Patents Assigned to Boston Scientific Corporation
-
Patent number: 6824558Abstract: A stent graft device has an upper main tubular portion dividing into two tubular limbs and is adapted for location in an aorta having an aneurysm. The stent graft device is well suited for an aorta having a restricted section having an inner diameter smaller than the sum of the inner diameters of the iliac arteries, which branch from the aorta. The diameters of the two tubular limbs are sufficiently small to allow for both tubular limbs to be deployed side-by-side in a fully expanded state within the restricted section without being constrained by the aorta inner surface. The limbs also have distal end portions having diameters larger than the diameters of limbs at the area near the restricted section for being retained within the iliac arteries.Type: GrantFiled: January 18, 2001Date of Patent: November 30, 2004Assignee: Boston Scientific CorporationInventor: Juan Carlos Parodi
-
Publication number: 20040230123Abstract: An ultrasound imaging guidewire, that is inserted into a patient's body. The guidewire has a static central core and an imaging guidewire body comprising an acoustical scanning device. The acoustical scanning device can be rotated to obtain 360 degree acoustical images of a site of interest in the patients body. Furthermore, the imaging guidewire includes a connector that permits the imaging guidewire body to be disengaged from the static central core tip so that the imaging guidewire body can be axially translated to obtain multi-position imaging. The imaging guidewire body is axially translated without losing the original guidewire positioning because the static central core maintains its position in the patient's body.Type: ApplicationFiled: June 14, 2004Publication date: November 18, 2004Applicant: Boston Scientific CorporationInventors: David A. White, W. Martin Belef
-
Publication number: 20040230297Abstract: Method and apparatus implementing and using techniques for controlling flow in a body lumen, including use of an implantable medical device. The device includes a membrane implantable in a body lumen and invertibly deformable between a first position and a second position. The membrane is invertible in response to the direction of fluid flow through the lumen and can be deformable by fluid flow in the body lumen.Type: ApplicationFiled: June 22, 2004Publication date: November 18, 2004Applicant: Boston Scientific CorporationInventor: Sally C. Thornton
-
Publication number: 20040204768Abstract: A porous weave of bioabsorbable filaments is encased in an elastic membrane to form a thin-walled stent. The stent is sized to be snugly fitted in the proximate portion of the duodenum of a patient, to induce weight loss by limiting uptake of food passing through the stent. After a predetermined period, the stent degrades and passes from the body without surgical intervention.Type: ApplicationFiled: May 5, 2004Publication date: October 14, 2004Applicant: Boston Scientific CorporationInventor: Kurt Geitz
-
Publication number: 20040199244Abstract: A self-expanding metal wire stent made of shape memory alloy such as nitinol in which a plurality of spaced sections of closed cells are interconnected by straight sections of wire which may be parallel to the longitudinal axis of the stent or may be disposed angularly with respect thereto.Type: ApplicationFiled: April 19, 2004Publication date: October 7, 2004Applicant: Boston Scientific CorporationInventors: Kurt Ballou, George T. Roberts, Kristian J. DiMatteo, Adrian C. Ravenscroft
-
Publication number: 20040193142Abstract: Catheter for use in biliary procedures, including a shaft having a proximal end and a distal end. A guidewire lumen is carried by the shaft extending from a location proximal the distal end of the shaft to a location proximate the distal end of the shaft. An opening is included for accessing the guidewire lumen from a location exterior the catheter shaft located distal the proximal end of the shaft. The guidewire lumen may be formed integral the catheter shaft. The catheter may be used in rapid exchange catheter procedures. The catheter may further include a port and channel design including a first opening into the guidewire lumen located proximal the distal end of the shaft, a second opening located proximal the first opening, and a channel extending longitudinally between the first opening and the second opening.Type: ApplicationFiled: April 14, 2004Publication date: September 30, 2004Applicant: Boston Scientific CorporationInventors: Mark Agro, Joseph Levendusky, Charles Warich, Ronald Paille
-
Publication number: 20040172143Abstract: A porous weave of bioabsorbable filaments having an open mesh configuration is formed into an oblate shape having dimensions greater than the esophageal opening and gastric outlet of a stomach. The resulting prosthesis is deployed in the stomach and is of a size to be retained in the proximate portion thereof for exerting pressure on the upper fundus. The prosthesis limits the amount of food that may be held within the stomach, and exerts pressure on the fundus to create a sensation of being full, resulting in weight loss.Type: ApplicationFiled: March 8, 2004Publication date: September 2, 2004Applicant: Boston Scientific CorporationInventor: Kurt Geitz
-
