Patents by Inventor Kevin T. Stone
Kevin T. Stone 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: 20220054123Abstract: Methods of attaching a soft tissue to an adjacent bone at a defect site are provided. An adjustable loop region of a flexible construct contained in a bore defined by a fastener is passed through a tissue. The adjustable loop is passed through the tissue. The fastener is passed back through the adjustable loop to fold the adjustable loop upon itself. The fastener is attached to the bone. An adjusting arm on the flexible construct is engaged to reduce the size of the adjustable loop and secure the soft tissue to the bone.Type: ApplicationFiled: November 1, 2021Publication date: February 24, 2022Inventors: Ryan A. Kaiser, Gregory J. Denham, Kevin T. Stone
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Publication number: 20220015757Abstract: A suture construction and method for forming a suture construction is disclosed. The construction utilizes a suture having an enlarged central body portion defining a longitudinal passage. First and second ends of the suture are passed through first and second apertures associated with the longitudinal passage to form a pair of loops. Portions of the suture lay parallel to each other within the suture. Application of tension onto the suture construction causes constriction of the longitudinal passage, thus preventing relative motions of the captured portions of the suture.Type: ApplicationFiled: October 1, 2021Publication date: January 20, 2022Inventors: Kevin T. Stone, Jason D. Meridew
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Publication number: 20210378656Abstract: An anchoring system includes an anchor including an anchor body and a distal member located at a distal end of the anchor body, the distal member having a suture receiving aperture; and an implant delivery device, comprising: a cannulated outer shaft, the cannulated outer shaft configured to engage a proximal end of the anchor body for driving the anchor into a bore; and an inner shaft slidably received in the cannulated outer shaft, wherein a distal end of the inner shaft is extendable distally beyond a distal end section of the cannulated outer shaft such that, when the cannulated outer shaft is engaging the proximal end of the anchor body, the distal end of the inner shaft is extendable through the anchor body to a distance beyond the distal end of the anchor body to engage a suture located within the suture receiving aperture, wherein the anchoring system is configured such that the suture can be tensioned at a location within the bore distal from the anchor body before the anchor body is implanted withinType: ApplicationFiled: August 19, 2021Publication date: December 9, 2021Inventors: Christopher M. Palese, Jacy C. Hoeppner, Jason D. Meridew, Kevin T. Stone
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Patent number: 11185320Abstract: Methods of attaching a soft tissue to an adjacent bone at a defect site are provided. An adjustable loop region of a flexible construct contained in a bore defined by a fastener is passed through a tissue. The adjustable loop is passed through the tissue. The fastener is passed back through the adjustable loop to fold the adjustable loop upon itself. The fastener is attached to the bone. An adjusting arm on the flexible construct is engaged to reduce the size of the adjustable loop and secure the soft tissue to the bone.Type: GrantFiled: September 29, 2017Date of Patent: November 30, 2021Assignee: Biomet Sports Medicine, LLCInventors: Ryan A. Kaiser, Gregory J. Denham, Kevin T. Stone
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Publication number: 20210361286Abstract: A soft tissue repair device can include a housing having a handle, a deployment system having an actuation member, and an insertion system having an inserter and a slider. The slider can be coupled to the actuation member and movable relative to the inserter between deployed and retracted positions. First and second anchors can be carried on an external surface of the slider such that the anchors are spaced apart and portions of the anchors are coaxial with the slider and each other. A flexible strand can couple the anchors. The insertion system can cooperate with the deployment system to move the slider to the deployed position to deploy the first anchor upon activating the actuation member a first time, and to move the slider to the deployed position from the retracted position to deploy the second anchor upon actuating the actuation member a second time after the first time.Type: ApplicationFiled: August 3, 2021Publication date: November 25, 2021Inventors: Kevin T. Stone, Nathan M. Sautter, Brian K. Berelsman, Jeffery D. Arnett, Joshua A. Butters, Dylan M. Hushka, Nicholas R. Slater
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Patent number: 11166732Abstract: A guide for drilling a tunnel in a knee joint having intercondylar roof and tibial eminence. The guide can comprise a guide assembly having a positioning member including an inferior end, and a guide arm extending from the positioning member including a trochlear tip; and a drill sleeve having a body attached to the inferior end, an aperture extending along a drilling axis, and a distal end having a patient-specific surface configured to engage an anterior surface of the tibia. A method of producing a tibial tunnel can comprise inserting a trochlear tip of a guide arm between the tibial eminence and the intercondylar roof, adjusting a position of a positioning member connected to the guide arm, engaging a patient-specific tip of a drill sleeve connected to the positioning member with a surface of a tibia, and inserting a drill bit through the drill sleeve to drill a tibial tunnel.Type: GrantFiled: July 7, 2017Date of Patent: November 9, 2021Assignee: Biomet Manufacturing, LLCInventors: William Maxson, Kevin T. Stone, Jason D. Meridew, Nathan M. Sautter
