Patents by Inventor Greg R. Furnish
Greg R. Furnish 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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Patent number: 6610100Abstract: A conduit is provided to provide a bypass around a blockage in the coronary artery. The conduit is adapted to be positioned in the myocardium or heart wall to provide a passage for blood to flow between a chamber of the heart such as the left ventricle and the coronary artery, distal to the blockage. The stent is self-expanding or uses a balloon to expand the stent in the heart wall. Various attachment means are provided to anchor the stent and prevent its migration.Type: GrantFiled: April 10, 2001Date of Patent: August 26, 2003Assignee: Percardia, Inc.Inventors: David Y. Phelps, Greg R. Furnish, Todd A. Hall
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Publication number: 20030105514Abstract: A conduit is provided to provide a bypass around a blockage in the coronary artery. The conduit is adapted to be positioned in the myocardium or heart wall to provide a passage for blood to flow between a chamber of the heart such as the left ventricle and the coronary artery, distal to the blockage. The stent is self-expanding or uses a balloon to expand the stent in the heart wall. Various attachment means are provided to anchor the stent and prevent its migration.Type: ApplicationFiled: January 10, 2003Publication date: June 5, 2003Applicant: Percardia, Inc.Inventors: David Y. Phelps, Greg R. Furnish, Todd A. Hall, Mark Griffin, Scott J. Wolf, Peter J. Wilk, Jay Schmelter, Simon Furnish
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Publication number: 20030055371Abstract: Left ventricular conduits and related methods are disclosed for achieving bypass of a partially or completely occluded coronary artery. More broadly, conduits for allowing communication of bodily fluids from one portion of a patient's body to another and related methods are disclosed, including conduits for forming a blood flow path from a chamber of the heart to a vessel or from one vessel to another. In other embodiments, the conduits achieve a coronary artery bypass by allowing blood communication between the left ventricle and the coronary artery or between a proximal portion of the coronary artery and a distal portion of the coronary artery. The conduits may be placed completely through the heart wall or extend only partially therein. Conduits may take on a variety of configurations for allowing the control of blood flow therethrough, including curved or tapered shapes.Type: ApplicationFiled: August 15, 2002Publication date: March 20, 2003Applicant: Percardia, Inc.Inventors: Scott J. Wolf, Greg R. Furnish, Todd A. Hall, David Y. Phelps, Peter J. Wilk, Nancy C. Briefs, William Santamore, Daniel Burkhoff, Simon Furnish, Stephen Evans, Roger D. Kamm, Richard Renati, Gerald Melsky, Eun Bo Shim
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Publication number: 20020165606Abstract: Disclosed is a conduit that provides a bypass around a stenosis or occlusion in a coronary artery. The conduit is adapted to be positioned in the myocardium to provide a passage for blood to flow from a heart chamber to a coronary artery, at a site distal to the blockage or stenosis in the coronary artery. The conduit has a one-way valve positioned therein to prevent the backflow of blood from the coronary artery into the heart chamber.Type: ApplicationFiled: August 4, 1999Publication date: November 7, 2002Inventors: SCOTT J. WOLF, GREG R. FURNISH, TODD A. HALL, DAVID Y. PHELPS, PETER J. WILK, NANCY C. BRIEFS, WILLIAM SANTAMORE, DANIEL BURKHOFF
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Publication number: 20020100484Abstract: Described herein are various methods and apparatuses for delivering stents or conduits and other devices into the myocardium of a patient. One preferred stent delivery system provides access to the insertion site in the myocardium by advancing a delivery catheter through a blockage in a coronary artery, or around the blockage through a coronary vein or through a channel or tunnel formed around the blockage. In one embodiment, once the distal end of the delivery catheter is adjacent the myocardium, an angled bend is created in the catheter by actuating expandable steering guides mounted to the catheter which cooperate with the walls of the blood vessel to cause the catheter to turn. Then, a guidewire is advanced through the delivery catheter and into the myocardium. In another embodiment, a tip-deflecting pull wire extends from the distal end of the delivery catheter which may be actuated to turn towards and then inserted into the myocardium.Type: ApplicationFiled: March 8, 2002Publication date: August 1, 2002Inventors: Todd A. Hall, Greg R. Furnish, Simon M. Furnish, Scott J. Wolf, Peter J. Wilk, David Y. Phelps, Vincent Pompili
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Patent number: 6409751Abstract: Described herein are various methods and apparatuses for delivering stents and other devices into the myocardium of a patient. One preferred stent delivery system provides access to the insertion site in the myocardium by advancing a delivery catheter through a blockage in a coronary artery, or around the blockage through a coronary vein or through a channel or tunnel formed around the blockage. In one embodiment, once the distal end of the delivery catheter is adjacent the myocardium, an angled bend is created in the catheter by actuating expandable steering guides mounted to the catheter which cooperate with the walls of the blood vessel to cause the catheter to turn. Then, a guidewire is advanced through the delivery catheter and into the myocardium. In another embodiment, a tip-deflecting pull wire extends from the distal end of the delivery catheter which may be actuated to turn towards and then inserted into the myocardium.Type: GrantFiled: November 14, 2000Date of Patent: June 25, 2002Assignee: Percardia, Inc.Inventors: Todd A. Hall, Greg R. Furnish, Simon M. Furnish, Scott J. Wolf, Peter J. Wilk, David Y. Phelps, Vincent Pompili
