Patents by Inventor Evelyn N. Haynes
Evelyn N. Haynes 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: 20240382329Abstract: Delivery systems for expandable and stented implants include adjustable tensioning members that control the expansion of the implant along the length of the implant. The tensioning members are wound onto one or more rotors located on the distal segment of the delivery system, which are rotated to unwind the tensioning members and incrementally expand the implant. Positioning mechanisms are also provided to adjust the position and orientation of the implant during delivery.Type: ApplicationFiled: July 29, 2024Publication date: November 21, 2024Applicant: Occam Labs LLCInventors: Daniel T. Wallace, Peter W. Gregg, Jeremy J. Boyette, Evelyn N. Haynes, Spencer C. Noe
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Publication number: 20240315841Abstract: The present disclosure describes devices, systems, and methods for intravascularly delivering an implantable device to a targeted anatomical site such as the mitral annulus. A delivery system includes a delivery member coupled to a handle assembly and extending distally from the handle assembly. A delivery catheter is concentrically positioned within an outer member and configured to advance the intravascular device relative to the outer member. The delivery catheter includes a distal can structure configured to house at least a portion of the intravascular device in a compressed, pre-deployed position.Type: ApplicationFiled: May 30, 2024Publication date: September 26, 2024Inventors: Randolf von Oepen, Hugo A. Cobar, Francisco Valencia, Russell Patrick Shelton, Henry Thek Chan, Evelyn N. Haynes, Kim Lela Hayenga, Curtis James Caton, Gregory Matthew Hyde, Austin Michael Sherman, Gabriel H. Monteon
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Patent number: 12048639Abstract: Delivery systems for expandable and stented implants include adjustable tensioning members that control the expansion of the implant along the length of the implant. The tensioning members are wound onto one or more rotors located on the distal segment of the delivery system, which are rotated to unwind the tensioning members and incrementally expand the implant. Positioning mechanisms are also provided to adjust the position and orientation of the implant during delivery.Type: GrantFiled: February 11, 2022Date of Patent: July 30, 2024Assignee: Capstan Medical Inc.Inventors: Daniel T. Wallace, Peter W. Gregg, Jeremy J. Boyette, Evelyn N. Haynes, Spencer C. Noe
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Patent number: 12036119Abstract: The present disclosure describes devices, systems, and methods for intravascularly delivering an implantable device to a targeted anatomical site such as the mitral annulus. A delivery system includes a delivery member coupled to a handle assembly and extending distally from the handle assembly. A delivery catheter is concentrically positioned within an outer member and configured to advance the intravascular device relative to the outer member. The delivery catheter includes a distal can structure configured to house at least a portion of the intravascular device in a compressed, pre-deployed position.Type: GrantFiled: April 15, 2021Date of Patent: July 16, 2024Assignee: Cephea Valve Technologies, Inc.Inventors: Randolf von Oepen, Hugo A. Cobar, Francisco Valencia, Russell Patrick Shelton, Henry Thek Chan, Evelyn N. Haynes, Kim Lela Hayenga, Curtis James Caton, Gregory Matthew Hyde, Austin Michael Sherman, Gabriel H. Monteon
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Patent number: 11957583Abstract: A delivery device for cardiac valve repair implants includes a delivery catheter and an extension member protruding from a distal end of the delivery catheter. The delivery device further includes a control arm assembly having pairs of control arms. Each pair includes a proximal control arm drivable from a handle assembly of the delivery device and a distal arm coupled to a distal end of the proximal control arm and a distal end of the extension member. Proximally driving each of the proximal control arms of the control arm assembly results in expansion of the control arm assembly and corresponding expansion of a cardiac valve repair implant coupled to the control arm assembly.Type: GrantFiled: June 6, 2023Date of Patent: April 16, 2024Assignee: VERSA VASCULAR INC.Inventors: Jeremy J. Boyette, Daniel T. Wallace, Juan Granada, Peter W. Gregg, Spencer C. Noe, Evelyn N. Haynes, Andrew Backus
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Publication number: 20240081991Abstract: Delivery systems for expandable and stented implants include adjustable tensioning members that control the expansion of the implant along the length of the implant. The tensioning members are wound onto one or more rotors located on the distal segment of the delivery system, which are rotated to unwind the tensioning members and incrementally expand the implant. Positioning mechanisms are also provided to adjust the position and orientation of the implant during delivery.Type: ApplicationFiled: February 10, 2022Publication date: March 14, 2024Inventors: Daniel T. Wallace, Peter W. Gregg, Jeremy J. Boyette, Evelyn N. Haynes, Spencer C. Noe, Diana L. Chu
