopher M. Banick
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Patent number: 7998166Abstract: The present invention provides for a drug delivery mechanism for use with a protection device. The protection device has an expandable filter. The drug delivery mechanism automatically delivers a drug to the filter without requiring the intervention of the operator of the protection device. The drug delivered to the filter facilitates continued filter patency during the medical procedure.Type: GrantFiled: July 16, 2008Date of Patent: August 16, 2011Assignee: Tyco Healthcare Group LPInventors: Kent D. Anderson, Richard S. Kusleika, Jennifer L. Pavlovic, Chad J. Volk, Gary A. Thill, Jeannine B. Baden