Patent number: 6780193Abstract: A surgical extractor for removing objects from a body including, for example, calculi, such as kidney stones and gall stones. The extractor includes a handle at an proximal end of the extractor with a slider for operation by a physician. At the distal end the extractor includes a plurality of wires with each wire comprising a first portion having an individual strand and a second portion comprising a plurality of filaments. When a retaining sheath is retracted, the wires, formed of a shape memory material such as stainless steel, expand such that each of strands assume a spaced relationship to define a first section of a basket and the plurality of the filaments assume a spaced relationship to define a second section of the basket.Type: GrantFiled: March 25, 2002Date of Patent: August 24, 2004Assignee: Boston Scientific CorporationInventors: Stephen W. Leslie, James S. Bates
-
Patent number: 6770035Abstract: An ultrasound imaging guidewire, that is inserted into a patient's body. The guidewire has a static central core and an imaging guidewire body comprising an acoustical scanning device. The acoustical scanning device can be rotated to obtain 360 degree acoustical images of a site of interest in the patients body. Furthermore, the imaging guidewire includes a connector that permits the imaging guidewire body to be disengaged from the static central core tip so that the imaging guidewire body can be axially translated to obtain multi-position imaging. The imaging guidewire body is axially translated without losing the original guidewire positioning because the static central core maintains its position in the patient's body.Type: GrantFiled: April 1, 2003Date of Patent: August 3, 2004Assignee: Boston Scientific CorporationInventors: David A. White, W. Martin Belef
-
Patent number: 6758818Abstract: Rotating element catheters employ clutch assemblies for preventing rotational energy from being transmitted from a motor drive unit to the catheter element under defined circumstances. The catheter assembly includes an elongate member in which there is disposed a rotatable catheter drive cable. To control the rotation of the catheter drive shaft, the clutch assembly is configured to allow the catheter drive shaft to rotate and to stop rotating. The clutch assembly includes a driven member and a driver member, which cooperate with each other, such that the driven and driver members are rotatably engaged with each other before an applied torque exceeds the critical magnitude, rotatably unengaged with each other after the applied torque exceeds the critical magnitude, and rotatably re-engaged when the applied torque falls substantially below the critical magnitude. This clutching function can be actuated by any of a variety of physical forces, e.g., frictionally or magnetically.Type: GrantFiled: May 31, 2002Date of Patent: July 6, 2004Assignee: Boston Scientific CorporationInventors: Anthony Pantages, Donald S. Mamayek
-
Patent number: 6755869Abstract: A porous weave of bioabsorbable filaments having an open mesh configuration is formed into an oblate shape having dimensions greater than the esophageal opening and gastric outlet of a stomach. The resulting prosthesis is deployed in the stomach and is of a size to be retained in the proximate portion thereof for exerting pressure on the upper fundus. The prosthesis limits the amount of food that may be held within the stomach, and exerts pressure on the fundus to create a sensation of being full, resulting in weight loss.Type: GrantFiled: January 25, 2002Date of Patent: June 29, 2004Assignee: Boston Scientific CorporationInventor: Kurt Geitz
-
Publication number: 20040122438Abstract: An apparatus for delivering compounds into a vertebra includes a plurality of sequential tubes connected to one another by pivotable joints, the tubes including a first end, a second end, and a lumen extending therebetween. Each pivotable joint between adjacent tubes includes a locking mechanism, e.g., a clamp or locking nut, for securing the adjacent tubes relative to one another. During use, a needle is inserted into the vertebra, one end of the tubes is connected to the needle and a syringe or other delivery device is connected to the other end. The joints between the tubes are locked, thereby substantially securing the tubes from pivotal movement relative to one another, and the compound, e.g., bone cement and/or biomaterials, is injected through the tubes and out the needle into the tissue structure.Type: ApplicationFiled: December 23, 2002Publication date: June 24, 2004Applicant: Boston Scientific CorporationInventor: Robert M. Abrams
-
Patent number: 6746442Abstract: Catheter for use in biliary procedures, including a shaft having a proximal end and a distal end. A guidewire lumen is carried by the shaft extending from a location proximal the distal end of the shaft to a location proximate the distal end of the shaft. An opening is included for accessing the guidewire lumen from a location exterior the catheter shaft located distal the proximal end of the shaft. The guidewire lumen may be formed integral the catheter shaft. The catheter may be used in rapid exchange catheter procedures. The catheter may further include a port and channel design including a first opening into the guidewire lumen located proximal the distal end of the shaft, a second opening located proximal the first opening, and a channel extending longitudinally between the first opening and the second opening.Type: GrantFiled: October 15, 2001Date of Patent: June 8, 2004Assignee: Boston Scientific CorporationInventors: Mark Agro, Joseph Levendusky, Charles Warich, Ronald Paille
-