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Publication number: 20240000566Abstract: A replacement heart valve comprises a unibody, folded, double-wall stent, with a stent cover and a leaflet valve attached to the inner lumen of the stent. The heart valve is delivered using a multi-pulley, suture-based stent restraint assembly provided by fixed guide openings or structures along the distal end of the delivery system that independently permits expansion of the distal and proximal ends of the outer wall of the stent, and control of the inner wall expansion simultaneously with or separately from the expansion of the outer wall.Type: ApplicationFiled: September 18, 2023Publication date: January 4, 2024Inventors: Daniel T. Wallace, Jeremy J. Boyette, Peter W. Grett, Spencer C. Noe, Evelyn N. Haynes
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Patent number: 11826251Abstract: A prosthetic valve delivery device includes a handle and a delivery catheter. The delivery catheter includes a central elongate member extending from the handle and a proximal sheath configured to slide over and relative to the central elongate member. The proximal sheath is connected to a hollow helical strand, and the hollow helical strand is configured to rotate to retract the proximal sheath and expose at least a portion of the prosthetic valve.Type: GrantFiled: January 18, 2019Date of Patent: November 28, 2023Assignee: Cephea Valve Technologies, Inc.Inventors: Peter Gregg, Evelyn N. Haynes, Dan Wallace, Aaron Grogan
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Publication number: 20230320854Abstract: A delivery device for cardiac valve repair implants includes a delivery catheter and an extension member protruding from a distal end of the delivery catheter. The delivery device further includes a control arm assembly having pairs of control arms. Each pair includes a proximal control arm drivable from a handle assembly of the delivery device and a distal arm coupled to a distal end of the proximal control arm and a distal end of the extension member. Proximally driving each of the proximal control arms of the control arm assembly results in expansion of the control arm assembly and corresponding expansion of a cardiac valve repair implant coupled to the control arm assembly.Type: ApplicationFiled: June 6, 2023Publication date: October 12, 2023Applicant: Versa Vascular Inc.Inventors: Jeremy J. BOYETTE, Daniel T. WALLACE, Juan GRANADA, Peter W. GREGG, Spencer C. NOE, Evelyn N. HAYNES, Andrew BACKUS
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Patent number: 11759319Abstract: A replacement heart valve comprises a unibody, folded, double-wall stent, with a stent cover and a leaflet valve attached to the inner lumen of the stent. The heart valve is delivered using a multi-pulley, suture-based stent restraint assembly provided by fixed guide openings or structures along the distal end of the delivery system that independently permits expansion of the distal and proximal ends of the outer wall of the stent, and control of the inner wall expansion simultaneously with or separately from the expansion of the outer wall.Type: GrantFiled: December 13, 2021Date of Patent: September 19, 2023Assignee: Occam Labs LLCInventors: Daniel T. Wallace, Jeremy J. Boyette, Peter W. Gregg, Spencer C. Noe, Evelyn N. Haynes
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Publication number: 20230277307Abstract: A replacement heart valve comprises one or more stent frame features, including inset barbs, ring attachment structures or attachment tabs.Type: ApplicationFiled: December 12, 2022Publication date: September 7, 2023Inventors: Spencer C. Noe, Daniel T. Wallace, Jeremy J. Boyette, Peter W. Gregg, Evelyn N. Haynes, Ian Mahaffey
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Publication number: 20220323213Abstract: A replacement heart valve comprises a unibody, folded, double-wall stent, with a stent cover and a leaflet valve attached to the inner lumen of the stent. The heart valve is delivered using a multi-pulley, suture-based stent restraint assembly provided by fixed guide openings or structures along the distal end of the delivery system that independently permits expansion of the distal and proximal ends of the outer wall of the stent, and control of the inner wall expansion simultaneously with or separately from the expansion of the outer wall.Type: ApplicationFiled: December 13, 2021Publication date: October 13, 2022Applicant: Occam Labs LLCInventors: Daniel T. Wallace, Jeremy J. Boyette, Peter W. Gregg, Spencer C. Noe, Evelyn N. Haynes
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Publication number: 20220249265Abstract: Delivery systems for expandable and stented implants include adjustable tensioning members that control the expansion of the implant along the length of the implant. The tensioning members are wound onto one or more rotors located on the distal segment of the delivery system, which are rotated to unwind the tensioning members and incrementally expand the implant. Positioning mechanisms are also provided to adjust the position and orientation of the implant during delivery.Type: ApplicationFiled: February 11, 2022Publication date: August 11, 2022Applicant: Occam Labs LLCInventors: Daniel T. Wallace, Peter W. Gregg, Jeremy J. Boyette, Evelyn N. Haynes, Spencer C. Noe
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Publication number: 20220183840Abstract: A valve implant includes an occlusive assembly and a frame coupled to the occlusive assembly. The frame transitions from a collapsed state to an expanded state about a central longitudinal axis and transitioning from the collapsed state to the expanded state causes a proximal end of the frame to expand radially outward from the central longitudinal axis. The valve implant further includes an outer sheet supported on a proximal portion of the frame. The occlusive assembly is supported on a distal portion of the frame such that the inner sheet extends about the central longitudinal axis and an annular opening is defined between the outer sheet and the inner sheet when the frame is in the expanded state.Type: ApplicationFiled: December 14, 2021Publication date: June 16, 2022Applicant: Versa Vascular Inc.Inventors: Daniel T. WALLACE, Juan GRANADA, Jeremy J. BOYETTE, Peter W. GREGG, Spencer C. NOE, Evelyn N. HAYNES
