The present disclosure relates to a composition and methods for preparing a tissue-derived, dissolved extracellular matrix. In implementations, the extracellular matrix composition includes components native to the cornea including liquefied corneal tissue. The extracellular matrix composition can be prepared by dissolving extracted corneas in an aqueous solution of inorganic base. The resulting solution is then dialyzed to achieve a physiological pH. In some implementations, the extracellular matrix composition can be seeded and/or chemically cross-linked to form a gel matrix. The extracellular matrix and/or the gel matrix can be seeded with a desired cell type (e.g., endothelial cells, epithelial cells, stromal keratocytes, etc.) to stimulate cell proliferation and regeneration.

Methods of producing and methods of treatment using a nipple areolar complex extracellular matrix. A method for processing tissue comprises harvesting a human nipple areolar complex tissue, treating the tissue with a stabilizing medium, wherein the medium stabilizes the tissue during transport, decellularizing the tissue, and sterilizing the tissue to form a human nipple areolar complex extracellular matrix scaffold (ECMS). A method of treating an individual with a need for a nipple reconstruction comprises forming an ECMS and applying the ECMS to the individual for nipple areolar regeneration.

The present disclosure relates to surgical grafts for replacing nipples and areolas lost to disease or trauma with surgical grafts of decellularized donor nipples and areolas and to placing and recellularizing such grafts. The disclosure further provides methods for decellularizing epidermis. The decellularized epidermis can be used as a protective cover for skin wounds.

The invention concerns an intraocular lens implant for placement into an intracapsular space of a lens capsule of an eye and a composition, kit and methods related to the lens implant. The lens implant is designed for a placement into a posterior portion of the intracapsular space after removal of a native lens body and has a convex posterior surface. The lens implant is formed of one part and is manufactured from a suitable transparent non-structural cellular material. This keeps an anterior portion of the intracapsular space free of the implant which is dimensioned to comprise at most 40% of a volume of the native lens body.

The present invention relates to a bellows framework having a concave-convex structure on at least one of outer and inner sides using three-dimensional printing technology and a method of producing thereof, and an artificial tracheal replacement comprising an epithelium part formed on the inner side of the bellows framework and an annular cartilage part formed along the circumference of concave-convex grooves on the outer side and a method of producing thereof.

The present disclosure provides devices and methods for treating breasts. The devices can include an acellular tissue matrix having a predefined shape that allows for complete or enhanced coverage of an anterior portion of a breast implant or tissue expander or to support an implant and/or surrounding tissues.

The invention concerns an intraocular lens implant for placement into an intracapsular space of a lens capsule of an eye and a composition, kit and methods related to the lens implant. The lens implant is designed for a placement into a posterior portion of the intracapsular space after removal of a native lens body and has a convex posterior surface. The lens implant is formed of one part and is manufactured from a suitable transparent non-structural cellular material. This keeps an anterior portion of the intracapsular space free of the implant which is dimensioned to comprise at most 40% of a volume of the native lens body.

Methods and compositions for the treatment of a corneal dystrophy in a subject in need thereof are provided. In one aspect, the method includes the step of obtaining a plurality of stem cells comprising a nucleic acid mutation in a corneal dystrophy target nucleic acid from the subject and manipulating the nucleic acid mutation in one or more stem cells of the plurality of stem cells to correct the nucleic acid mutation, thereby forming one or more manipulated stem cells. The manipulated stem cells are isolated and then transplanted into the subject. In some embodiments, the nucleic acid mutation is manipulated using CRISPR system.

Methods, systems, and compositions for treatment are provided. The methods can be used to stretch and completely or nearly completely wrap a composition around an implant or tissue expander. The systems can be used to protect an implant or tissue expander by completely or nearly completely wrapping a composition around the implant or tissue expander. The compositions can be used to completely or nearly completely wrap around an implant or tissue expander to provide support and protection to the implant or tissue expander.

The present disclosure provides devices for treating breasts. The devices (100) include a sheet of acellular tissue matrix having a predefined shape that allows for complete or enhanced coverage of an anterior portion of a breast implant or tissue expander or to support an implant and/or surrounding tissues. The sheet includes curved upper and lower borders or edges.