Patents Represented by Attorney, Agent or Law Firm Jens E. Hoekendijk
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Patent number: 5860992Abstract: The invention provides devices and methods for suture placement while performing less invasive surgical procedures within a body cavity. In an exemplary embodiment, the invention provides for the placement of sutures within the heart or a great vessel that is accessed from outside the closed chest. According to one exemplary method, the patient's heart valve is accessed through an intercostal port in the patient's chest. At least one needle having a suture is then directed into the annulus while visualizing through the port placement of the needle into the annulus. The needle is then passed through the annulus.Type: GrantFiled: January 31, 1996Date of Patent: January 19, 1999Assignee: Heartport, Inc.Inventors: Sean Christopher Daniel, Brian S. Donlon, Michi E. Garrison, Hanson S. Gifford, III, Daniel C. Rosenman, William S. Peters, Robert L. Lathrop, II, George Crothall, James B. Mullin, Gerald R. Anderson, Wiley A. Kittrell
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Patent number: 5855614Abstract: Devices, systems, and methods are provided for accessing the interior of the heart and performing procedures therein while the heart is beating. In one embodiment, a tubular access device having an inner lumen is provided for positioning through a penetration in a muscular wall of the heart, the access device having a means for sealing within the penetration to inhibit leakage of blood through the penetration. The sealing means may comprise a balloon or flange on the access device, or a suture placed in the heart wall to gather the heart tissue against the access device. An obturator is removably positionable in the inner lumen of the access device, the obturator having a cutting means at its distal end for penetrating the muscular wall of the heart. The access device is preferably positioned through an intercostal space and through the muscular wall of the heart.Type: GrantFiled: May 7, 1996Date of Patent: January 5, 1999Assignee: Heartport, Inc.Inventors: John H. Stevens, Bruce A. Reitz, Alex T. Roth, William S. Peters
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Patent number: 5855210Abstract: A method for closed-chest cardiac surgical intervention relies on viewing the cardiac region through a thoracoscope or other viewing scope and endovascularly partitioning the patient's arterial system at a location within the ascending aorta. The cardiopulmonary bypass and cardioplegia can be induced, and a variety of surgical procedures performed on the stopped heart using percutaneously introduced tools. The method of the present invention will be particularly suitable for forming coronary artery bypass grafts, where an arterial blood source is created using least invasive surgical techniques, and the arterial source is connected to a target location within a coronary artery while the patient is under cardiopulmonary bypass and cardioplegia.Type: GrantFiled: November 6, 1996Date of Patent: January 5, 1999Assignee: Heartport, Inc.Inventors: Wesley D. Sterman, Lawrence C. Siegel, Patricia E. Curtis, John H. Stevens, Timothy R. Machold
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Patent number: 5855590Abstract: A clamp for clamping a body structure in a patient. The clamp includes a flexible cable housed within a sheath. The cable and sheath extend between a clamp and a handle. The cable actuator. The cable extends through a sheath which is anchored at the clamp and the actuator for actuating jaws from a proximal end of the clamp. A malleable positioner is provided for positioning the clamp about the body structure.Type: GrantFiled: February 13, 1997Date of Patent: January 5, 1999Assignee: Heartport, Inc.Inventors: William W. Malecki, Wesley D. Sterman, Hanson S. Gifford, III, Scott H. Miller
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Patent number: 5849005Abstract: An apparatus for minimizing the risk of air embolism includes an instrument delivery member 2 having a gas outlet 38 for delivering gas into a patient's thoracic cavity. The gas is directed across an opening 48 in the instrument delivery member 2 to help retain the gas in the patient's thoracic cavity. The gas is preferably carbon dioxide which is more soluble in blood than air which will thereby decrease the likelihood of the patient receiving an embolism due to trapped air in the patient's heart and great vessels after surgery.Type: GrantFiled: January 16, 1996Date of Patent: December 15, 1998Assignee: Heartport, Inc.Inventors: Michi E. Garrison, Brian S. Donlon, Richard L. Mueller, Jr.
