Abstract: Techniques and reconstruction systems for knotless tissue fixation using a driver with a cannulated interference device or fixation device preloaded on the shaft of the driver. An eyelet, adjustable in size, is formed of a loading suture provided at the distal end of the driver shaft. A working suture attached to the tissue to be fixed is passed through the eyelet. The size of the eyelet is adjusted by the user once the working suture is passed through the eyelet, to capture the working suture with the eyelet. The cannulated interference device is then advanced down the shaft to secure the working suture in a bone socket.

Abstract: Instrumentation for an open or arthroscopic Latarjet procedure that allows more control graft handling during the formation of the hole and proper positioning parallel to the articulating bone surface. The surgical instrumentation of the present invention includes an osteotome with a plurality of markings and a depth stop, a drill guide with jaws configured to securely engage an outer surface of the graft, and an offset guide to position the graft to the bone.

Abstract: A suture washer construct for fixation of soft tissue to bone, or of soft tissue to soft tissue. The suture washer provides enhanced fixation and soft tissue protection. The washer consists of a cannulated metal washer with a series of through passages running around the body of the washer, to allow one or more flexible strands (for example, one or more sutures) to extend through the passages. The washer is threaded over a fixation device (screw or anchor) before insertion. Once the fixation device (screw or anchor) is inserted, the surgeon has the ability to pass the flexible strand (suture) as with a typical anchor.

Abstract: A method and device for knotless fixation of tissue. A swivel anchor having a rotatable implant is used to capture suture for surgical tissue repair without requiring suture knots. The implant may be provided with a conical metal tip which is self-punching and avoids the need for pre-drilling a hole in bone. The implant includes a closed aperture to allow free sliding of a suture strand. The swivel anchor is secured in a hole in bone by advancing a fixation device, such as a cannulated interference screw, over the body of the implant.

Abstract: A bone plate with a new design that prevents the bushing from rotating and/or dislodging from the screw hole during screw insertion. The plate is provided with through-holes having internal walls with at least one flat that is configured to align with a corresponding flat provided on the outer wall of the bushing. The bushing is inserted by orienting the bushing in a direction perpendicular to the through-hole of the plate so that the center of the bushing is aligned with the center of the through-hole and the flat on the bushing is aligned with the flat on the through-hole of the bone plate. The bushing is introduced into the through hole until the centers are aligned, and then the bushing is rotated about 90 degrees so that the bushing is captured within the through-hole of the plate. Once captured, the bushing cannot rotate, dislodge from, or come out of the plate unless the bushing is turned 90 degrees.

Abstract: Instrumentation for an open or arthroscopic Latarjet procedure that allows more control graft handling during the formation of the hole and proper positioning parallel to the articulating bone surface. The surgical instrumentation of the present invention includes an osteotome with a plurality of markings and a depth stop, a drill guide with jaws configured to securely engage an outer surface of the graft, and an offset guide to position the graft to the bone.

Abstract: Instrumentation for an open or arthroscopic Latarjet procedure that allows more control graft handling during the formation of the hole and proper positioning parallel to the articulating bone surface. The surgical instrumentation of the present invention includes an osteotome with a plurality of markings and a depth stop, a drill guide with jaws configured to securely engage an outer surface of the graft, and an offset guide to position the graft to the bone.

Abstract: A fenestrated suture anchor for fixation of tissue to bone. In a preferred embodiment, the suture includes an implant, such a swivel implant with a forked tip for capturing suture. The implant is secured in a hole in bone by advancing a fixation device, such as a cannulated interference screw, to engage and fully seat the implant. The cannulated fixation device is provided with a plurality of openings or fenestrations of various dimensions and geometries to provide multiple pathways through the anchor (i.e., though the interior of the body and through the fenestrations) to allow blood to flow to increase the healing zone, for example, for rotator cuff repair, while also promoting bone in-growth.

Abstract: A method and device for knotless fixation of tissue. A swivel anchor having a rotatable implant is used to capture suture for surgical tissue repair without requiring suture knots. The implant may be provided with a conical metal tip which is self-punching and avoids the need for pre-drilling a hole in bone. The implant includes a closed aperture to allow free sliding of a suture strand. The swivel anchor is secured in a hole in bone by advancing a fixation device, such as a cannulated interference screw, over the body of the implant.

Abstract: A method and device for knotless fixation of tissue. A swivel anchor having a rotatable implant is used to capture suture for surgical tissue repair without requiring suture knots. The implant may be provided with a conical metal tip which is self-punching and avoids the need for pre-drilling a hole in bone. The implant includes a closed aperture to allow free sliding of a suture strand. The swivel anchor is secured in a hole in bone by advancing a fenestrated fixation device, such as a cannulated interference screw, over the body of the implant.

