Patents by Inventor David Ernest Hartley
David Ernest Hartley 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: 20160135970Abstract: An endoluminal prosthesis system for a branched body lumen comprises a branch vessel prosthesis. The branch vessel prosthesis is deployable within a branch vessel body lumen and comprises a stent having a generally tubular body portion, a flareable proximal end portion, and a coupling portion disposed intermediate the body portion and the flareable portion. The coupling portion is more crush-resistant than the body portion. The flareable proximal end may be disposed within a fenestrated stent graft wit with coupling portion disposed in the fenestration of the fenestrated stent graft.Type: ApplicationFiled: January 28, 2016Publication date: May 19, 2016Applicant: COOK MEDICAL TECHNOLOGIES LLCInventors: Darin G. Schaeffer, Scott E. Boatman, Jay A. Dittman, David Ernest Hartley
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Publication number: 20160089230Abstract: A joining arrangement between a main tube (3) and a side arm (5) in a side arm stent graft (1). The side arm (5) is stitched into an aperture (11) in the main tube and is in fluid communication with it. The aperture is triangular, elliptical or rectangular and the side arm is cut off at an angle to leave an end portion having a circumferential length equal to the circumference of the aperture. The side arm can also include a connection socket (76) comprising a first resilient ring (79) around the arm at its end, a second resilient ring (80) spaced apart along the arm from the first ring and a zig zag resilient stent (82) between the first and second rings. The zig-zag resilient stent can be a compression stent. Both the main tube and the side arm are formed from seamless tubular biocompatible graft material.Type: ApplicationFiled: September 2, 2015Publication date: March 31, 2016Inventor: David Ernest Hartley
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Publication number: 20160030218Abstract: A stent graft adaptor has an outer graft tube and an inner graft tube with the inner graft tube substantially concentric with and within the outer graft tube. A joining member extends between the inner tube and the outer tube. The joining member can be a continuous fold of graft material extending from a proximal end of the outer tube to a proximal end of the inner tube. The inner tube has at least one self expanding stent on an outer surface thereof and the outer graft tube has at least one self expanding stent on an inner surface. The outer surface of the outer tube provides a sealing surface to engage against the wall of a vessel and the inner tube provides a sealing surface to engage with a corresponding sealing surface of a stent graft deployed through it. The outer sealing surface can include barbs.Type: ApplicationFiled: September 2, 2015Publication date: February 4, 2016Applicant: COOK MEDICAL TECHNOLOGIES LLCInventors: Piotr Miroslaw Kasprzak, II, Werner Dieter Ducke, David Ernest Hartley, Blayne A. Roeder
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Patent number: 9211183Abstract: A stent graft (1) has at least one fenestration (13) or low profile side arm (34). A guide assembly (17) surrounds the fenestration or low profile side arm. The guide assembly has a continuous wall extending laterally away from the outer surface of the stent graft. The continuous wall is substantially elliptical or circular and extends distally of the fenestration at a distal end of the wall and being coincident with a proximal part (25) of the periphery of the fenestration or low profile side arm at a proximal end of the wall (23). The wall acts to define a guide area to guide a flexible probe extended from a side branch vessel to enter the fenestration or low profile side arm. Where there are two fenestrations or low profile side arms there can be a single continuous wall (50) around both or separate walls for each. The wall may have a peripheral wire reinforcement (19).Type: GrantFiled: October 4, 2010Date of Patent: December 15, 2015Assignees: COOK MEDICAL TECHNOLOGIES LLC, THE CLEVELAND CLINIC FOUNDATIONInventors: Krasnodar Ivancev, Michael Lawrence-Brown, David Ernest Hartley, Werner Dieter Ducke, Roy K. Greenberg
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Patent number: 9149355Abstract: A joining arrangement between a main tube (3) and a side arm (5) in a side arm stent graft (1). The side arm (5) is stitched into an aperture (11) in the main tube and is in fluid communication with it. The aperture is triangular, elliptical or rectangular and the side arm is cut off at an angle to leave an end portion having a circumferential length equal to the circumference of the aperture. The side arm can also include a connection socket (76) comprising a first resilient ring (79) around the arm at its end, a second resilient ring (80) spaced apart along the arm from the first ring and a zig zag resilient stent (82) between the first and second rings. The zig-zag resilient stent can be a compression stent. Both the main tube and the side arm are formed from seamless tubular biocompatible graft material.Type: GrantFiled: September 21, 2005Date of Patent: October 6, 2015Assignee: COOK MEDICAL TECHNOLOGIES LLCInventor: David Ernest Hartley
