Patents by Inventor Grace Y. Schulz
Grace Y. Schulz 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).
-
Patent number: 7967782Abstract: A catheter delivers an electrode within a vein for a minimally invasive treatment of varicose veins and venous insufficiency using RF energy. The catheter is introduced into a patient and positioned within the section of the vein to be treated. The electrode radiates high frequency energy towards the vein, and the surrounding venous tissue becomes heated and begins to shrink. The catheter includes a controllable member for limiting the amount of shrinkage of the vein to the diameter of the member. The electrode remains active until there has been sufficient shrinkage of the vein. The extent of shrinkage of the vein may be detected by fluoroscopy. After treating one section of the vein, the catheter and the electrode can be repositioned intraluminally within the vein to treat different sections of the vein until all desired venous sections and valves are repaired and rendered functionally competent.Type: GrantFiled: December 28, 2009Date of Patent: June 28, 2011Assignee: Tyco Healthcare Group LPInventors: Michael D. Laufer, Brian E. Farley, Grace Y. Schulz, Arthur W. Zikorus, Mark P. Parker
-
Publication number: 20100106156Abstract: A catheter delivers an electrode within a vein for a minimally invasive treatment of varicose veins and venous insufficiency using RF energy. The catheter is introduced into a patient and positioned within the section of the vein to be treated. The electrode radiates high frequency energy towards the vein, and the surrounding venous tissue becomes heated and begins to shrink. The catheter includes a controllable member for limiting the amount of shrinkage of the vein to the diameter of the member. The electrode remains active until there has been sufficient shrinkage of the vein. The extent of shrinkage of the vein may be detected by fluoroscopy. After treating one section of the vein, the catheter and the electrode can be repositioned intraluminally within the vein to treat different sections of the vein until all desired venous sections and valves are repaired and rendered functionally competent.Type: ApplicationFiled: December 28, 2009Publication date: April 29, 2010Applicant: Tyco Healthcare Group, LPInventors: Michael D. Laufer, Brian E. Farley, Grace Y. Schulz, Arthur W. Zikorus, Mark P. Parker
-
Patent number: 7641633Abstract: A catheter delivers an electrode within a vein for a minimally invasive treatment of varicose veins and venous insufficiency using RF energy. The catheter is introduced into a patient and positioned within the section of the vein to be treated. The electrode radiates high frequency energy towards the vein, and the surrounding venous tissue becomes heated and begins to shrink. The catheter includes a controllable member for limiting the amount of shrinkage of the vein to the diameter of the member. The electrode remains active until there has been sufficient shrinkage of the vein. The extent of shrinkage of the vein may be detected by fluoroscopy. After treating one section of the vein, the catheter and the electrode can be repositioned intraluminally within the vein to treat different sections of the vein until all desired venous sections and valves are repaired and rendered functionally competent.Type: GrantFiled: March 25, 2003Date of Patent: January 5, 2010Assignee: Tyco Healthcare Group, LPInventors: Michael D. Laufer, Brian E. Farley, Grace Y. Schulz, Arthur W. Zikorus, Mark P. Parker
-
Patent number: 6638273Abstract: A catheter having expandable electrodes for applying energy to a hollow anatomical structure such as a vein. When used on a vein, the catheter is useful for a minimally invasive treatment of venous insufficiency. The catheter includes conductive end rings to which the electrodes are attached, for mechanically connecting and electrically tying electrodes together to provide for a single wire electrical connection points, for transmitting energy while more evenly spacing the electrodes. Expandable arms are formed of electrically conductive material and insulated along their length except for an intermediate section that functions as the electrode. The arms are tapered to allow more room for wiring and to reduce the possibility of shorting between the ends of the arms. The catheter further includes thermocouples in the electrodes for measuring temperatures on the outer surface of the electrode. Slots are formed in the arms for mounting the thermocouples.Type: GrantFiled: November 27, 2000Date of Patent: October 28, 2003Assignee: VNUS Medical Technologies, Inc.Inventors: Brian E. Farley, Grace Y. Schulz, Dawn A. Henderson, Mark P. Parker, Arthur W. Zikorus, Gary H. Miller, Jay S. Daulton, Douglas Portnow
-
Publication number: 20030191512Abstract: A catheter delivers an electrode within a vein for a minimally invasive treatment of varicose veins and venous insufficiency using RF energy. The catheter is introduced into a patient and positioned within the section of the vein to be treated. The electrode radiates high frequency energy towards the vein, and the surrounding venous tissue becomes heated and begins to shrink. The catheter includes a controllable member for limiting the amount of shrinkage of the vein to the diameter of the member. The electrode remains active until there has been sufficient shrinkage of the vein. The extent of shrinkage of the vein may be detected by fluoroscopy. After treating one section of the vein, the catheter and the electrode can be repositioned intraluminally within the vein to treat different sections of the vein until all desired venous sections and valves are repaired and rendered functionally competent.Type: ApplicationFiled: March 25, 2003Publication date: October 9, 2003Inventors: Michael D. Laufer, Brian E. Farley, Grace Y. Schulz, Arthur W. Zikorus, Mark P. Parker
-