Abstract: Techniques and reconstruction systems for knotless tissue fixation using a driver with a cannulated interference device or fixation device preloaded on the shaft of the driver. An eyelet, adjustable in size, is formed of a loading suture provided at the distal end of the driver shaft. A working suture attached to the tissue to be fixed is passed through the eyelet. The size of the eyelet is adjusted by the user once the working suture is passed through the eyelet, to capture the working suture with the eyelet. The cannulated interference device is then advanced down the shaft to secure the working suture in a bone socket.

Abstract: A bone plate with a new design that prevents the bushing from rotating and/or dislodging from the screw hole during screw insertion. The plate is provided with through-holes having internal walls with at least one flat that is configured to align with a corresponding flat provided on the outer wall of the bushing. The bushing is inserted by orienting the bushing in a direction perpendicular to the through-hole of the plate so that the center of the bushing is aligned with the center of the through-hole and the flat on the bushing is aligned with the flat on the through-hole of the bone plate. The bushing is introduced into the through hole until the centers are aligned, and then the bushing is rotated about 90 degrees so that the bushing is captured within the through-hole of the plate. Once captured, the bushing cannot rotate, dislodge from, or come out of the plate unless the bushing is turned 90 degrees.

Abstract: A pound-in suture anchor that self-twists upon insertion into a drilled pilot hole. The suture anchor is provided with threads that allow the anchor to be inserted within a pilot hole without tapping the pilot hole and without turning (or twisting) the driver handle. The suture anchor of the present invention is designed to twist by itself as it is advanced into the pre-drilled pilot hole by malleting the driver handle. The suture anchor has an eyelet for receiving one or more suture strands for securing soft tissue to bone.

Abstract: Instrumentation for an open or arthroscopic Latarjet procedure that allows more control graft handling during the formation of the hole and proper positioning parallel to the articulating bone surface. The surgical instrumentation of the present invention includes an osteotome with a plurality of markings and a depth stop, a drill guide with jaws configured to securely engage an outer surface of the graft, and an offset guide to position the graft to the bone.

Abstract: A fenestrated suture anchor for fixation of tissue to bone. In a preferred embodiment, the suture includes an implant, such a swivel implant with a forked tip for capturing suture. The implant is secured in a hole in bone by advancing a fixation device, such as a cannulated interference screw, to engage and fully seat the implant. The cannulated fixation device is provided with a plurality of openings or fenestrations of various dimensions and geometries to provide multiple pathways through the anchor (i.e., though the interior of the body and through the fenestrations) to allow blood to flow to increase the healing zone, for example, for rotator cuff repair, while also promoting bone in-growth.

Abstract: A method and device for knotless fixation of tissue. A swivel anchor having a rotatable implant is used to capture suture for surgical tissue repair without requiring suture knots. The implant may be provided with a conical metal tip which is self-punching and avoids the need for pre-drilling a hole in bone. The implant includes a closed aperture to allow free sliding of a suture strand. The swivel anchor is secured in a hole in bone by advancing a fenestrated fixation device, such as a cannulated interference screw, over the body of the implant.

Abstract: A method and device for knotless fixation of tissue. A swivel anchor having a rotatable implant is used to capture suture for surgical tissue repair without requiring suture knots. The implant may be provided with a conical metal tip which is self-punching and avoids the need for pre-drilling a hole in bone. The implant includes a closed aperture to allow free sliding of a suture strand. The swivel anchor is secured in a hole in bone by advancing a fixation device, such as a cannulated interference screw, over the body of the implant.

Abstract: A surgical fastener assembly for coupling first and second bone portions across a fracture therebetween is disclosed. In one embodiment of the present invention, the surgical fastener assembly includes an anchor that has a first externally threaded portion disposed in the first bone portion and a second portion which is at least partially disposed in the second bone portion. At least one pin is operably associated with the first portion of the anchor such that when the pin is in a retracted position the pin is disposed within the anchor and when the pin is in an extended position at least a portion of the pin extends outward from the anchor. An actuator is disposed within the anchor and is operably coupled with the at least one pin. A guide is adapted to be fixedly secured to the second bone portion and includes a sleeve. The second portion of the anchor is received within the sleeve. A fastener is provided that has a head portion and an externally threaded shank portion.

Abstract: The intramedullary nail system includes an intramedullary nail for insertion in the femur. The nail has an axial bore and an intersecting transverse bore. A lag screw is inserted through the transverse bore and turned into the head of the femur. A slotted sleeve is inserted over the lag screw and through the transverse bore with the slots aligned with the axial bore. A sleeve lock is inserted into the axial bore and has a locking tab which engages the slots in the sleeve preventing rotational and longitudinal movement between the sleeve and the nail. A compression screw is turned into the trailing end of the lag screw and engages the encircling sleeve to provide longitudinal translation between the lag screw and sleeve to apply compressive force across a fracture.

Abstract: An intramedullary nail system for reducing and fixing fractures in long bones includes an elongated intramedullary nail having radial portals about the circumference. Tang assemblies are slidably telescoped inside the nail with resilient tangs which are deployed through the portals to interlock the nail and the portions of the bone.