An ablatable corneal inlay for correction of refractive errors and/or presbyopia, and a method of correcting refractive errors and presbyopia in an eye of a patient using an ablatable corneal inlay is disclosed herein.

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 invention, in which RPE cells are suspended in a medium pharmaceutically acceptable as an ocular irrigating/washing solution and containing a poloxamer, achieves improvement of the post-thawing survival rate of cryopreserved RPE cells, improvement of the photoreceptor cell protection effect by RPE cell transplanted immediately after thawing, and prevention of loss of RPE cells in various steps from thawing to transplantation.

Compositions including a first soft tissue-derived matrix and a second soft tissue-derived matrix are provided, as well as methods of making such compositions. In some embodiments, the composition comprises dilapidated, decellularized adipose tissue-derived matrix and dilapidated, decellularized fascial tissue-derived matrix, which may be combined in various proportions. Such adipose-fascia matrix compositions provide improved volume retention when implanted into a patient. The composition may further include exogenous cells or other substances, and/or a carrier. The composition is suitable for use in plastic surgery procedures, including reconstructive or cosmetic surgery procedures, as well as procedures for wound treatment and tissue regeneration. The methods for making the compositions may involve separation of first and second soft tissues from one another, followed by performing one or more treatments on the separated soft tissues, then combining the treated soft tissues and, optionally, performing one or more additional treatments on the combined soft tissues.

Provided herein are methods for generating cultivated autologous limbal epithelial cell grafts for the treatment of various disorders caused by limbal stem cell deficiency. This invention relates to methods and compositions for treating ophthalmic disorders, diseases and injuries. In particular, the field of the invention is directed to methods, kits and compositions for treating disorders, diseases, defects and injuries of the cornea and ocular surface. The present disclosure relates to preparations of cultured mammalian limbal stem cells, derived from corneal limbus tissue.

The subject matter described herein is directed to methods of producing decellularized and recellularized human prostate tissues and methods of treating disorders of a prostate, including BPH and prostate cancer, are disclosed. Prostate tissue engineering and the composition and construction of a prostate extracellular matrix (ECM) or a prostate tissue scaffold and interactions with its cellular components are also disclosed.

The present invention provides a new method related to regenerative medicine for the treatment of cartilage disorders, osteoarthritis and cartilage injury in particular. More particularly, it relates to an FGF-18 compound for use in tissue engineering and graft procedures, such as osteochondral or cartilage transplantation or autologous chondrocyte implantation (ACI).

A multilayer cornea harvesting apparatus capable of obtaining layers of cornea from one cornea enucleation object and a cornea harvesting method is disclosed. The apparatus includes a base supported on a bottom surface, a mount detachably coupled to the base, allowing a cornea enucleation object to be placed thereon, having a first opening part formed at a portion corresponding to the cornea of the cornea enucleation object, and having a first medicinal fluid charging space formed between the base and the mount, a stabilizer fixing, to the mount, a sclera portion of the cornea enucleation object placed on the mount and having a second opening part formed at a portion corresponding to the cornea, and an upper cover detachably provided on the upper side of the cornea, supported by the mount or supporting the mount, and forming a second medicinal fluid charging space on the upper side of the cornea.

A method for producing a composite demineralized bone matrix composition using a one-step process is described. The composite demineralized bone matrix composition is produced from the biologically-derived bone. In addition, the composite demineralized bone matrix composition contains bone minerals according to the original composition proportion in the bone and may provide a bone mineral content condition that is closest to that in an environment in which in vivo bone formation occurs. In addition, the composition contains a bone morphogenetic protein (BMP-2), and thus enables a stable and excellent bone formation effect to be derived.

The present disclosure describes methods of treating a ligament injury with ligament grafting.