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Patent number: 5840081Abstract: A valve prosthesis (9) for implantation in the body by use of catheter (11) comprises a stent made from an expandable cylinder-shaped thread structure (2,3) comprising several spaced apices (4). The elastically collapsible valve (4) is mounted on the stent as the commissural points (5) of the valve (6) are secured to the projecting apices (4).The valve prosthesis (9) can be compressed around the balloon means (13) of the balloon catheter (11) and be inserted in a channel, for instance in the aorta (10). When the valve prosthesis is placed correctly the balloon means (13) is inflated thereby expanding the stent and wedging it against the wall of aorta. The balloon means is provided with beads (14) to ensure a steady fastening of the valve prosthesis on the balloon means during insertion and expansion.The valve prosthesis (9) and the balloon catheter (11) make it possible to insert a cardiac valve prosthesis without a surgical operation comprising opening the thoracic cavity.Type: GrantFiled: February 19, 1997Date of Patent: November 24, 1998Inventors: Henning Rud Andersen, John Michael Hasenkam, Lars Lyhne Knudsen
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Patent number: 5830214Abstract: The invention provides an electrosurgical device (2) and method for cauterizing tissue and evacuating fluid from the surgical site. The device comprises an insulated conductive shaft (4) having a proximal end coupled to an electric generator (40) and a distal end coupled to an electrode (6) for cutting or coagulating tissue. The shaft has an inner lumen (14) fluidly coupled to a vacuum source (50) and a plurality of insulated side holes (8) in communication with the lumen. The side holes are configured to remain free of obstructions so that fluid, such as smoke, can be continuously evacuated during the surgical procedure.Type: GrantFiled: October 25, 1996Date of Patent: November 3, 1998Assignee: Heartport, Inc.Inventors: James R. Flom, Matthias Vaska, Scott Miller, Lee R. Bolduc
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Patent number: 5829447Abstract: Devices, systems, and methods are provided for accessing the interior of the heart and performing procedures therein while the heart is beating. In one embodiment, a tubular access device having an inner lumen is provided for positioning through a penetration in a muscular wall of the heart, the access device having a means for sealing within the penetration to inhibit leakage of blood through the penetration. The sealing means may comprise a balloon or flange on the access device, or a suture placed in the heart wall to gather the heart tissue against the access device. An obturator is removably positionable in the inner lumen of the access device, the obturator having a cutting means at its distal end for penetrating the muscular wall of the heart. The access device is preferably positioned through an intercostal space and through the muscular wall of the heart.Type: GrantFiled: May 7, 1996Date of Patent: November 3, 1998Assignee: Heartport, Inc.Inventors: John H. Stevens, Bruce A. Reitz
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Patent number: 5823956Abstract: Devices, systems, and methods are provided for accessing the interior of the heart and performing procedures therein while the heart is beating. In one embodiment, a tubular access device having an inner lumen is provided for positioning through a penetration in a muscular wall of the heart, the access device having a means for sealing within the penetration to inhibit leakage of blood through the penetration. The sealing means may comprise a balloon or flange on the access device, or a suture placed in the heart wall to gather the heart tissue against the access device. An obturator is removably positionable in the inner lumen of the access device, the obturator having a cutting means at its distal end for penetrating the muscular wall of the heart. The access device is preferably positioned through an intercostal space and through the muscular wall of the heart.Type: GrantFiled: May 7, 1996Date of Patent: October 20, 1998Assignee: Heartport, Inc.Inventors: Alex T. Roth, Hanson S. Gifford
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Patent number: 5817113Abstract: A system for performing an end-to-side vascular anastomosis, including an anastomosis device, an application instrument and methods for performing a vascular anastomosis. The system is applicable for performing an anastomosis between a vascular graft and the ascending aorta in coronary artery bypass surgery, particularly in port-access CABG surgery. A first aspect of the invention includes a vascular anastomosis staple. A first configuration has two parts: an anchor member, forming the attachment with the target vessel wall and a coupling member, forming the attachment with the bypass graft vessel. The anastomosis is completed by inserting the coupling member, with the graft vessel attached, into the anchor member. A second configuration combines the functions of the anchor member and the coupling member into a one-piece anastomosis staple.Type: GrantFiled: January 23, 1997Date of Patent: October 6, 1998Assignee: Heartport, Inc.Inventors: Hanson S. Gifford, III, Lee R. Bolduc, Jeffrey A. Stein, Paul C. DiCesare, Peter F. Costa, William A. Holmes
