A system and method for attaching tissue to bone are provided. In one embodiment, a system for attaching tissue to bone includes a suture, suture anchor, inserter tool, drill, and drill guide having an outer guide and an inner guide. A method for attaching tissue to bone includes attaching a suture to tissue, nesting the suture in a notch on the distal end of the outer guide, passing the suture through a lumen formed in the outer guide, and inserting an inner guide in a lumen formed in the outer guide. The drill guide protects the suture from rotational movement of the drill and allows a user to maintain alignment between the drill guide and the drilled hole. As a result, a suture anchor can be more easily positioned within the drilled hole.

Improved bone anchors are disclosed for anchoring one or more sutures attached to soft tissue to a bone. The bone anchor has an anchor body that extends between a distal end and a proximal end. A bore is formed axially in the anchor body and opens at the proximal end. One or more pins are fixed within the bore of the anchor body. One or more sutures can be looped on the pins for anchoring soft tissue to bone. The anchor body has a socket within the bore for receiving a driver tool. The distal end of the anchor body forms a non-threaded extension, which stabilizes the bone anchor, and helps prevent lateral movement during use. In one embodiment, the anchor body has coarse threads for engaging soft bone tissue and fine threads for engaging hard bone tissue.

Novel stay suture devices and stay suture combinations with meshes are disclosed. The stay suture devices have a clip and a suture. The clip has leg members that are mounted to a hernia mesh implant such that the leg members are locked in a closed configuration. Also disclosed are novel methods of mounting stay sutures to a surgical mesh implant and repairing a body wall defect such as a hernia defect.

Any of a number of implantable or partially implantable approximators, including, but not limited to, manual and ratchet approximators using a tensioning component that can be at least partially provided within a wound for closing the fascia of a wound (such as around the approximatoor) using continuously tensioned sutures. Also provided are approximators with automatic tensioning features, including electrically driven devices.

A bone or tissue repair device can deploy first and second anchors from a distal end of a bore of a needle. A cylindrical first anchor can be disposed in the bore proximal to a distal end of the bore. A cylindrical second anchor can be disposed in the bore proximal to the first anchor. A pusher wire can include teeth positioned at a distal end of the pusher wire. The pusher wire and teeth can be configured to engage an interior of the first anchor; advance distally, with respect to the needle, to force the first anchor distally out of the bore; retract proximally, with respect to the needle and the second anchor, to position the teeth inside an interior of the second anchor; engage the interior of the second anchor; and advance distally, with respect to the needle, to force the second anchor distally out of the bore.

An adjustable, locking all-suture anchor assembly includes at least one suture strand and an all-suture anchoring element. The suture strand has a suture first end and a suture second end, wherein the suture first end includes an enlarged capturable structure and the suture second end is free and accessible for manipulation by a medical practitioner. In use, the suture first end is held in or by the all-suture anchoring element through inclusion of the enlarged capturable structure and the enlarged capturable structure functions to anchor the suture first end in relation to the all-suture anchoring element and retain the suture first end in position relative to the all-suture anchoring element when the suture second end is pulled.

A suture and button construct, having an oblong button defining at least a first aperture and a second aperture; a suture length, including a braid defining a lumen and having a middle section and two end sections, each extending through a button aperture and both terminating in an end. Both ends have a needle attached. Also, two shuttles are engaged to the suture length, each having a free end and a loop end, terminating in a loop. Each shuttle enters the lumen in the middle section and extend through an aperture, while in the lumen and exit on the opposite button side from the middle section, so that both shuttle loops are available outside the lumen, to pull a suture end through the lumen and a button aperture.

Described herein is a simplified placement system and method for a tissue graft anchor by which a surgeon may introduce one or more sutures into a hole in a boney tissue, apply a precise amount of tension to the sutures to advance a soft tissue graft to a desired location, and then advance the anchor into the bone, preferably while maintaining the requisite pre-determined suture tension and without introducing spin to the suture. Particularly preferred embodiments allow for the one-handed operation. To that end, embodiments in which relative axial movement between the inner tensioning device and outer driver device is optionally physically constrained, for example by means of cooperating and/or compressive elements disposed in the respective hub and handle portions, are described herein.

A soft anchor having a sleeve, being a circular braided suture defining a lumen, and defining a first terminus, having a first terminus opening and a second terminus having a second terminus opening. Also, a deployment suture is engaged to the sleeve by extending into the lumen through a first broach point, then out of the sleeve through the first terminus opening, then into the sleeve through a second broach point, on the bottom-side, and then out of the lumen though a third broach point, then into the lumen through the second terminus opening and out of the suture though a fourth broach point, thereby creating a first lateral trap, between the first broach point and the first terminus opening, a second lateral trap, between the second terminal opening and the fourth broach point, and a central trap, between the second and third broach points.

A surgical suture system, tissue restraint/suture capture and tissue anchor for tissue repair and reattachment of torn tissue to a tissue substrate, medical, veterinary or dental prosthesis or medical implant. The system includes a plurality of tissue restraints/suture captures which each include a central locking aperture sized and configured to receive a beaded suture member passed therethrough which minimizes longitudinal tensioning and/or restraining movement, the “GO” force, of a beaded suture member in the forwardly direction through the locking apertures for suture tightening and which maximizes “NO-GO” force to pull the suture in the reverse direction. Uniquely configured tissue anchors and other medically implantable devices securely receive one of the tissue restraints/suture captures for tensioning of a suture member between tissue and the tissue anchor.