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Patent number: 11116493Abstract: An anchoring system includes an anchor including an anchor body and a distal member located at a distal end of the anchor body, the distal member having a suture receiving aperture; and an implant delivery device, comprising: a cannulated outer shaft, the cannulated outer shaft configured to engage a proximal end of the anchor body for driving the anchor into a bore; and an inner shaft slidably received in the cannulated outer shaft, wherein a distal end of the inner shaft is extendable distally beyond a distal end section of the cannulated outer shaft such that, when the cannulated outer shaft is engaging the proximal end of the anchor body, the distal end of the inner shaft is extendable through the anchor body to a distance beyond the distal end of the anchor body to engage a suture located within the suture receiving aperture, wherein the anchoring system is configured such that the suture can be tensioned at a location within the bore distal from the anchor body before the anchor body is implanted withinType: GrantFiled: May 23, 2018Date of Patent: September 14, 2021Assignee: Biomet Manufacturing, LLCInventors: Christopher M. Palese, Jacy C. Hoeppner, Jason D. Meridew, Kevin T. Stone
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Patent number: 11116495Abstract: A soft tissue repair assembly. The assembly includes a flexible member having first and second ends, and a strand passing through the flexible member. The strand has first and second strand ends extending through the flexible member, such that pulling at least one of the first and second strand ends changes the flexible member from a first shape suitable for insertion through soft tissue to a second shape suitable for securely lodging the soft tissue repair assembly relative to soft tissue.Type: GrantFiled: January 18, 2019Date of Patent: September 14, 2021Assignee: Biomet Sports Medicine, LLCInventors: Kevin T. Stone, Troy M. Walters, Andrew Holst
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Patent number: 11109857Abstract: A soft tissue repair device can include a housing having a handle, a deployment system having an actuation member, and an insertion system having an inserter and a slider. The slider can be coupled to the actuation member and movable relative to the inserter between deployed and retracted positions. First and second anchors can be carried on an external surface of the slider such that the anchors are spaced apart and portions of the anchors are coaxial with the slider and each other. A flexible strand can couple the anchors. The insertion system can cooperate with the deployment system to move the slider to the deployed position to deploy the first anchor upon activating the actuation member a first time, and to move the slider to the deployed position from the retracted position to deploy the second anchor upon actuating the actuation member a second time after the first time.Type: GrantFiled: January 23, 2019Date of Patent: September 7, 2021Assignee: Biomet Sports Medicine, LLCInventors: Kevin T. Stone, Nathan M. Sautter, Brian K. Berelsman, Jeffery D. Arnett, Joshua A. Butters, Dylan M. Hushka, Nicholas R. Slater
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Patent number: 11096684Abstract: A self-locking adjustable loop construction and a method of forming the construction are disclosed. The construction can include a flexible member having a first end, a second end and a first portion therebetween. The first end can be passed back through the first portion at a first point such that the first end passes through the first portion from a first side of the flexible member to a second opposite side of the flexible member. The first end can be passed through the first portion at a second point spaced apart from the first point such that the first end passes through the first portion from the second side to the first side so as to place the second end outside of the first portion.Type: GrantFiled: May 7, 2018Date of Patent: August 24, 2021Assignee: Biomet Sports Medicine, LLCInventors: Kevin T. Stone, Gregory J. Denham
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Publication number: 20210228203Abstract: An apparatus can include a first flexible member having first and second ends and a first body extending therebetween, where the first body defines a first passage portion. A second flexible member can have first and second ends and a second body extending therebetween, where the second body defines second and third passage portions. The first end of the first flexible member passes into and through the second passage portion such that the first end extends outside of the second passage portion, and the second end of the first flexible member passes into and through the third passage portion such that the second end extends outside of the third passage portion. The first and second ends of the second flexible member pass into and through the first passage portion to form a self-locking adjustable flexible member construct.Type: ApplicationFiled: April 16, 2021Publication date: July 29, 2021Inventors: Gregory J. Denham, Kevin T. Stone, Zachary Wagner
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Patent number: 11065103Abstract: A system for use in graft fixation in a knee reconstruction procedure can include a first femoral fixation member adapted to be retained relative to a first end of a femoral tunnel and a first self-locking adjustable flexible member construct having a passage portion with a pair of free ends and a pair of self-locking adjustable loops. The first flexible member construct can be interconnected to the first femoral fixation member. A second femoral fixation member can be coupled to the first flexible member construct and can be adapted to be positioned in the femoral tunnel relative to a second end of the femoral tunnel adjacent a joint space between the femur and a tibia. A second self-locking adjustable flexible member construct having a passage portion with a pair of free ends and a pair of self-locking adjustable loops can be interconnected to the second femoral fixation member.Type: GrantFiled: April 18, 2018Date of Patent: July 20, 2021Assignee: Biomet Sports Medicine, LLCInventors: Brian K. Berelsman, Nathanael K. Conner, Gregory J. Denham, Kevin T. Stone
