Patents Assigned to Arbor Surgical Technologies, Inc.
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Publication number: 20100070029Abstract: A heart valve assembly includes a base including a multi-lobular annular shape within a plane, a valve member or other annular body including a multi-lobular shape complementary to the shape of the base, and cooperating connectors on the base and the annular body for connecting the annular body to the base. The base includes an anchoring ring, and a flexible cuff for attaching the base to a biological annulus. The base and the annular body include guides for aligning their multi-lobular shapes, e.g., visual, tactile, or other markers, or tethers that extend from the base that are slidable through the annular body. During use, the base is attached to a biological annulus, the annular body is directed adjacent the annulus, oriented such that the multi-lobular shape of the annular body valve member is aligned with the base, and the annular body is attached to the base.Type: ApplicationFiled: October 6, 2009Publication date: March 18, 2010Applicant: Arbor Surgical Technologies, Inc.Inventors: Michael J. Drews, Donnell W. Gurskis, Steven R. Bacich
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Publication number: 20100010616Abstract: Devices for attaching a first mass and a second mass and methods of making and using the same are disclosed. The devices can be made from an resilient, elastic or deformable materials. The devices can be used to attach a heart valve ring to a biological annulus. The devices can also be used for wound closure or a variety of other procedures such as anchoring a prosthesis to surrounding tissue or another prosthesis, tissue repair, such as in the closure of congenital defects such as septal heart defects, tissue or vessel anastomosis, fixation of tissue with or without a reinforcing mesh for hernia repair, orthopedic anchoring such as in bone fusing or tendon or muscle repair, ophthalmic indications, laparoscopic or endoscopic tissue repair or placement of prostheses, or use by robotic devices for procedures such as those above performed remotely.Type: ApplicationFiled: July 6, 2009Publication date: January 14, 2010Applicant: Arbor Surgical Technologies, Inc.Inventors: Michael J. Drews, Donnell W. Gurskis, Steven R. Bacich
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Publication number: 20090319038Abstract: A heart valve assembly includes a prosthesis and a prosthetic valve to replace a preexisting natural or prosthetic heart valve within a biological annulus. The prosthesis includes an annular member, a flexible core at least partially defining a sewing cuff extending radially outwardly from the annular member, a rail ring disposed between the flexible core and the annular member, and a plurality of guide rails extending from the rail ring through respective openings in the flexible core. A fabric covering covers the prosthesis, and the guide rails extend through respective openings in the fabric covering. The prosthetic valve includes a frame including receptacles for receiving respective guide rails. After implanting the prosthesis within a biological annulus, the prosthetic valve is advanced along the guide rails until retention elements on the guide rails engage the receptacles to secure the prosthetic valve relative to the prosthesis.Type: ApplicationFiled: June 3, 2009Publication date: December 24, 2009Applicant: ARBOR SURGICAL TECHNOLOGIES, INC.Inventors: Donnell W. Gurskis, Takashi Harry Ino, Ernest Lane, Steven R. Bacich
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Patent number: 7622276Abstract: A method for processing biological tissue used in biological prostheses includes providing a tissue procurement solution formed from a phosphate buffered saline (PBS) solution and a chelating agent. The tissue is transferred from the tissue procurement solution and undergoes chemical fixation. The fixed tissue is then immersed in a series of fresh bioburden reduction process (BRP) solutions to extract phospholipids. The tissue procurement solution reduces the bioburden on the stored tissue and preserves tissue architecture by minimizing tissue swelling. The tissue procurement solution further reduces calcium from the incoming water and/or tissue, and inhibits enzymes that digest the collagen matrix. The serial immersion of the tissue in the fresh bioburden solutions ensures optimal extraction of phospholipids thereby mitigating subsequent calcification of the tissue.Type: GrantFiled: June 6, 2006Date of Patent: November 24, 2009Assignee: Arbor Surgical Technologies, Inc.Inventors: Crystal M. Cunanan, Alexandro Ochoa, Ronald E. Cambron
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Patent number: 7597711Abstract: A heart valve assembly includes a base including a multi-lobular annular shape within a plane, a valve member or other annular body including a multi-lobular shape complementary to the shape of the base, and cooperating connectors on the base and the annular body for connecting the annular body to the base. The base includes an anchoring ring, and a flexible cuff for attaching the base to a biological annulus. The base and the annular body include guides for aligning their multi-lobular shapes, e.g., visual, tactile, or other markers, or tethers that extend from the base that are slidable through the annular body. During use, the base is attached to a biological annulus, the annular body is directed adjacent the annulus, oriented such that the multi-lobular shape of the annular body valve member is aligned with the base, and the annular body is attached to the base.Type: GrantFiled: January 26, 2004Date of Patent: October 6, 2009Assignee: Arbor Surgical Technologies, Inc.Inventors: Michael J. Drews, Donnell W. Gurskis, Steven R. Bacich
