Implants for osteo and osteochondral repair have been developed. These implants include a series of channels between the upper and lower surfaces of the implants, such that when implanted the lower surfaces are situated in an area rich in bone marrow and the channels provide a means for the bone marrow to migrate through the implant. Preferably the implants are made from resorbable polymer fibers, preferably arranged in braids that are knitted or woven together such that the braids are substantially parallel with each other. The implants may be rolled into a bundle of braids with the axis of the braids substantially parallel to the axis of the bundle, to provide channels along the axis of the bundle. A preferred embodiment includes P4HB fibers braided and knitted into a structure that is coated with a ceramic, preferably physiologic calcium phosphate.

Implants for osteo and osteochondral repair have been developed. These implants include a series of channels between the upper and lower surfaces of the implants, such that when implanted the lower surfaces are situated in an area rich in bone marrow and the channels provide a means for the bone marrow to migrate through the implant. Preferably the implants are made from resorbable polymer fibers, preferably arranged in braids that are knitted or woven together such that the braids are substantially parallel with each other. The implants may be rolled into a bundle of braids with the axis of the braids substantially parallel to the axis of the bundle, to provide channels along the axis of the bundle. A preferred embodiment includes P4HB fibers braided and knitted into a structure that is coated with a ceramic, preferably physiologic calcium phosphate.

Implants for osteo and osteochondral repair have been developed. These implants include a series of channels between the upper and lower surfaces of the implants, such that when implanted the lower surfaces are situated in an area rich in bone marrow and the channels provide a means for the bone marrow to migrate through the implant. Preferably the implants are made from resorbable polymer fibers, preferably arranged in braids that are knitted or woven together such that the braids are substantially parallel with each other. The implants may be rolled into a bundle of braids with the axis of the braids substantially parallel to the axis of the bundle, to provide channels along the axis of the bundle. A preferred embodiment includes P4HB fibers braided and knitted into a structure that is coated with a ceramic, preferably physiologic calcium phosphate.

The invention relates to resorbable crosslinked form stable membrane which comprises a composite layer of collagen material and inorganic ceramic particles containing 1.5 to 3.5 weight parts of inorganic ceramic for 1 weight part of collagen material, sandwiched between two layers of elastic pretensed collagen material (collagen material that has been stretched such as to be in the linear/elastic region of the stress-strain curve), the collagen material comprising 50-100% (w/w) collagen and 0-50% (w/w) elastin, and has shape and dimensions suitable for use in human tissue regeneration outside the oral cavity in rhinoplasty, postlateral spinal fusion or orbital reconstruction.

The invention relates to resorbable crosslinked form stable membrane which comprises a composite layer of collagen material and inorganic ceramic particles containing 1.5 to 3.5 weight parts of inorganic ceramic for 1 weight part of collagen material, sandwiched between two layers of elastic pretensed collagen material (collagen material that has been stretched such as to be in the linear/elastic region of the stress-strain curve), the collagen material comprising 50-100% (w/w) collagen and 0-50% (w/w) elastin, and has shape and dimensions suitable for use in human tissue regeneration outside the oral cavity in rhinoplasty, postlateral spinal fusion or orbital reconstruction.

The present invention is directed to a composition comprising a matrix suitable for implantation in humans, comprising defatted, shredded, allogeneic human muscle tissue that has been combined with an aqueous carrier and dried in a predetermined shape. Also disclosed is a tissue graft or implant comprising a matrix suitable for implantation in humans, comprising defatted, shredded, allogeneic human muscle tissue that has been combined with an aqueous carrier and dried in a predetermined shape. The composition and/or tissue graft or implant of the invention is usable in combination with seeded cells, a tissue growth factor, and/or a chemotactic gent to attract a desired cell.

The present invention is directed to a composition comprising a matrix suitable for implantation in humans, comprising defatted, shredded, allogeneic human muscle tissue that has been combined with an aqueous carrier and dried in a predetermined shape. Also disclosed is a tissue graft or implant comprising a matrix suitable for implantation in humans, comprising defatted, shredded, allogeneic human muscle tissue that has been combined with an aqueous carrier and dried in a predetermined shape. The composition and/or tissue graft or implant of the invention is usable in combination with seeded cells, a tissue growth factor, and/or a chemotactic gent to attract a desired cell.

Featured are a biocompatible, injectable, self-setting, cohesive, bone-bonding and remodeling calcium phosphate composite material and its use in methods of repairing defective bone, e.g., in vertebroplasty augmentation and kyphoplasty.

Featured are a biocompatible, injectable, self-setting, cohesive, bone-bonding and remodeling calcium phosphate composite material and its use in methods of repairing defective bone, e.g., in vertebroplasty augmentation and kyphoplasty.

A hybrid composite and method for producing a polymer network are provided. The hybrid composite includes nanocrystalline hydroxyapatite (nHA) and polyurethane. The method for producing a polymer network includes reacting nanocrystalline hydroxyapatite (nHA) particles with lysine derived triisocyanate (LTI) to form a nHA/LTI hybrid prepolymer and reacting the prepolymer with a thioketal (TK) diol to form a nHA/poly(thioketal urethane) (PTKUR) hybrid polymer network.