Patents by Inventor Simon M. Furnish
Simon M. 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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Publication number: 20040118415Abstract: 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: December 5, 2003Publication date: June 24, 2004Inventors: 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: 20040098118Abstract: The present invention is an apparatus and a method for delivery of mitomycin through an eluting biocompatible implantable medical device. A biocompatible drug release matrix comprises a biocompatible drug release matrix and a drug incorporated into the biocompatible drug release matrix. The drug has antibiotic and anti-proliferative properties and is an analogue related to the quinone-containing alkylating agents of a mitomycin family. The drug is initially released from the biocompatible drug release matrix at a faster rate followed by a release at a slower rate. The drug release rate maintains tissue level concentrations of the drug for at least two weeks after implantation of the medical device. The present invention provides a coating for a vascular prosthesis that elutes the drug at a controlled rate to inhibit proliferation of smooth muscle cells causing restenosis.Type: ApplicationFiled: September 26, 2003Publication date: May 20, 2004Applicant: Endovascular Devices, Inc.Inventors: Juan F. Granada, Simon M. Furnish
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Patent number: 6654630Abstract: A catheter based optical system for generating data as to the condition of a tissue sample of a mammalian vessel. The system includes an elongated catheter shaft having a tissue engaging distal end and a coupled proximal end and an elongated optical delivery fiber arrangement disposed through a lumen of said catheter, said optical delivery fiber arrangement having a distal end and a proximal end. The distal end of the delivery fiber arrangement has a re-director light emitter thereon for directing light against mammalian tissues. An elongated optical collection fiber arrangement is disposed through a lumen of the catheter, the optical collection fiber arrangement having a distal end and a proximal most end. The distal end of the collection fiber arrangement has a re-director light receiver thereon for receiving light reflected from the mammalian tissue by the light emitter. The light emitter and the light receiver are longitudinally spaced apart from one another in the distal end of the catheter.Type: GrantFiled: May 31, 2001Date of Patent: November 25, 2003Assignee: InfraReDx, Inc.Inventors: Andres F. Zuluaga, Brett Bouma, Simon M. Furnish, Guillermo J. Tearney, S. Eric Ryan, Jing Tang, Mark A. Griffin
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Publication number: 20030125630Abstract: A catheter tip apparatus arranged in a catheter for the delivery and collection of a light-energy signal to permit subsequent computerized analysis of body tissue by the collected signal. The apparatus comprises an elongated housing supporting a first reflective surface and a second reflective surface. The first reflective surface and the second reflective surface are longitudinally spaced apart from one another. A first flexible, elongated energy bearing delivery fiber has a distalmost end arranged adjacent the first reflective surface. A second flexible, elongated energy bearing collection fiber has a distalmost end arranged adjacent the second reflective surface. The housing is rotatably supported on a flexible catheter sheath for insertion of the catheter into a mammalian body for tissue analysis thereof.Type: ApplicationFiled: December 31, 2001Publication date: July 3, 2003Inventor: Simon M. Furnish
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Publication number: 20030125719Abstract: A catheter tip apparatus is arranged in a catheter for the delivery and collection of an energy signal to permit analysis and/or treatment of body tissue by the energy signal. The apparatus comprises an elongated housing having a plurality of annularly disposed elongated grooves arranged thereon; and a flexible energy-bearing fiber arranged in each of the elongated grooves. Each of the fibers have a proximal end in communication with an energy delivery source or a signal analysis center. Each of the fibers also have a distalmost end in communication with a reflector for analysis and treatment of body tissue in which the catheter is disposed.Type: ApplicationFiled: December 31, 2001Publication date: July 3, 2003Inventor: Simon M. Furnish
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Publication number: 20020183622Abstract: A catheter based optical system for generating data as to the condition of a tissue sample of a mammalian vessel. The system includes an elongated catheter shaft having a tissue engaging distal end and a coupled proximal end and an elongated optical delivery fiber arrangement disposed through a lumen of said catheter, said optical delivery fiber arrangement having a distal end and a proximal end. The distal end of the delivery fiber arrangement has a re-director light emitter thereon for directing light against mammalian tissues. An elongated optical collection fiber arrangement is disposed through a lumen of the catheter, the optical collection fiber arrangement having a distal end and a proximal most end. The distal end of the collection fiber arrangement has a re-director light receiver thereon for receiving light reflected from the mammalian tissue by the light emitter. The light emitter and the light receiver are longitudinally spaced apart from one another in the distal end of the catheter.Type: ApplicationFiled: May 31, 2001Publication date: December 5, 2002Applicant: InfReDx Inc.Inventors: Andres F. Zuluaga, Brett Bouma, Simon M. Furnish, Guillermo J. Tearney, S. Eric Ryan, Jing Tang, Mark A. Griffin
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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: 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: 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