A suture anchor has a tubular body having an axial bore therethrough with one or more purchase enhancements on an exterior surface of the body adapted to enhance purchase of the body within a bone hole. These are preferably screw threads. A distal nose of the suture body has a smooth exterior surface. A length of suture passes down along the exterior surface over the purchase enhancements, over the distal nose, and up into the bore. The smooth exterior surface of the distal nose allows tension of the suture to be held by the engagement of the nose within the bone hole thus making it easier to obtain proper tension as the remaining portion is engaged into the bone hole to provide final fixation.

Systems and methods for soft tissue to bone repairs, without knot tying. The soft tissue repair systems include self-cinching constructs with a fixation device, a flexible coupler and an optional shuttle/pull device attached to the flexible strand. An accordion-style weave region is formed by pulling on the shuttle/pull device subsequent to the fixation device being secured into the bone, to allow desired tensioning of soft tissue to be fixated or repaired relative to the bone and secured self-locking of the construct.

Methods and systems are provided for securing tissue to bone. A surgical system can include a driver having a proximal handle and a driver shaft extending therefrom, a distal awl shaft, a proximal awl shaft separate from the distal awl shaft and movable with respect to the distal awl shaft, a suture anchor, and a dilator feature distal to the suture anchor. The distal and proximal awl shafts are receivable in at least part of a lumen of the driver. In a bone forming configuration of the system, in which the distal awl shaft is driven into bone, a distal end of the proximal awl shaft abuts a proximal end of the distal awl shaft. The proximal awl shaft can be moved proximally, such as by activating an awl handle coupled thereto, with respect to the distal awl shaft to move the system in a suture anchor insertion configuration.

The invention relates to an implantable suspension device (1) for fixing an elongated flexible implant (G) in a desired position, comprising a suspension plate (100) and a suture element (200) engaging with the suspension plate (100), the suture element (200) comprising a first end section (201) and a second end section (202), wherein the second end section (202) comprises a connecting section (240) configured to be connected to said implant (G) or a medical textile (500).

The invention further relates to an assembly device (2) comprising a holder (400) configured to hold said suspension plate (100) and a guiding rope (300) configured to be moved together with said suture element (200) relative to the holder (400) resulting in the suture element (200) engaging with the suspension plate (100) to assemble said implantable suspension device (1) and a method for assembling an implantable suspension device (1).

A tissue anchor for use in holding a tissue to a bone is provided. The anchor includes a distal tip, a proximal end, and an elongated body extending from the distal tip to the proximal end along a longitudinal axis. The elongated body can include a cannulated tunnel having an opening at the proximal end. An engagement member can be disposed inside of the elongated body and configured to enable the loading of a first thread-like fixation element through the cannulated tunnel. The distal tip of the tissue anchor can include an opening dimensioned and configured to capture and retain a second thread-like fixation element.

Surgical constructs and methods for soft tissue to bone repairs, without knot tying. The soft tissue repair constructs include a fixation device, a flexible strand, and a shuttle/pull device attached to the flexible strand and provided within the body of the fixation device. A splice is formed by pulling on the shuttle/pull device to allow desired tensioning of soft tissue to be fixated or repaired relative to the bone.

A deployment device, including a driver shaft; an implant attached to the distal end of the driver shaft; a handle assembly connected to the proximal end of the driver shaft including a handle and a knob positioned distally to the handle; a cleat configured to secure a proximal end of a suture received from the implant through an aperture of the driver shaft resulting in a first applied tension value when the implant is placed in a pilot hole, wherein each of the implant, proximal handle and cleat is connected to the driver shaft such that rotation of the proximal handle in a first direction results in the rotation of the implant in the first direction and the maintenance of at least 50% of the first applied tension value when the implant is rotated in the first direction and advanced in the distal direction within the pilot hole.

A swivel suture anchor for knotless fixation of tissue. The suture anchor includes an anchor tip configured to capture suture, the anchor tip being rotatably received within a fixation device upon advancement of the fixation device over a shaft of the anchor tip. The anchor tip is configured to receive a suture to be anchor in bone without requiring suture knots. The anchor tip can be a conical metal tip which is self-punching and avoids the need for pre-drilling a hole in bone. The anchor tip includes a closed aperture to allow free sliding of a suture strand. The suture is secured in a hole in bone by inserting the anchor tip into bone, and advancing a fenestrated fixation device, such as a cannulated interference screw, over a shaft of the anchor tip.

A method of tissue repair using a surgical assembly that includes the steps of assembling an implant and a driver, capturing tissue with the implant, installing the implant with the captured tissue in a socket or tunnel, advancing a tapered section of a set screw in the implant, thereby expanding the implant and fixing the implant with the captured tissue in the socket or tunnel, and releasing the driver from engagement with the set screw as the distal end of the set screw reaches the implant's closed end. A surgical assembly that includes an expandable implant having a hole with an entrance at a rear end of the implant and a closed end; a set screw, an implant insertion section, a driver engagement section, and a tapered section, where the implant insertion section is received in the hole of the implant, and a driver that is engaged with the set screw.

One aspect of the present disclosure relates to a tissue integration device. The tissue integration device can be produced by forming a polymer mixture into a shape. The polymer mixture can include a polymer resin and a growth-promoting medium. Next, at least one polymer forming the polymer resin can be oriented in at least one direction. The shaped polymeric material can then be formed into the tissue integration device.