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Patent number: 5817062Abstract: A thoracic trocar having a deflectable member. The deflectable member has a frustoconical outer surface and is movable between first and second positions. The outer surface is angled toward the distal end in the first position and angled toward the proximal end in the second position. The first and second positions are both stable, unbiased positions and the deflectable member is movable from the first position to the second position upon application of the necessary force.Type: GrantFiled: June 27, 1996Date of Patent: October 6, 1998Assignee: Heartport, Inc.Inventors: James R. Flom, Pinaki Ray
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Patent number: 5814016Abstract: Devices and methods are provided for temporarily inducing cardioplegic arrest in the heart of a patient and for establishing cardiopulmonary bypass in order to facilitate surgical procedures on the heart and its related blood vessels. Specifically, a catheter based system is provided for isolating the heart and coronary blood vessels of a patient from the remainder of the arterial system and for infusing a cardioplegic agent into the patient's coronary arteries to induce cardioplegic arrest in the heart. The system includes an endoaortic partitioning catheter having an expandable balloon at its distal end which is expanded within the ascending aorta to occlude the aortic lumen between the coronary ostia and the brachiocephalic artery. Means for centering the catheter tip within the ascending aorta include specially curved shaft configurations, eccentric or shaped occlusion balloons and a steerable catheter tip, which may be used separately or in combination.Type: GrantFiled: February 7, 1997Date of Patent: September 29, 1998Assignee: Heartport, Inc.Inventors: Kirsten L. Valley, David W. Snow, Timothy C. Corvi, Brian S. Donlon, Stephen W. Boyd, Sylvia W. Fan, Alex T. Roth, William S. Peters, Richard J. Mueller, Jr., Hanson S. Gifford, III
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Patent number: 5814097Abstract: The invention provides devices and methods for performing less-invasive surgical procedures within an organ or vessel. In an exemplary embodiment, the invention provides a method of closed-chest surgical intervention within an internal cavity of a patient's heart or great vessel. According to the method, the patient's heart is arrested and cardiopulmonary bypass is established. A scope extending through a percutaneous intercostal penetration in the patient's chest is used to view an internal portion of the patient's chest. An internal penetration is formed in a wall of the heart or great vessel using cutting means introduced through a percutaneous penetration in an intercostal space in the patient's chest. An interventional tool is then introduced, usually through a cannula positioned in a percutaneous intercostal penetration.Type: GrantFiled: May 14, 1996Date of Patent: September 29, 1998Assignee: Heartport, Inc.Inventors: Wesley D. Sterman, Michi E. Garrison, Hanson S. Gifford, III, John H. Stevens
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Patent number: 5810757Abstract: A system for providing total isolation of the heart includes an extracorporeal support apparatus. An arterial circulation support catheter is provided having a blood lumen with a proximal end coupled to the extracorporeal support apparatus and a distal end positioned in the aortic root and a left side of the heart. An arterial circulation support catheter occluding member is coupled to the arterial circulation support catheter. The arterial circulation support catheter occluding member is positioned to prevent blood flow into the left ventricle or left side of the heart. A venous circulation support catheter includes a blood lumen with a proximal end coupled to the extracorporeal support apparatus, and a distal end inserted into the blood circulation A venous circulation support catheter occluding member is coupled to the venous circulation support catheter and positioned between the superior vena cava and the inferior vena cava.Type: GrantFiled: December 1, 1995Date of Patent: September 22, 1998Assignee: Heartport, Inc.Inventors: William P. Sweezer, Jr., Ronald Coleman, Walter W. Larkins, III
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Patent number: 5810721Abstract: The present invention provides a retractor for providing surgical access through a passage in tissue, together with methods for its use and deployment. The retractor comprises an anchoring frame having an upper surface, a lower surface, and an opening therethrough which defines an axial axis. A flexible tensioning member is attached to the frame, and is extendable from the frame out of the body through the passage when the frame is positioned through the passage and into a body cavity. This tensioning member is selectively tensionable to spread the tissue radially outwardly from the axial axis. Hence, it is the tension imposed on the flexible liner which effects retraction of the tissue, rather than relying on the structural integrity of an artificial lumen.Type: GrantFiled: March 4, 1996Date of Patent: September 22, 1998Assignee: Heartport, Inc.Inventors: Richard L. Mueller, Stephen W. Boyd, James R. Flom, Lorraine F. Mangosong, William S. Peters