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Patent number: 9149372Abstract: A stent graft adaptor has an outer graft tube and an inner graft tube with the inner graft tube substantially concentric with and within the outer graft tube. A joining member extends between the inner tube and the outer tube. The joining member can be a continuous fold of graft material extending from a proximal end of the outer tube to a proximal end of the inner tube. The inner tube has at least one self expanding stent on an outer surface thereof and the outer graft tube has at least one self expanding stent on an inner surface. The outer surface of the outer tube provides a sealing surface to engage against the wall of a vessel and the inner tube provides a sealing surface to engage with a corresponding sealing surface of a stent graft deployed through it. The outer sealing surface can include barbs.Type: GrantFiled: March 13, 2013Date of Patent: October 6, 2015Assignee: Cook Medical Technologies LLCInventors: Piotr Miroslaw Kasprzak, Werner Dieter Ducke, David Ernest Hartley, Blayne A. Roeder
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Publication number: 20150265439Abstract: A wire stent assembly that has a first ring defining one end of the stent assembly, a second ring defining the second end of the stent assembly. Each ring is formed of wire. The wire of each ring also has a second section that extends parallel to the longitudinal axis of the wire stent assembly and perpendicular to the rings. Each of the rings has a loop that is parallel to the longitudinal axis and parallel to the rings. The stent assembly may form the support structure for a stent graft.Type: ApplicationFiled: June 8, 2015Publication date: September 24, 2015Applicant: Cook Medical Technologies LLCInventor: David Ernest Hartley
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Publication number: 20150216694Abstract: A capsule assembly for an endograft introducer is disclosed. The assembly comprises: a capsule retriever having a plug portion and a tail portion, the plug portion having a lead-in surface, the tail portion having an elongate body extending proximally from the plug portion to an end stop feature receiver; a capsule tube having an end stop feature at a proximal end thereof and terminating in a distal end, the end stop feature and the end stop receiver arranged such that proximal movement of the capsule tube relative to the plug portion is limited; and a capsule cavity inside the capsule tube, a proximal end of a prosthesis being receivable in the cavity. The capsule tube is slidably movable with respect to the capsule retriever to a position in which the distal end of the capsule tube is adjacent to the lead-in surface of the plug portion.Type: ApplicationFiled: February 3, 2015Publication date: August 6, 2015Inventors: Werner D. Ducke, David Ernest Hartley, David Sean O'Brien, Blayne A. Roeder
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Patent number: 9095458Abstract: A stent graft (1) including a tubular wall (3) with at least one fenestration (40) including a peripheral (37) reinforcement around at least part of the fenestration. There can also be a tubular extension (15). The side arm includes a stent (19) and a cover (17) and extends from and is in fluid communication with the fenestration and the stent graft. The stent may be a self expanding stent. The ring and/or tubular extension provides better support and sealing for an extension arm. The fenestration (40) can be circular or if towards the ends of the stent graft may be in the form of a U-shape (50) with an open end.Type: GrantFiled: July 25, 2013Date of Patent: August 4, 2015Assignee: Cook Medical Technologies LLCInventors: David Ernest Hartley, John Lennon Anderson, Michael Lawrence-Brown
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Patent number: 9072621Abstract: A stent graft (1) including a tubular wall (3) with at least one fenestration (40) including a peripheral (37) reinforcement around at least part of the fenestration. There can also be a tubular extension (15). The side arm includes a stent (19) and a cover (17) and extends from and is in fluid communication with the fenestration and the stent graft. The stent may be a self expanding stent. The ring and/or tubular extension provides better support and sealing for an extension arm. The fenestration (40) can be circular or if towards the ends of the stent graft may be in the form of a U-shape (50) with an open end.Type: GrantFiled: February 5, 2013Date of Patent: July 7, 2015Assignee: Cook Medical Technologies LLCInventors: David Ernest Hartley, John Lennon Anderson, Michael Lawrence-Brown