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Publication number: 20090192599Abstract: A prosthetic heart valve assembly includes a gasket member and a valve member including a plurality of fasteners and a plurality of engagement members corresponding to the fasteners. The fasteners and/or engagement members may be configured to guide the engagement members into engagement with the fasteners. For example, the fasteners may include U-shaped spring-biased clips, e.g., attached to a core or other portion of a sewing cuff of the gasket member, and the engagement members may include latches or barbed protrusions that engage one or more holes in the fasteners. During use, the gasket member is introduced into a tissue annulus, and secured to the annulus, e.g., using a plurality of clips directed through the sewing cuff. The valve member is then introduced into the annulus and the engagement members are snapped or otherwise guided into engagement with the fasteners to secure the valve member relative to the gasket member.Type: ApplicationFiled: April 6, 2009Publication date: July 30, 2009Applicant: Arbor Surgical Technologies, inc.Inventors: Ernest Lane, Shouyan Lee, Charles Huang
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Patent number: 7556647Abstract: Devices for attaching a first mass and a second mass and methods of making and using the same are disclosed. The devices can be made from an resilient, elastic or deformable materials. The devices can be used to attach a heart valve ring to a biological annulus. The devices can also be used for wound closure or a variety of other procedures such as anchoring a prosthesis to surrounding tissue or another prosthesis, tissue repair, such as in the closure of congenital defects such as septal heart defects, tissue or vessel anastomosis, fixation of tissue with or without a reinforcing mesh for hernia repair, orthopedic anchoring such as in bone fusing or tendon or muscle repair, ophthalmic indications, laparoscopic or endoscopic tissue repair or placement of prostheses, or use by robotic devices for procedures such as those above performed remotely.Type: GrantFiled: October 8, 2003Date of Patent: July 7, 2009Assignee: Arbor Surgical Technologies, Inc.Inventors: Michael J. Drews, Donnell W. Gurskis, Steven R. Bacich
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Patent number: 7513909Abstract: A prosthetic heart valve assembly includes a gasket member and a valve member including a plurality of fasteners and a plurality of engagement members corresponding to the fasteners. The fasteners and/or engagement members may be configured to guide the engagement members into engagement with the fasteners. For example, the fasteners may include U-shaped spring-biased clips, e.g., attached to a core or other portion of a sewing cuff of the gasket member, and the engagement members may include latches or barbed protrusions that engage one or more holes in the fasteners. During use, the gasket member is introduced into a tissue annulus, and secured to the annulus, e.g., using a plurality of clips directed through the sewing cuff. The valve member is then introduced into the annulus and the engagement members are snapped or otherwise guided into engagement with the fasteners to secure the valve member relative to the gasket member.Type: GrantFiled: April 10, 2006Date of Patent: April 7, 2009Assignee: Arbor Surgical Technologies, Inc.Inventors: Ernest Lane, Shouyan Lee, Charles Huang
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Publication number: 20090036903Abstract: A fastener delivery tool includes a belt including pairs of features for releasably engaging tines of respective fasteners in a relaxed state defining a loop. The tool includes a loading chamber for receiving a fastener from the belt, a retaining member for limiting movement of the fastener within the loading chamber, an ejection track communicating with the loading chamber, a handle including an actuator, and a tongue and pusher member coupled to the actuator. Activation of the actuator advances the tongue to transform the fastener from the relaxed state to a U-shaped constrained state, and advances the pusher member to direct the fastener from the loading chamber down the ejection track. The tool may include a trigger for ejecting the fastener completely from the ejection track. The fastener may be used to secure a prosthetic heart valve or components thereof into surrounding tissue, e.g., within a tissue annulus.Type: ApplicationFiled: May 5, 2008Publication date: February 5, 2009Applicant: Arbor Surgical Technologies, Inc.Inventors: Takashi Harry Ino, Michael J. Drews, Donnell W. Gurskis, Dwight J. Knab, JR.
