An adjustable fixation system for coupling a tissue or graft to bone is disclosed including a suture construct including a first limb, a second limb and a body therebetween. The body is continuously braided with the first and second limbs and has a longitudinal passage therethrough. The first and second limbs define a braided portion including a braided core. The suture construct is configured to form at least one adjustable loop formed by passing the first limb between braids of the suture construct, along the longitudinal passage and back out between braids of the adjustable suture construct. Tension on at least one of the first or second limbs reduces a diameter of the longitudinal passage around a length of the first limb and thereby the braided core disposed along the body longitudinal passage and knotlessly locks the adjustable loop.

A graft fixation device comprising: a graft separator comprising a distal end, a proximal end, a cavity disposed between the distal end and the proximal end, and at least one guide rib disposed radially outboard of the cavity and extending between the distal end and the proximal end; and an interference screw rotatably mountable within the cavity, the interference screw comprising a distal end, a proximal end, and a screw thread disposed intermediate thereof, the screw thread disposed radially outboard of at least a portion of the graft separator and radially inboard of the at least one rib.

A graft tensioning tool includes an elongate frame having a proximal end, a distal end, and an axial passage extending therethrough. The distal end is configured to detachably engage a tunnel ring at an entrance to a tunnel in bone, and the frame includes a first suture puller and a second suture puller. Each suture puller detachably engages a length of suture emerging through the attached to suture and/or a soft tissue implant in the bone tunnel. A tensioner on the elongate frame displaces the suture pullers in a proximal direction to apply a controlled tension to the suture lengths and/or implant. A tension gauge measures tension applied to the suture pullers, and a locking tool is configured to engage the suture lock through the axial passage of the frame, allowing a user to fix the suture ends to bone when a target tension is attained.

Disclosed herein are embodiments of a reinforced collagen matrix device for superior capsule repair. The device can include a collagen matrix cover, a first reinforcement strip positioned along the first side of the cover, and a second reinforcement strip positioned along the second side of the cover. A first end and a second end of the first and second reinforcement strips can extend past the first end and the second end of the collagen matrix cover so as not be covered by the collagen matrix cover. The collagen matrix cover can be folded along a first fold and a second fold and extend over the first and second reinforcement strips so that a portion of the first and second reinforcement strips are covered by the collagen matrix cover along a portion of the length of the first reinforcement strip.

This disclosure relates to expandable implants and methods of using expandable implants for tissue fixation and repair.

An implantable article for attaching tendons and/or ligaments to bone and/or cartilage, assemblies thereof, and methods of use thereof are provided. The article is configured for attaching at least one of a tendon and a ligament to at least one of bone and cartilage. The article comprises a membrane comprising a biological material that promotes cell growth. The membrane comprises a first end, a second end, a cavity, and an expandable portion. The second end is configured to be attached to at least one of the bone, the cartilage, the tendon, and the ligament. The cavity extends from the first end to the second end. The cavity is configured to receive the cell growth mixture from the open end. The expandable portion is positioned intermediate the first end and the second end and is configured to increase in size responsive to the cell growth mixture entering the cavity.

The graft fixation device with tangs combines a fixation screw body with tangs that extend from an internal position to an external position, the tangs piercing and gripping the bone and the graft. The use of tangs overcomes the prior art limitations of relying exclusively on compression, which increased the risk of failure, including failure modes such as the graft sliding out of the hole.

Methods and devices are provided for anchoring a ligament or tendon to bone. In one embodiment, a biceps tenodesis system is provided and includes a sheath inserter tool, an expandable sheath configured to couple to the sheath inserter tool, an expander inserter tool, and an expander configured to couple to the expander inserter tool. The sheath inserter tool is configured to advance the expandable sheath, with a tendon disposed therearound, into a bone hole, and the expander inserter tool is configured to advance the expander through an outer shaft of the sheath inserter tool and to drive the expander into the sheath. The expander is configured to be received within a lumen extending at least partially through the expandable sheath to thereby expand the sheath. In this way, the system delivers the tendon or ligament into the bone hole and locks the sheath and tendon within the bone hole.

Disclosed herein are methods and devices for securing soft tissue to a rigid material such as bone. A tissue anchoring device is described that comprises an anchor body and a spreader such that tissue may be captured or compressed between outside surfaces on the anchor and inside surfaces of a bone tunnel to secure the tissue within the tunnel. Methods are described that enable use of the bone anchoring device to secure a tissue graft into the tibial and femoral bones during anterior cruciate ligament (“ACL”) reconstruction.

The instant disclosure is directed to methods of improving bone-soft tissue healing using biocompatible electrospun polymer fibers. In one embodiment, a method may include locating a portion of a subject's bone, affixing a tendon or ligament to the bone using a hardware fixture, and placing a patch comprising at least one electrospun polymer fiber in physical communication with both the bone and the tendon or ligament. In some embodiments, the bone may be a humerus, and the tendon or ligament may be a supraspinatus tendon. In certain embodiments, the patch may comprise substantially parallel electrospun polymer fibers, and may be placed such that the fibers are also substantially parallel with the long axis of the tendon or ligament.