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Patent number: 9060895Abstract: A stent graft deployment device assembly (10) has a cylindrical fixed handle (6) to be gripped and held by a user and an tubular release handle (30) extending through the fixed handle. The release handle can be moved through the fixed handle. The deployment device assembly has a pusher assembly and a sheath (18) to cover a stent graft on the pusher assembly. The pusher assembly is connected to the fixed handle and the sheath is connected to the release handle so that retraction of the release handle through the fixed handle causes the sheath to be retracted from the stent graft on the pusher assembly. The fixed handle has a rotator component (36) with internal first and second screw threads. The tubular release handle has an external screw thread (31) which engages with the first screw thread. The external screw thread (31) can extend along part, all or in segments along the release handle. A release clamp (48) on the pusher has pins which engage with the second screw thread.Type: GrantFiled: October 14, 2010Date of Patent: June 23, 2015Assignee: COOK MEDICAL TECHNOLOGIES LLCInventors: David Ernest Hartley, Werner Dieter Ducke
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Patent number: 9060887Abstract: A stent graft (1) including a tubular wall (3) with at least one fenestration (40) including a peripheral (37) reinforcement around at least part of the fenestration. There can also be a tubular extension (15). The side arm includes a stent (19) and a cover (17) and extends from and is in fluid communication with the fenestration and the stent graft. The stent may be a self expanding stent. The ring and/or tubular extension provides better support and sealing for an extension arm. The fenestration (40) can be circular or if towards the ends of the stent graft may be in the form of a U-shape (50) with an open end.Type: GrantFiled: August 13, 2008Date of Patent: June 23, 2015Assignee: Cook Medical Technologies LLCInventors: David Ernest Hartley, John Lennon Anderson, Michael Lawrence-Brown
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Patent number: 9050181Abstract: A stent arrangement which has at least a first ring (3) and zig zag struts (5) extending axially from the periphery of the ring. There can be first and second rings (3, 4) axially spaced apart and defining substantially parallel planes and a plurality of zig zag portions (5) between the first and second ring portions around the periphery thereof. The stent can be formed from a single wire or laser cut from a cannula and can be covered or uncovered.Type: GrantFiled: October 21, 2011Date of Patent: June 9, 2015Assignee: Cook Medical Technologies LLCInventor: David Ernest Hartley
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Publication number: 20150148890Abstract: A tubular side arm assembly configured for mounting onto a stent graft to provide an accessible side arm. The side arm includes a lightweight space frame comprising a resilient wire, and the space frame comprises a cylindrical portion and a funnel portion. The cylindrical portion includes first and second circular planar ring portions that are parallel to each other and spaced apart axially, and at least two longitudinal struts extending between the first and second circular ring portions. The frame also includes a funnel portion including a substantially circular ring portion to define a larger end of the funnel portion and a pair of spaced apart antis extending from the substantially circular ring portion towards the cylindrical portion. The lightweight space frame is configured to support a biocompatible graft material.Type: ApplicationFiled: February 3, 2015Publication date: May 28, 2015Applicant: COOK MEDICAL TECHNOLOGIES LLCInventors: David Ernest Hartley, Werner Dieter Ducke, Krasnodar Ivancev
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Publication number: 20150112420Abstract: A stent graft (1) including a tubular wall (3) with at least one fenestration (40) including a peripheral (37) reinforcement around at least part of the fenestration. There can also be a tubular extension (15). The side arm includes a stent (19) and a cover (17) and extends from and is in fluid communication with the fenestration and the stent graft. The stent may be a self expanding stent. The ring and/or tubular extension provides better support and sealing for an extension arm. The fenestration (40) can be circular or if towards the ends of the stent graft may be in the form of a U-shape (50) with an open end.Type: ApplicationFiled: December 30, 2014Publication date: April 23, 2015Applicant: COOK MEDICAL TECHNOLOGIES LLCInventors: David Ernest Hartley, John Lennon Anderson, Michael Lawrence-Brown
