Various exemplary devices, systems, and methods for knotless anchor temporary suture capture are provided. In general, an inserter tool is configured for knotless anchor insertion in a soft tissue repair surgical procedure. The inserter tool is configured to insert an anchor into a bone of a patient to secure a soft tissue relative to the bone. A suture coupled to the soft tissue is secured relative to the bone by being trapped between an exterior surface of the anchor and a bone surface defining a hole in the bone in which the anchor is positioned. The inserter tool and the anchor are configured to cooperate with one another to temporarily capture and lock the suture with respect to the anchor and the inserter tool before the anchor is secured in the bone hole.

Ligament injury is a common injury among both high-level and everyday athletes. There is increasing research demonstrating the factors that place individuals at increased risk of ligament injury. These include, biological, genetic, morphological, anatomic, neuromuscular, hormonal, gender, activity-related, environmental, and psychological factors among others. The present invention presents a novel native ligament-graft complex and method by which a native ligamentous or tendinous structure in the human or animal body may be supplemented in order to decrease risk of future injury. This invention involves supplementation of the native ligament in human or animal subjects through the use of autograft, allograft, biologic, and/or synthetic graft incorporation and fixation to native tissue for the purpose of increasing the threshold to injury for the native ligament.

The present disclosure relates to an anchor assembly. The anchor assembly includes an anchor defining a cavity and an opening to the cavity; and a headless insertion member configured for arrangement within the anchor cavity, the insertion member including a body having a threaded proximal portion, a non-threaded distal portion, and a cannulation extending a partial length of the insertion member. Other anchor assemblies, anchors, and delivery devices are also disclosed.

In one embodiment, the present invention is a system for repairing a meniscus including: a suture assembly including a first anchor, a second anchor, and a flexible suture connecting the first anchor and the second anchor, the flexible suture including a slide knot between the first anchor and the second anchor; and an inserter including a needle having a longitudinal extending bore and an open distal end, the bore being configured to receive the first anchor and the second anchor, a housing operatively connected to a proximal end of the needle, the housing having a lumen and a slot, the slot including a first portion, a second portion, a first shoulder and a second shoulder and a pusher configured to rotate and slide within the lumen of the housing and the longitudinal extending bore of the needle, the pusher having an extension extending through the slot and configured to be maneuverable through the first portion and second portion and engageable with the first shoulder and second shoulder.

Devices, systems and/or methods for repairing soft tissue adjacent a soft tissue repair site. In one embodiment, the repair device includes an anchor member having a base with at least four legs extending from the base. The base extends with a generally flat circular profile defining an upper surface and an underside surface with a central opening extending therethrough. Further, the at least four legs extend from the base with an elongated angled portion, the elongated angled portion being oriented at an angle less than seventy-five degrees relative to the underside surface of the base. With this arrangement, the anchor member may be fixated to soft tissue by rotating the base with a delivery tool so that the elongated angled portion of the at least four legs facilitates the anchor member sinking into the soft tissue and fixating thereto.

Methods and devices for transvascular prosthetic chordae tendinae implantation are disclosed. A catheter is advanced into the left atrium. From an atrium side, the catheter can be anchored to a superior surface of a mitral valve leaflet and a leaflet anchor can be advanced into the mitral valve leaflet to secure the mitral valve leaflet to a leaflet suture. A ventricular anchor is anchored to the wall of the ventricle to secure the ventricular wall to a ventricle suture. The leaflet suture and the ventricle suture may be tensioned and connected by a suture lock to form an artificial chordae.

This disclosure details a surgical system and method, which is permits percutaneous insertion of anchors, and is useful in orthopedic surgical procedures involving fixation of soft tissue to bone. Because the anchors may be inserted percutaneously, the anchors can be inserted into bone without requiring a skin incision and without requiring a pre-drilled bone hole. As such, use of the disclosed system and method leads to a reduction in the number of steps in a surgical procedure, which reduces surgery time, while also reducing the size of openings formed in the skin relative to other known techniques, which reduces recovery times and results in smaller and less noticeable scarring.

A T-shaped anchorable mesh having a reticular structure with an intertwining mesh material, forming a tissue contact surface. The T-shaped anchorable mesh includes a long arm and a fixation part. The long arm has two lateral ends spaced from each other in an X direction and two marginal edges extending between the two lateral ends. The fixation part extends from one of the two marginal edges in a Y direction. The fixation part includes a plurality of protrusions emerging from the tissue contact surface.

A graft or prosthetic element suitable, e.g., for replacing a tendon or ligament is fastened in a bone tunnel or blind opening with the aid of a fastener. In a first step, the graft or prosthetic element is press-fitted in the tunnel or opening by forcing the fastener into the opening or by positioning the fastener in the opening and then expanding it, wherein the fastener is in contact with the graft or prosthetic element and with the bone wall of the tunnel or blind opening. In a second step, the fastener is anchored in the bone wall of the tunnel or blind opening with the aid of a liquefiable material which is liquefied in the vicinity of the bone wall where it is in contact with the fastener and by making the liquefied material penetrate into the bone wall.

Systems, devices, and methods are provided for securing soft tissue to bone. One exemplary embodiment of a device includes an anchor, a repair filament, and a connecting filament that is coupled to the repair filament, is in contact with the anchor's distal end, and is effective to connect the repair filament to the anchor such that the repair filament slides with respect to the anchor. The anchor can be rigid, and can include an axial bore extending therethrough. At least one of the repair filament and the connecting filament can extend through at least a portion of the axial bore, and the bore can be sized such that a portion of the filament extending therethrough barely fits to help maintain the connection between the anchor, repair filament, and connecting filament. Embodiments of the systems and devices disclosed can be used in a number of methods for repairing soft tissue.