A composite scaffold having a highly porous interior with increased surface area and void volume is surrounded by a flexible support structure that substantially maintains its three-dimensional shape under tension and provides mechanical reinforcement during repair or reconstruction of soft tissue while simultaneously facilitating regeneration of functional tissue.

Disclosed herein are medical devices comprising biocompatible substrates and one or more fixation elements, and methods for making and using the same.

The invention relates to a knit having barbs protruding outwards from both faces obtained by knitting yarns of biocompatible material in guide-bars B2, B3 and B4 of a knitting machine, wherein the knitting patterns followed by guide-bars B2 and B3 involve at least two needles and produce an arrangement of yarns defining two faces of the knit, the knitting pattern followed by guide-bar B4 making stitches generating loops protruding outwards from each of the faces of the knit, guide-bar B4 being threaded with a hot-melt monofilament yarn, heat-setting the knit, forming barbs by cutting the loops via melting.

Graft materials and devices for surgical breast procedures may include a sheet of biocompatible material and a plurality of fenestrations distributed across a portion of the sheet of biocompatible material. The sheet of biocompatible material can have a first axis and a second axis coincident with the sheet of biocompatible material. The sheet of biocompatible material can also have a first edge that intersects the second axis and a second edge that intersects the second axis. The first axis can be orthogonal to the second axis. The plurality of fenestrations can be distributed across a portion of the sheet of biocompatible material closer to the first edge than the second edge. Other apparatuses and methods are disclosed.

A prosthesis for securing to soft tissue includes a surgical mesh layer and a tissue gripping layer having a tissue gripping element. The surgical mesh layer is attached to the tissue gripping layer. The tissue gripping element may include a primary opening and one or more slits. Tabs defined between pairs of adjacent slits may be moveable relative to the pre-actuation position of the primary opening and/or relative to the surgical mesh layer.

Calendered surgical meshes comprising polyhydroxyalkanoate polymers have been developed. These meshes, preferably made from poly-4-hydroxybutyrate or copolymer thereof, have a thickness that is between 50 to 99% of the thickness of the mesh prior to calendering, and a burst strength that is not less than 20% of the burst strength of the mesh prior to calendering. The thinner calendered meshes are particularly suitable for surgical applications where a thinner profile mesh with high burst strength is required, and where it is advantageous to have a mesh with a smooth surface. The meshes may be partially or fully resorbable, and are particularly suitable for use in the treatment of pelvic organ prolapse.

The present disclosure relates to tissue matrix products. The products can include tissue matrices that have openings such as holes or perforations located at certain positions to improve various functions without substantial loss of strength or other important properties. The openings can facilitate implantation of the tissue matrices in surgical procedures thereby speeding operation times and potentially improving surgical results.

A tendon repair implant for treatment of a partial thickness tear in the supraspinatus tendon of the shoulder is provided. The implant may incorporate features of rapid deployment and fixation by an arthroscopic approach that compliment current procedures; tensile properties that result in desired sharing of anatomical load between the implant and native tendon during rehabilitation; selected porosity and longitudinal pathways for tissue in-growth; sufficient cyclic straining of the implant in the longitudinal direction to promote remodeling of new tissue to tendon-like tissue; and, may include a bioresorbable construction to provide transfer of additional load to new tendon-like tissue and native tendon over time.

A hernia repair device, comprising: an inflatable balloon having an inflation tube, the inflation tube having a proximal end attached to said balloon and a distal end adapted to be extracted from the body, separately from the balloon, via an opening which is smaller than a laparoscopic opening, and a mesh removably attached to said balloon, wherein the inflation tube passes through the mesh.

Absorbable composite medical devices such as surgical meshes and braided sutures, which display two or more absorption/biodegradation and breaking strength retention profiles and exhibit unique properties in different clinical settings, are made using combinations of at least two types of yarns having distinctly different physicochemical and biological properties and incorporate in the subject construct special designs to provide a range of unique properties as clinically useful implants.