An implant capable of maintaining, even when being implanted in a body for a long period of time, desirable mechanical properties, non-bioabsorbable properties, and/or biocompatibility is provided. The implant contains a nanocomposite hydrogel obtained through formation of an organic-inorganic network structure in which an amide group-containing polymer compound and an inorganic clay nano-sheet are linked.

The present application relates to a breast implant having surface roughness and waviness. A breast implant according to an aspect includes: a shell constituting an outer skin; and a filler material accommodated inside the shell, wherein an outer surface of the shell has a concave-convex surface in contact with tissue, and the surface has a certain level of waviness in a filtered waviness curve.

Tissue engineering devices and methods employing scaffolds made of absorbable material for use in the human body for tissue genesis and regenerative and cellular medicine including breast reconstruction and cosmetic and aesthetic procedures and supplementing organ function in vivo.

Tissue engineering devices and methods employing scaffolds made of absorbable material for use in the human body for tissue genesis and regenerative and cellular medicine including breast reconstruction and cosmetic and aesthetic procedures and supplementing organ function in vivo.

A prosthetic implant, suitable for implantation to the human body, comprising a shell and a gel filling, wherein the shell comprises an innermost layer and at least an additional layer; wherein the innermost layer is in contact with the gel; wherein the innermost layer is adapted to adhere to said gel.

Graft materials and devices for surgical breast procedures, as well as methods of making graft devices, are described.

Scaffolding constructs, medical devices comprising scaffolding constructs, and related methods of manufacturing and treatment are described. The scaffolding construct may comprise a biocompatible material, such as a polymer, copolymer, or hydrogel. The scaffolding construct may be porous and at least partially bioresorbable. Further, for example, the scaffolding construct may define a cavity for securing a medical implant therein.

Methods, systems, apparatuses and devices for implantation in a soft-tissue biological environment that include a primary layer for containing a filler substance, an interface and a secondary layer, including embodiments where the secondary layer an ePTFE layer, the primary layer is a silicone layer, the interface is mechanical or adhesive and the filler substance can include particulates and lattices.

A method is disclosed for preparing a soft tissue site, and augmenting the soft tissue site, such as the breast(s), scar, depression, or other defect, of a subject through use of devices that exert a distractive force on the breast(s) and grafting of autologous fat tissue such as domes and sealing rims for surrounding each of the soft tissue site and a regulated pump. The method for preparing the soft tissue site, and enhancing fat graft results, entails application of the distracting force to the targeted soft tissue site at least intermittently for some period of time and preferably several weeks prior to the graft procedure. A rotated aspect of the invention includes following the preparation steps by transfer of fat from other areas of the subject to the subject's soft tissue site, and then reapplication of the distractive force to the soft tissue site that received the autologous fat graft. Alternatively, fat from genetically related sources may be used, and the fat may be further processed prior to injection. Substantial soft tissue augmentation, high rates of graft survival and negligible graft necrosis (data demonstrating 80% survival and only 20% necrosis is presented) or calcification result from the practice of these methods.

Breast fixation devices for use in breast reconstruction and breast augmentation limit the rotation or movement of breast implants after implantation that results in an unnatural appearance of the breast. The breast fixation devices can include a thin-walled enclosure in the shape of a pouch. A breast implant is secured inside the pouch to limit movement by applying compression to the breast implants, or using a mating or interlocking mechanism between the pouch and breast implant. The pouches containing the breast implants are implanted in the breast. Tissue in-growth into the pouch limits movement of the pouch-breast implant assembly and thereby limits rotation, migration, and displacement of the breast implant. The pouches preferably comprise poly-4-hydroxybutyrate or copolymer thereof.