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Patent number: 11039826Abstract: An apparatus can include a first flexible member having first and second ends and a first body extending therebetween, where the first body defines a first passage portion. A second flexible member can have first and second ends and a second body extending therebetween, where the second body defines second and third passage portions. The first end of the first flexible member passes into and through the second passage portion such that the first end extends outside of the second passage portion, and the second end of the first flexible member passes into and through the third passage portion such that the second end extends outside of the third passage portion. The first and second ends of the second flexible member pass into and through the first passage portion to form a self-locking adjustable flexible member construct.Type: GrantFiled: March 9, 2018Date of Patent: June 22, 2021Assignee: Biomet Sports Medicine, LLCInventors: Gregory J. Denham, Kevin T. Stone, Zachary Wagner
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Publication number: 20210177397Abstract: A method and apparatus for surgically repairing a tear in soft tissue is disclosed. A plurality of collapsible tubes are positioned about the suture. The collapsible tubes are pushed through soft tissue and orthopedic mesh on opposite sides of a tear in soft tissue. When tension is applied to the suture, the tubes are compressed to fix the suture to the soft tissue and draw the soft tissue portions together.Type: ApplicationFiled: March 3, 2021Publication date: June 17, 2021Inventors: Kevin T. Stone, Gregory J. Denham, Ryan Harper, Ryan A. Kaiser
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Patent number: 10987099Abstract: A method for securing a strand to a fixation member for arthroscopic fixation, wherein the fixation member includes a channel on an exterior surface and an aperture therethrough. The method includes passing a strand having first and second ends through a flexible sleeve, passing the sleeve through the aperture of the fixation member in a first direction, tensioning the strand, and pulling the sleeve in a second direction different than the first direction to secure the sleeve to the fixation member without tying the strand on the fixation member.Type: GrantFiled: April 4, 2018Date of Patent: April 27, 2021Assignee: Biomet Sports Medicine, LLCInventors: Kevin T. Stone, Gregory J. Denham, Ryan Harper
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Publication number: 20210106322Abstract: An anchoring system can use an implant delivery device to deploy an implant into a pre-drilled bore, to secure one or more sutures between a threaded outer surface of an implant body and a wall of the bore. The implant delivery device can controllably rotate the implant about its longitudinal axis. The implant can further include a distal member positioned distal to the implant body and freely rotatable about the longitudinal axis. The implant delivery device can include a finger extending distally from a distal end of an inner shaft. The implant delivery device can controllably translate a wire between a distally extended position, at which the wire can form a closed loop with the finger and a distal end of the inner shaft, and a proximally retracted position, at which the wire can be at least partially retracted into the distal end of the inner shaft.Type: ApplicationFiled: October 22, 2020Publication date: April 15, 2021Inventors: Jacy C. Hoeppner, Kevin T. Stone, Jason Meridew, Christopher Palese
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Patent number: 10973507Abstract: A method and apparatus for surgically repairing a tear in soft tissue is disclosed. A plurality of collapsible tubes are positioned about the suture. The collapsible tubes are pushed through soft tissue and orthopedic mesh on opposite sides of a tear in soft tissue. When tension is applied to the suture, the tubes are compressed to fix the suture to the soft tissue and draw the soft tissue portions together.Type: GrantFiled: March 30, 2018Date of Patent: April 13, 2021Assignee: Biomet Sports Medicine, LLCInventors: Kevin T. Stone, Gregory J. Denham, Ryan Harper, Ryan A. Kaiser
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Patent number: 10966704Abstract: Disclosed are systems and methods for performing soft tissue repair by delivering a suture through the soft tissue and underlying bone at two or more fixation points that can be spaced apart from each other and connected by the suture on the surface of the soft tissue. The two or more fixation points and the suture connected there between can be a continuous strand of suture, which can form a stitching assembly that can provide sufficient fixation in the bone and minimize disruption to the soft tissue and bone. In an example, the suture can be delivered into the bone using one or more implants that can catch the suture to drive the suture through the tissue and into the bone. The one or more implants can include structural features to aid in securing the suture to the implant. In an example, the suture can include structural features or be formed of a material to aid in fixation of the suture in the bone.Type: GrantFiled: November 9, 2017Date of Patent: April 6, 2021Assignee: Biomet Sports Medicine, LLCInventors: Antony J. Lozier, Matthew Prygoski, Daniel P. Murphy, Hallie E. Brinkerhuff, Michael Giordano, J. Craig Fryman, Alex McMullen, Kevin T. Stone
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Patent number: 10932770Abstract: A soft tissue repair device. The device includes an inserter having a distal portion, a first anchor carried externally onto the distal portion, a second anchor carried externally onto the distal portion, and a flexible strand coupling the first and second anchors and forming an adjustable knotless loop.Type: GrantFiled: February 7, 2018Date of Patent: March 2, 2021Assignee: Biomet Sports Medicine, LLCInventors: Kevin T. Stone, Ryan A. Kaiser, Nathan M. Sautter, Andrew Holst
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Patent number: 10912551Abstract: A flexible anchor for coupling a suture to a bone is provided. The anchor is composed of non-woven electrospun fibers and has an elongate tubular body that extends from a first end to a second end. The anchor is configured to receive a suture that enters the anchor through a first aperture and exits the anchor through a second aperture. When free ends of the suture are pulled, the anchor transitions from a first configuration to a second anchoring configuration.Type: GrantFiled: April 19, 2018Date of Patent: February 9, 2021Assignee: Biomet Sports Medicine, LLCInventors: Karen S. Troxel, Kevin T. Stone