A method for reattaching a detached tissue to a hard tissue includes operation in which a suture anchor having a first stitch and a second stitch is provided, wherein the first stitch is divided into a first strand and a second strand, and the second stitch is divided into a third strand and a fourth strand. The suture anchor is fixed on a hard tissue. The first strand, the second strand, the third strand and the fourth strand pass through a detached tissue. A bioinductive patch is provided, wherein the bioinductive patch includes a patch body and a button. The first strand and the third strand pass through the patch body and a first suture hole of the button, and the second strand and the fourth strand pass through the patch body and a second suture hole of the button. The second strand and the third strand are knotted to form a first strand node, and the first strand node presses the bioinductive patch and the detached tissue tightly onto the hard tissue.

The present disclosure describes methods of treating a ligament injury with ligament grafting.

Devices and methods for treating defects in connective tissue are provided along with methods for making such devices. The devices can include acellular arterial tissue matrices that facilitate regrowth of the damaged tissue.

A graft compression system for compressing soft tissue grafts used in connection with reconstructive surgery on the anterior cruciate ligament (ACL). The graft compression system includes a compression chamber having an elongate hollow shaft body having two ends that are threaded to mate with correspondingly threaded collet nuts. Collets are removably inserted into, and engage, the collet nuts fastened to opposing ends of the compression chamber A surgical graft may be inserted into a hollow compression tube having a lumen with a compressible diameter, said compression tube being sized for insertion into the collets and compression chamber. When such collet nuts are tightened by a user of the graft compression system, the inner diameters of the respective collet nuts nested within such collet nuts are decreased, causing the diameter of the lumen of the hollow compression tube to in turn be decreased and compress the surgical graft within.

A xenograft for treating a tendon or ligament condition in a subject, wherein said xenograft comprises at least a portion of a macropod tendon.

Biocompatible biomimetic materials that exhibit desirable mechanical properties while also encouraging cell ingrowth and proliferation are described. The biomaterials include a multi-layer laminate of three or more decellularized aligned collagen tissues. The individual layers are aligned with one another in an angle-ply arrangement, with the collagen of each layer aligned at an angle to the collagen of the adjacent layer. The biomaterials are useful as collagenous graft materials such as a patch for a hernia in an annulus fibrosus or grafting materials for repair of tendons, ligaments, cartilage and other musculoskeletal tissues.

Methods and devices for repair of a torn or ruptured ligament using a scaffold device are provided. Aspects of the present disclosure include method of placement and fixation of sutures using a fixation device. In aspects of the present disclosure, the method includes notchplasty and delayed rehabilitation.

Devices and methods for treating defects in connective tissue are provided along with methods for making such devices. The devices can include acellular arterial tissue matrices that facilitate regrowth of the damaged tissue.

A device for repair surgery of cylindrical organs, particularly of ruptured tendons, is configured as a tubular sheath (T) made of a mesh of elastic fibers formed by electrospinning a biocompatible and biodegradable polymer. The tubular sheath has a Young elasticity modulus of about 0.1 to about 4 MPa and a strain at break of about 50 to about 1,000%, and it has a first wall surface and a second wall surface substantially parallel thereto, with said first wall surface being comparatively smooth (W.sub.S) and said second wall surface being comparatively rough (W.sub.R). According to the invention, the elastic fibers comprise first fibers consist of polymer in neat form and second fibers consist of polymer with an admixture of a therapeutic agent for stimulating regrowth processes of a predetermined cylindrical organ. The tubular sheath comprises a first tubular region adjacent to the first wall and a second tubular region adjacent to the second wall, said first tubular region being formed of said first fibers and said second tubular region being formed of said second fibers.

Provided is a method of preparing a bioactive scaffold for inducing tendon regeneration, the method includes decellularizing a fresh tendon tissue and to obtain a decellularized tendon sheet scaffold or slice scaffold, and adding ECM materials to the decellularized tendon sheet scaffold or slice scaffold.