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Patent number: 5810877Abstract: The invention provides devices and method for performing extremely small-scale, minimally-invasive microsurgery such as thoracoscopic coronary artery bypass grafting. The instruments of the invention utilize a symmetrical, forcep-like actuator which provides extremely precise actuation and control of the instrument and which mimics the feel of instruments used in conventional open surgical procedures. The instruments generally include a pair of coaxially arranged shafts, an end-effect at the distal ends of the shafts, and an actuator at the proximal ends of the shafts. The actuator includes a pair of arms pivotally coupled to one of either the outer or inner shaft, and a pair of links pivotally coupled at one end to the arms, and at a second end to the other of the shafts. The links are coupled to a proximal portion of the arms to maximize mechanical advantage and reduce interference.Type: GrantFiled: November 5, 1996Date of Patent: September 22, 1998Assignee: Heartport, Inc.Inventors: Alex T. Roth, Scott H. Miller
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Patent number: 5807318Abstract: A catheter system is provided for accessing the coronary ostia transluminally from a peripheral arterial access site, such as the femoral artery, and for inducing cardioplegic arrest by direct infusion of cardioplegic solution into the coronary arteries. In a first embodiment, the catheter system is in the form of a single perfusion catheter with multiple distal branches for engaging the coronary ostia. In a second embodiment, multiple perfusion catheters are delivered to the coronary ostia through a single arterial cannula. In a third embodiment, multiple perfusion catheters are delivered to the coronary ostia through a single guiding catheter. In a fourth embodiment, multiple catheters are delivered to the coronary ostia through a single guiding catheter which has distal exit ports that are arranged to direct the perfusion catheters into the coronary ostia.Type: GrantFiled: March 12, 1996Date of Patent: September 15, 1998Assignee: Heartport, Inc.Inventors: Frederick G. St. Goar, William S. Peters, Philip C. Evard, Stephen W. Boyd, Craig L. Adams, Richard L. Mueller, Jr., John H. Stevens
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Patent number: 5799661Abstract: Surgical methods and instruments are disclosed for performing port-access or closed-chest coronary artery bypass (CABG) surgery in multivessel coronary artery disease. In contrast to standard open-chest CABG surgery, which requires a median sternotomy or other gross thoracotomy to expose the patient's heart, port-access CABG surgery is performed through small incisions or access ports made through the intercostal spaces between the patient's ribs, resulting in greatly reduced pain and morbidity to the patient. In situ arterial bypass grafts, such as the internal mammary arteries and/or the right gastroepiploic artery, are prepared for grafting by thoracoscopic or laparoscopic takedown techniques. Free grafts, such as a saphenous vein graft or a free arterial graft, can be used to augment the in situ arterial grafts. The graft vessels are anastomosed to the coronary arteries under direct visualization through a cardioscopic microscope inserted through an intercostal access port.Type: GrantFiled: June 7, 1995Date of Patent: September 1, 1998Assignee: Heartport, Inc.Inventors: Stephen W. Boyd, Alan R. Rapacki, William S. Peters
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Patent number: 5800375Abstract: A catheter system and method for achieving total cardiopulmonary bypass during heart surgery. A venous perfusion catheter is inserted peripherally into a preselected vein where it is advanced and positioned at the atrio-caval junction. The venous perfusion catheter has first and second balloons which when inflated respectively occlude the inferior and superior vena cava thereby precluding blood flow into the right atrium. An arterial perfusion catheter is inserted peripherally into a preselected arterial vessel and advanced within the vessel and positioned in the ascending aorta cephalid of the junction of the coronary arteries with the aortic root. A second flexible arterial cannula is mounted in sliding. relationship with the first flexible cannula and carries an inflatable balloon adjacent its distal end to provide for occlusion of the ascending aorta.Type: GrantFiled: December 20, 1995Date of Patent: September 1, 1998Assignee: Heartport, Inc.Inventors: William Penn Sweezer, James Jimison, Ronald L. Coleman
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Patent number: 5797933Abstract: A coronary shunt for occluding both sides of an anastomosis site and providing a blood flow path across the anastomosis site. The shunt includes two occluding members sized and configured to occlude the coronary artery. A tether is attached to the coronary shunt and is used to remove the coronary shunt from the coronary artery before completing the anastomosis.Type: GrantFiled: July 16, 1996Date of Patent: August 25, 1998Assignee: Heartport, Inc.Inventors: David W. Snow, Craig L. Adams, Brian S. Donlon, Hanson S. Gifford, III