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Patent number: 11266502Abstract: A cardiac valve repair implant, wherein the implant includes a central occluder, and frame and a thin sheet. The central occluder includes a central longitudinal axis. The frame extends proximally from the central occluder and is centered about and forms a circumference around the central longitudinal axis of the central occluder. The frame self-biases from a collapsed state to an expanded state. A proximal end of the frame projects proximally when the frame is in the collapsed state. The proximal end of the frame projects radially outward away from the central longitudinal axis of the central occluder when the frame is in the expanded state. The thin sheet is supported on a proximal portion of the frame. When the frame is in the expanded state, the thin sheet forms an annular surface defining an inner circular opening centered about the central longitudinal axis of the central occluder.Type: GrantFiled: April 12, 2021Date of Patent: March 8, 2022Assignee: Versa Vascular Inc.Inventors: Daniel T. Wallace, Juan Granada, Jeremy J. Boyette, Peter W. Gregg, Spencer C. Noe, Evelyn N. Haynes
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Patent number: 11246726Abstract: Delivery systems for expandable and stented implants include adjustable tensioning members that control the expansion of the implant along the length of the implant. The tensioning members are wound onto one or more rotors located on the distal segment of the delivery system, which are rotated to unwind the tensioning members and incrementally expand the implant. Positioning mechanisms are also provided to adjust the position and orientation of the implant during delivery.Type: GrantFiled: February 18, 2021Date of Patent: February 15, 2022Assignee: Occam Labs LLCInventors: Daniel T. Wallace, Peter W. Gregg, Jeremy J. Boyette, Evelyn N. Haynes, Spencer C. Noe
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Patent number: 11197755Abstract: A replacement heart valve comprises a unibody, folded, double-wall stent, with a stent cover and a leaflet valve attached to the inner lumen of the stent. The heart valve is delivered using a multi-pulley, suture-based stent restraint assembly provided by fixed guide openings or structures along the distal end of the delivery system that independently permits expansion of the distal and proximal ends of the outer wall of the stent, and control of the inner wall expansion simultaneously with or separately from the expansion of the outer wall.Type: GrantFiled: October 28, 2020Date of Patent: December 14, 2021Assignee: Occam Labs LLCInventors: Daniel T. Wallace, Jeremy J. Boyette, Peter W. Gregg, Spencer C. Noe, Evelyn N. Haynes
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Publication number: 20210322166Abstract: The present disclosure describes devices, systems, and methods for intravascularly delivering an implantable device to a targeted anatomical site such as the mitral annulus. A delivery system includes a delivery member coupled to a handle assembly and extending distally from the handle assembly. A delivery catheter is concentrically positioned within an outer member and configured to advance the intravascular device relative to the outer member. The delivery catheter includes a distal can structure configured to house at least a portion of the intravascular device in a compressed, pre-deployed position.Type: ApplicationFiled: April 15, 2021Publication date: October 21, 2021Inventors: Randolf von Oepen, Hugo A. Cobar, Francisco Valencia, Russell Patrick Shelton, Henry Thek Chan, Evelyn N. Haynes, Kim Lela Hayenga, Curtis James Caton, Gregory Matthew Hyde, Austin Michael Sherman, Gabriel H. Monteon
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Publication number: 20200345493Abstract: A prosthetic valve delivery device includes a handle and a delivery catheter. The delivery catheter includes a central elongate member extending from the handle and a proximal sheath configured to slide over and relative to the central elongate member. The proximal sheath is connected to a hollow helical strand, and the hollow helical strand is configured to rotate to retract the proximal sheath and expose at least a portion of the prosthetic valve.Type: ApplicationFiled: January 18, 2019Publication date: November 5, 2020Applicant: Cephea Valve Technologies, Inc.Inventors: Peter Gregg, Evelyn N. Haynes, Dan Wallace, Aaron Grogan
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Publication number: 20200323634Abstract: An intravascular device delivery system has an elongated member, a guidewire receiving member, and a distal cap longitudinally fixed to a guidewire receiving member. The distal cap includes an insert having an elongate member, a rim member radially separated from the elongate member, and a wall member supporting the rim member, the wall member being disposed between the rim member and the elongate member.Type: ApplicationFiled: October 30, 2018Publication date: October 15, 2020Applicants: Cephea Valve Technologies, Inc., EVALVE, INC.Inventors: Randolf Von Oepen, Timothy C. Reynolds, Evelyn N. Haynes, Sean A. McNiven, Dan .. Wallace, Peter Gregg, John Hill, David Tung