Patent number: 6613045Abstract: A catheter delivers an electrode within a vein for a minimally invasive treatment of varicose veins and venous insufficiency using RF energy. The catheter is introduced into a patient and positioned within the section of the vein to be treated. The electrode radiates high frequency energy towards the vein, and the surrounding venous tissue becomes heated and begins to shrink. The catheter includes a controllable member for limiting the amount of shrinkage of the vein to the diameter of the member. The electrode remains active until there has been sufficient shrinkage of the vein. The extent of shrinkage of the vein may be detected by fluoroscopy. After treating one section of the vein, the catheter and the electrode can be repositioned intraluminally within the vein to treat different sections of the vein until all desired venous sections and valves are repaired and rendered functionally competent.Type: GrantFiled: February 1, 2000Date of Patent: September 2, 2003Assignee: VNUS Medical Technologies, Inc.Inventors: Michael D. Laufer, Brian E. Farley, Grace Y. Schulz, Arthur W. Zikorus, Mark P. Parker
-
Patent number: 6152899Abstract: A catheter having expandable electrodes for applying energy to a hollow anatomical structure such as a vein. When used on a vein, the catheter is useful for a minimally invasive treatment of venous insufficiency. The catheter includes conductive end rings to which the electrodes are attached, for mechanically connecting and electrically tying electrodes together to provide for a single wire electrical connection points, for transmitting energy while more evenly spacing the electrodes. Expandable arms are formed of electrically conductive material and insulated along their length except for an intermediate section that functions as the electrode. The arms are tapered to allow more room for wiring and to reduce the possibility of shorting between the ends of the arms. The catheter further includes thermocouples in the electrodes for measuring temperatures on the outer surface of the electrode. Slots are formed in the arms for mounting the thermocouples.Type: GrantFiled: July 17, 1997Date of Patent: November 28, 2000Assignee: VNUS Medical Technologies, Inc.Inventors: Brian E. Farley, Grace Y. Schulz, Dawn A. Henderson, Mark P. Parker, Arthur W. Zikorus, Gary H. Miller, Jay S. Daulton, Douglas Portnow
-
Patent number: 6036687Abstract: A catheter delivers an electrode within a vein for a minimally invasive treatment of varicose veins and venous insufficiency using RF energy. The catheter is introduced into a patient and positioned within the section of the vein to be treated. The electrode radiates high frequency energy towards the vein, and the surrounding venous tissue becomes heated and begins to shrink. The catheter includes a controllable member for limiting the amount of shrinkage of the vein to the diameter of the member. The electrode remains active until there has been sufficient shrinkage of the vein. The extent of shrinkage of the vein may be detected by fluoroscopy. After treating one section of the vein, the catheter and the electrode can be repositioned intraluminally within the vein to treat different sections of the vein until all desired venous sections and valves are repaired and rendered functionally competent.Type: GrantFiled: March 5, 1996Date of Patent: March 14, 2000Assignee: VNUS Medical Technologies, Inc.Inventors: Michael D. Laufer, Brian E. Farley, Grace Y. Schulz, Arthur W. Zikorus, Mark P. Parker
-
Patent number: 5836957Abstract: A side-cutting atherectomy catheter with a housing containing a tissue-removal means, a window on one side, and a large volume inflatable support on the opposite side. The large volume inflatable support has a maximum diameter larger than the diameter of the cutter housing, generating a greater degree of contact with a blood vessel's interior diameter than conventional balloon-housing configurations. This feature stabilizes the cutter housing and improves tissue-removal during the atherectomy procedure. Large volume inflatable supports have a maximum inflated diameter at least 1.1 times, and preferably 1.35 times, greater than the diameter of the housing. The supports may be formed from either elastic or inelastic materials. When formed from inelastic materials, the supports have slack material when uninflated which can extend into and become entangled with the cutter window. To prevent this problem, the large volume inflatable support is constrained when uninflated.Type: GrantFiled: February 26, 1997Date of Patent: November 17, 1998Assignee: Devices For Vascular Intervention, Inc.Inventors: Grace Y. Schulz, Gerri Chatelain, Mark E. Deem, Ferolyn T. Powell
-
Patent number: 5632754Abstract: Disclosed herein is an intravascular universal catheter having interchangeable work elements and methods of use thereof. The catheter comprises a flexible catheter body having a distal end, a proximal end and a lumen extending between the ends. A housing having an open interior and an aperture on a lateral side is attached to the distal end of the catheter body by a coupling element. A work element is movably disposed within the housing and operative through the aperture. A work element connector is disposed in a lumen of the catheter body and has a distal end connected to the work element. At least the distal portion of the lumen defines a receiving space within the catheter body, and the coupling element is configured to allow retraction of the work element from the housing through the open proximal end into the receiving space. In a preferred embodiment, perfusion ports are disposed in the catheter body and the housing proximate to the junctional region of the catheter body with the housing.Type: GrantFiled: December 23, 1994Date of Patent: May 27, 1997Assignee: Devices for Vascular InterventionInventors: Brian Farley, Ron R. Hundertmark, Grace Y. Schulz
-
Patent number: 5507795Abstract: Improved atherectomy catheters and methods of use are disclosed. The catheter includes a flexible body with a longitudinal passage therethrough. A housing is mounted at the distal end, with an elongated aperture formed in a lateral side. A drive cable is disposed in the passage of the catheter body, and a working element is disposed in the housing, attached to the distal end of the drive cable. Passages and openings are provided for flowing blood into the housing and for flowing blood from a proximal to a distal side of the cutting blade. An impeller can be provided proximal to the cutting blade to impel blood into the housing and past the blade. Blood flows through the housing and past the blade so as to perfuse tissue downstream from the device.Type: GrantFiled: April 29, 1994Date of Patent: April 16, 1996Assignee: Devices for Vascular Intervention, Inc.Inventors: Andrew L. Chiang, Jeffrey W. Krier, Ron R. Hundertmark, Robert T. Chang, Grace Y. Schulz