Publication number: 20040106852Abstract: Locking device that is mounted on an endoscope or the like for selectively securing the position of a guide wire and/or catheter relative to the endoscope or the like. The locking device preferably includes a side wall with an opening therein for receiving the proximal end of a guide wire or catheter. The opening is preferably J-shaped or boot shaped, and has an entry end and a locking end. Once a guide wire or catheter is in a desired position within a body cavity, the portion of the guide wire or catheter that extends outside of the endoscope or the like may be moved into the opening. More particularly, a portion of the guide wire or catheter may be inserted by an operator through the entry end of the opening and into the locking end, wherein the locking end frictionally secures the position of the guide wire or catheter relative to the endoscope or the like.Type: ApplicationFiled: November 26, 2003Publication date: June 3, 2004Applicant: Boston Scientific CorporationInventors: Jim Windheuser, Jim Yearick, Oscar Carrillo, Gary McAlister, John Holmes, Paul Norton
-
Patent number: 6740121Abstract: A porous weave of bioabsorbable filaments is encased in an elastic membrane to form a thin-walled stent. The stent is sized to be snugly fitted in the proximate portion of the duodenum of a patient, to induce weight loss by limiting uptake of food passing through the stent. After a predetermined period, the stent degrades and passes from the body without surgical intervention.Type: GrantFiled: January 25, 2002Date of Patent: May 25, 2004Assignee: Boston Scientific CorporationInventor: Kurt Geitz
-
Patent number: 6733473Abstract: A stiffenable balloon catheter assembly capable of being converted from an “over-the-wire” mode with respect to a guidewire extending therethrough to a “rapid-exchange” mode with respect to a guidewire extending therethrough, and vice versa. The catheter has a plurality of lumens, one lumen however, having a side opening with an obstructable galp, the orientation of which, determines the utilization “mode” of the catheter assembly. Stiffening stylets may be adjustably locked into the lumens, depending upon the “mode”, to control the stiffness of the catheter assembly during its utilization within a patient.Type: GrantFiled: July 9, 1993Date of Patent: May 11, 2004Assignee: Boston Scientific CorporationInventors: Nikolaus Reifart, Erik Andersen, John E. Abele, Sandra G. Tartaglino, Timothy W. Wheeler
-
Publication number: 20040030320Abstract: The present invention provides for the needleless delivery of selected agents to target tissues within a subject body by providing the agents in one or more high-energy jets or streams directed against selected wall or surface regions of such tissues. One general embodiment of the apparatus includes (i) an elongate jacket having (a) proximal and distal ends, (b) a lumen extending between such ends, and (c) a blunt, distal-end face defining one or more outlet ports in fluid communication with the lumen; (ii) an introduction port for feeding such agent(s) into the lumen; and (iii) a pump communicating with a proximal end of the jacket. The pump is operable to generate an increased pressure within the lumen such that an agent introduced therein will be propelled out of the distal outlet port(s), thereby forming respective high-energy, narrow, fluid jets or streams capable of penetrating a selected tissue.Type: ApplicationFiled: August 6, 2003Publication date: February 12, 2004Applicant: Boston Scientific CorporationInventors: U. Hiram Chee, Richard Meuller
-
Publication number: 20040018174Abstract: This invention relates to methods of autologous transplantation for the treatment of damaged or diseased tissues, muscle, or organs. This invention also relates to methods of allogeneic transplantation for the treatment of damaged tissues and organs. In the methods of the invention, cells are obtained by apheresis and implanted into the tissue, muscle, or organ to ameliorate damage or disease.Type: ApplicationFiled: July 18, 2003Publication date: January 29, 2004Applicant: Boston Scientific CorporationInventor: Maria Palasis
-
Patent number: 6676679Abstract: Various methods and devices for treating a patient who has lost, or is at risk of losing cardiac function by cardiac ischemia are disclosed. Treatment includes first imaging a patient's heart, or a portion thereof, to identify underperfused regions of cardiac muscle, and a source of oxygenated blood that is proximate to the underperfused region. Between the underperfused regions and the oxygenated blood source, a target area is selected where thermal or mechanical injury is introduced, and optionally reintroduced, to convert initial capillary blush, resulting from the injury.Type: GrantFiled: November 3, 2000Date of Patent: January 13, 2004Assignee: Boston Scientific CorporationInventors: Richard L. Mueller, U. Hiram Chee
-
Patent number: 6663597Abstract: Locking device that is mounted on an endoscope or the like for selectively securing the position of a guide wire and/or catheter relative to the endoscope or the like. The locking device preferably includes a side wall with an opening therein for receiving the proximal end of a guide wire or catheter. The opening is preferably J-shaped or boot shaped, and has an entry end and a locking end. Once a guide wire or catheter is in a desired position within a body cavity, the portion of the guide wire or catheter that extends outside of the endoscope or the like may be moved into the opening. More particularly, a portion of the guide wire or catheter may be inserted by an operator through the entry end of the opening and into the locking end, wherein the locking end frictionally secures the position of the guide wire or catheter relative to the endoscope or the like.Type: GrantFiled: February 25, 2000Date of Patent: December 16, 2003Assignee: Boston Scientific CorporationInventors: Jim Windheuser, Jim Yearick, Oscar Carrillo, Gary McAlister, John Holmes, Paul Norton