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Publication number: 20080319543Abstract: A trileaflet biological prosthetic heart valve (11, 41) comprising a thin, rigid annular outer frame (25, 43) which supports three elastic, laminated spring inner frames (18, 57) which in turn provide consistent geometric form and structure for attachment of tissue leaflets (15, 71).Type: ApplicationFiled: August 29, 2008Publication date: December 25, 2008Applicant: ARBOR SURGICAL TECHNOLOGIES, INC.Inventor: Ernest Lane
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Patent number: 7422603Abstract: A trileaflet biological prosthetic heart valve (11, 41) comprising a thin, rigid annular outer frame (25, 43) which supports three elastic, laminated spring inner frames (18, 57) which in turn provide consistent geometric form and structure for attachment of tissue leaflets (15, 71).Type: GrantFiled: March 11, 2005Date of Patent: September 9, 2008Assignee: Arbor Surgical Technologies, Inc.Inventor: Ernest Lane
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Publication number: 20080119875Abstract: A fastener delivery tool includes a loading chamber for receiving a fastener having a pair of tines overlapping one another to define a loop in a parent or relaxed state. A retaining member retains the fastener in the loading chamber. The fastener delivery tool also includes a tongue, pusher member, and an ejection track communicating with the loading chamber. An actuator causes the tongue to move to engage the tines of the fastener to transform the fastener from the relaxed state to a constrained state defining a U-shape. The actuator also causes the pusher member to release the retaining member and advance the fastener down the ejection track in the constrained state. The tool also includes a trigger for ejecting the fastener completely from the ejection track. The fastener may be used to secure a prosthetic heart valve or components thereof into surrounding tissue, e.g., within a tissue annulus.Type: ApplicationFiled: January 30, 2008Publication date: May 22, 2008Applicant: Arbor Surgical Technologies, Inc.Inventors: Takashi Ino, Michael Drews, Donnell Gurskis
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Publication number: 20070203576Abstract: A method for making a bioprosthetic heart valve includes providing a non-contact cutting apparatus and a layer of tissue. The non-contact cutting apparatus may include a laser cutting system or high pressure water jet system. A leaflet is cut from the layer of tissue using a predefined template, and a plurality of alignment holes in the leaflet are created in the leaflet, e.g., along a peripheral edge. A support structure is provided having a plurality of alignment holes corresponding to alignment holes in the leaflet. The leaflet is secured to the support structure by securing one or more sutures through corresponding alignment holes in the leaflet and the support structure to provide a leaflet subassembly. A bioprosthetic heart valve is made by securing a set of leaflet subassemblies to a frame.Type: ApplicationFiled: May 3, 2007Publication date: August 30, 2007Applicant: ARBOR SURGICAL TECHNOLOGIES, INC.Inventors: Shouyan Lee, Ernest Lane
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Patent number: 7238200Abstract: A method for making a bioprosthetic heart valve includes providing a non-contact cutting apparatus and a layer of tissue. The non-contact cutting apparatus may include a laser cutting system or high pressure water jet system. A leaflet is cut from the layer of tissue using a predefined template, and a plurality of alignment holes in the leaflet are created in the leaflet, e.g., along a peripheral edge. A support structure is provided having a plurality of alignment holes corresponding to alignment holes in the leaflet. The leaflet is secured to the support structure by securing one or more sutures through corresponding alignment holes in the leaflet and the support structure to provide a leaflet subassembly. A bioprosthetic heart valve is made by securing a set of leaflet subassemblies to a frame.Type: GrantFiled: June 3, 2005Date of Patent: July 3, 2007Assignee: Arbor Surgical Technologies, Inc.Inventors: Shouyan Lee, Ernest Lane
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Patent number: 7201771Abstract: A trileaflet biological prosthetic heart valve (11, 41) comprising a thin, rigid annular outer frame (25, 43) which supports three elastic, laminated spring inner frames (18, 57) which in turn provide consistent geometric form and structure for attachment of tissue leaflets (15, 71).Type: GrantFiled: December 26, 2002Date of Patent: April 10, 2007Assignee: Arbor Surgical Technologies, Inc.Inventor: Ernest Lane
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Patent number: 6939365Abstract: A fixturing assembly is provided that includes a needle and a fixturing device. The needle includes a first sharpened end and a second end including a can. The fixturing device includes an elongate filament having first and second ends, and an enlarged fixturing device on the first end of the filament. The second end of the filament is held by the can by frictional resistance, the second end of the filament being removable from the can when a tensile force is applied between the needle and the second end of the filament that exceeds the frictional resistance. For example, the can may include a coil, corrugations, or a roughened inner surface to removably hold the end of the fixturing device.Type: GrantFiled: March 3, 2003Date of Patent: September 6, 2005Assignee: Arbor Surgical Technologies, Inc.Inventors: Thomas J. Fogarty, Michael J. Drews, Neil Holmgren, D. Bruce Modesitt