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Publication number: 20010053932Abstract: A conduit is provided to provide a bypass around a blockage in the coronary artery. The conduit is adapted to be positioned in the myocardium or heart wall to provide a passage for blood to flow between a chamber of the heart such as the left ventricle and the coronary artery, distal to the blockage. The stent is self-expanding or uses a balloon to expand the stent in the heart wall. Various attachment means are provided to anchor the stent and prevent its migration.Type: ApplicationFiled: April 10, 2001Publication date: December 20, 2001Applicant: Percardia, Inc.,Inventors: David Y. Phelps, Greg R. Furnish, Todd A. Hall, Mark Griffin, Scott J. Wolf, Peter J. Wilk, Jay Schmelter, Simon Furnish
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Publication number: 20010039445Abstract: Described herein are various methods and apparatuses for delivering stents and other devices into the myocardium of a patient. One preferred stent delivery system provides access to the insertion site in the myocardium by advancing a delivery catheter through a blockage in a coronary artery, or around the blockage through a coronary vein or through a channel or tunnel formed around the blockage. In one embodiment, once the distal end of the delivery catheter is adjacent the myocardium, an angled bend is created in the catheter by actuating expandable steering guides mounted to the catheter which cooperate with the walls of the blood vessel to cause the catheter to turn. Then, a guidewire is advanced through the delivery catheter and into the myocardium. In another embodiment, a tip-deflecting pull wire extends from the distal end of the delivery catheter which may be actuated to turn towards and then inserted into the myocardium.Type: ApplicationFiled: June 27, 2001Publication date: November 8, 2001Applicant: Percardia, Inc.Inventors: Todd A. Hall, Greg R. Furnish, Simon M. Furnish, Scott J. Wolf, Peter J. Wilk, David Y. Phelps, Vincent Pompili
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Publication number: 20010034547Abstract: Described herein are various methods and apparatuses for delivering stents or conduits and other devices into the myocardium of a patient. One preferred stent delivery system provides access to the insertion site in the myocardium by advancing a delivery catheter through a blockage in a coronary artery, or around the blockage through a coronary vein or through a channel or tunnel formed around the blockage. In one embodiment, once the distal end of the delivery catheter is adjacent the myocardium, an angled bend is created in the catheter by actuating expandable steering guides mounted to the catheter which cooperate with the walls of the blood vessel to cause the catheter to turn. Then, a guidewire is advanced through the delivery catheter and into the myocardium. In another embodiment, a tip-deflecting pull wire extends from the distal end of the delivery catheter which may be actuated to turn towards and then inserted into the myocardium.Type: ApplicationFiled: March 2, 2001Publication date: October 25, 2001Applicant: Percardia, Inc.Inventors: Todd A. Hall, Greg R. Furnish, Simon M. Furnish, Scott J. Wolf, Peter J. Wilk, David Y. Phelps, Vincent Pompili
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Patent number: 6290728Abstract: A conduit is provided to provide a bypass around a blockage in the coronary artery. The conduit is adapted to be positioned in the myocardium or heart wall to provide a passage for blood to flow between a chamber of the heart such as the left ventricle and the coronary artery, distal to the blockage. The stent is self-expanding or uses a balloon to expand the stent in the heart wall. Various attachment means are provided to anchor the stent and prevent its migration.Type: GrantFiled: August 4, 1999Date of Patent: September 18, 2001Assignee: Percardia, Inc.Inventors: David Y. Phelps, Greg R. Furnish, Todd A. Hall, Mark Griffin, Scott J. Wolf, Peter J. Wilk, Jay Schmelter, Simon Furnish
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Patent number: 6261304Abstract: Described herein are various methods and apparatuses for delivering stents or conduits and other devices into the myocardium of a patient. One preferred stent delivery system provides access to the insertion site in the myocardium by advancing a delivery catheter through a blockage in a coronary artery, or around the blockage through a coronary vein or through a channel or tunnel formed around the blockage. In one embodiment, once the distal end of the delivery catheter is adjacent the myocardium, an angled bend is created in the catheter by actuating expandable steering guides mounted to the catheter which cooperate with the walls of the blood vessel to cause the catheter to turn. Then, a guidewire is advanced through the delivery catheter and into the myocardium. In another embodiment, a tip-deflecting pull wire extends from the distal end of the delivery catheter which may be actuated to turn towards and then inserted into the myocardium.Type: GrantFiled: August 4, 1999Date of Patent: July 17, 2001Assignee: Percardia, Inc.Inventors: Todd A. Hall, Greg R. Furnish, Simon M. Furnish, Scott J. Wolf, Peter J. Wilk, David Y. Phelps
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Patent number: 6196230Abstract: Described herein are various methods and apparatuses for delivering stents and other devices into the myocardium of a patient. One preferred stent delivery system provides access to the insertion site in the myocardium by advancing a delivery catheter through a blockage in a coronary artery, or around the blockage through a coronary vein or through a channel or tunnel formed around the blockage. In one embodiment, once the distal end of the delivery catheter is adjacent the myocardium, an angled bend is created in the catheter by actuating expandable steering guides mounted to the catheter which cooperate with the walls of the blood vessel to cause the catheter to turn. Then, a guidewire is advanced through the delivery catheter and into the myocardium. In another embodiment, a tip-deflecting pull wire extends from the distal end of the delivery catheter which may be actuated to turn towards and then inserted into the myocardium.Type: GrantFiled: September 10, 1998Date of Patent: March 6, 2001Assignee: Percardia, Inc.Inventors: Todd A. Hall, Greg R. Furnish, Simon M. Furnish, Scott J. Wolf, Peter J. Wilk, David Y. Phelps, Vincent Pompili