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Patent number: 9011517Abstract: A stent graft has a tubular side arm which can be angled proximally and distally and from side to side. The wall of the stent graft in the vicinity of the side arm has a loose fold of the graft material and the side arm is fastened to the loose fold of graft material. The tubular side arm has an inner end and an outer end and is fastened into the loose fold of graft material by a circumferential fastening around the tubular side arm between the inner end and the outer end so that the tubular side arm extends partially within the tubular body of the stent graft and partially outside the tubular body of the stent graft. The loose fold of graft material can be formed by the graft material defining a recess in the wall of the stent graft. To enable movement or angulation proximally and distally and from side to side the loose fold of graft material is provided both proximally and distally of the tubular side arm and circumferentially to each side of the tubular side arm.Type: GrantFiled: October 26, 2010Date of Patent: April 21, 2015Assignee: Cook Medical Technologies LLCInventors: David Ernest Hartley, Werner Dieter Ducke, Chantelle King, Blayne A. Roeder
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Patent number: 9005271Abstract: A fenestrated stent graft (1) with a tubular side arm (11) extending therefrom in which the side arm can be turned inside out to extend into the stent graft during deployment of the stent graft and extended out during deployment. Also disclosed is a deployment device (19) for such a side arm stent graft which has a deployment catheter (26) and a side arm guide (32), the side arm guide is releasably fastened at a proximal end to the branch tube (11) and is able to be moved independently of the deployment catheter such that the branch tube can be extended from the tubular body of the stent graft while it is fastened onto the side arm guide. The side arm guide can be formed from a side arm catheter (32) and a side arm guide wire (34) carried in the side arm catheter.Type: GrantFiled: June 21, 2012Date of Patent: April 14, 2015Assignee: Cook Medical Technologies LLCInventors: Krasnodar Ivancev, David Ernest Hartley, Erik E. Rasmussen
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Patent number: 9005268Abstract: A thoracic arch stent graft (1) has a tubular body of a biocompatible graft material (3) and at least one fenestration (13, 15) in the wall on one side thereof. A combination guide and tubular side arm assembly (20, 22) is mounted into the or each fenestration. The combination guide and tubular side arm assembly comprises a tubular portion (24) and a funnel portion (26) extending from a distal end of the tubular portion. The funnel portion has an angled open end. The tubular portion and the funnel portion are formed from a biocompatible graft material wall and have a lightweight space frame (38 40) formed from a resilient wire and supporting the graft material and defining the combination guide and tubular side arm assembly.Type: GrantFiled: March 18, 2011Date of Patent: April 14, 2015Assignee: Cook Medical Technologies LLCInventors: David Ernest Hartley, Werner Dieter Ducke, Krasnodar Ivancev
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Patent number: 8945204Abstract: A stent graft (1) including a tubular wall (3) with at least one fenestration (40) including a peripheral (37) reinforcement around at least part of the fenestration. There can also be a tubular extension (15). The side arm includes a stent (19) and a cover (17) and extends from and is in fluid communication with the fenestration and the stent graft. The stent may be a self expanding stent. The ring and/or tubular extension provides better support and sealing for an extension arm. The fenestration (40) can be circular or if towards the ends of the stent graft may be in the form of a U-shape (50) with an open end.Type: GrantFiled: February 5, 2013Date of Patent: February 3, 2015Assignee: Cook Medical Technologies LLCInventors: David Ernest Hartley, John Lennon Anderson, Michael Lawrence-Brown
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Publication number: 20140364932Abstract: An introduction arrangement for a fenestrated or branched stent graft (13) intended for deployment into the lumen of a vessel having a blind vessel extending from it. The introducer (1) has a distal end intended to remain outside a patient in use and a proximal end with a nose cone dilator (11) and an arrangement to retain the branched stent graft distally of the nose cone dilator. A sheath (15) on the introducer extends over the branched stent graft to the nose cone dilator. An indwelling catheter (22) extends from the distal end of the introducer and enters the fenestration or side arm and through to the nose cone dilator, the indwelling catheter has a guide wire (29) extending through it. The guide wire can be extended beyond the nose cone dilator in use before the sheath is withdrawn from the branched stent graft so that it can be snared from the contra-lateral artery.Type: ApplicationFiled: August 26, 2014Publication date: December 11, 2014Inventors: David Ernest Hartley, John Lennon Anderson, Roy K. Greenberg, Wolf Stelter