Disclosed are adjustable accommodating intraocular lenses and methods of adjusting accommodating intraocular lenses post-operatively. In one embodiment, an adjustable accommodating intraocular lens comprises an optic portion and a peripheral portion. At least one of the optic portion and the peripheral portion can be made in part of a composite material comprising an energy absorbing constituent and a plurality of expandable components. At least one of a base power and a cylindricity of the optic portion can be configured to change in response to an external energy directed at the composite material.

Disclosed are adjustable accommodating intraocular lenses and methods of adjusting accommodating intraocular lenses post-operatively. In one embodiment, an adjustable accommodating intraocular lens comprises an optic portion and a peripheral portion. At least one of the optic portion and the peripheral portion can be made in part of a composite material comprising an energy absorbing constituent and a plurality of expandable components. At least one of a base power and a cylindricity of the optic portion can be configured to change in response to an external energy directed at the composite material.

Provided is an implant configured to fit at or near a bone defect to promote bone growth. The implant comprises an oxysterol uniformly disposed in an acellular tissue matrix (ATM). The acellular tissue matrix can be porcine collagen, which in some cases is crosslinked. The implant can contain an acellular porcine crosslinked collagen in an amount of about 5 wt. % to about 25 wt. % of the implant and an oxysterol in an amount of about 5 wt. % to about 90 wt. % of the implant. The oxysterol can be Oxy133 monohydrate or an Oxy133 polymorph. Methods of making and using the implant are further provided.

Provided is an implant configured to fit at or near a bone defect to promote bone growth. The implant comprises an oxysterol uniformly disposed in an acellular tissue matrix (ATM). The acellular tissue matrix can be porcine collagen, which in some cases is crosslinked. The implant can contain an acellular porcine crosslinked collagen in an amount of about 5 wt. % to about 25 wt. % of the implant and an oxysterol in an amount of about 5 wt. % to about 90 wt. % of the implant. The oxysterol can be Oxy133 monohydrate or an Oxy133 polymorph. Methods of making and using the implant are further provided.

A composition for the treatment of wounds includes demineralized bone fibers (DBF) derived from allogeneic or xenogenic cortical bone and/or polymeric fibers made from resorbable and/or non-resorbable polymer, and the composition may also include an oxygen-generating material and/or an oxygen carrier.

A fibrous polymeric scaffold for soft tissue engineering comprises electrospun fibers including a polymeric blend and graphite particles embedded therein.

A method for use of a double-structured tissue implant or a secondary scaffold stand-alone implant for treatment of tissue defects. The double-structured tissue implant comprising a primary scaffold and a secondary scaffold consisting of a soluble collagen solution in combination with a non-ionic surfactant generated and positioned within the primary scaffold. A method of use of a stand-alone secondary scaffold implant or unit for treatment of tissue defects.

A method for use of a double-structured tissue implant or a secondary scaffold stand-alone implant for treatment of tissue defects. The double-structured tissue implant comprising a primary scaffold and a secondary scaffold consisting of a soluble collagen solution in combination with a non-ionic surfactant generated and positioned within the primary scaffold. A method of use of a stand-alone secondary scaffold implant or unit for treatment of tissue defects.

A method for producing a collagen-containing sheet material, wherein a collagen-containing suspension is dried in such a manner that the collagen settles during drying and forms a transparent skin.

A method for producing a collagen-containing sheet material, wherein a collagen-containing suspension is dried in such a manner that the collagen settles during drying and forms a transparent skin.