A nephrospheroid comprising urine-derived epithelial cells, the nephrospheroid is capable of forming a tubular nephric tissue upon transplantation. Also provided are methods of producing the nephrospheroid and using same.

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 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.

A tissue-augmented corneal inlay surgery technique is disclosed herein. In one embodiment, the surgery method includes the steps of: (i) implanting a corneal inlay into a recipient cornea of an eye of a patient; (ii) applying laser energy to a central portion of the corneal inlay and a portion of stromal tissue of the recipient cornea underneath the corneal inlay so as to modify the refractive power of the eye; (iii) applying a cross-linking solution that includes a photosensitizer to the recipient cornea of the eye of the patient; and (iv) irradiating the corneal inlay and surrounding corneal tissue so as to activate cross-linkers in the corneal inlay and the surrounding corneal tissue. In this embodiment, the central portion of the corneal inlay remains clear for the patient without being obstructed by swollen tissue so that the patient is able to see immediately after the corneal inlay surgery.

The present invention relates to a method for producing transplantable oral mucosa tissue by selecting and choosing from oral mucosa biopsy, and to the use thereof as pharmaceutical composition, medicament or transplant or graft material, in particular for urethral reconstruction or cornea implantation. In particular, the invention relates to markers for identifying suitable transplantable oral mucosa tissue for the production of transplantable oral mucosa tissue, in particular for producing an autologous oral mucosa graft or tissue.

The present invention relates to a contact lens-type dressing manufactured by using a partially cured amniotic membrane dressing and a method of manufacturing same. The method of manufacturing a partially cured contact lens-type amniotic membrane dressing, and the partially cured contact lens-type amniotic membrane dressing of the present invention have a simple manufacturing method, can produce a contact lens-type amniotic membrane without foreign matter, have excellent biocompatibility, have excellent lens compatibility such as transparency and tensile strength compared to a fully cured contact lens-type amniotic membrane dressing, and also have excellent wound healing effects, and therefore, can be effectively used for the treatment of eye diseases such as corneal damage.

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.

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 relates generally to tissue forms useful as grafts or implants and derived from membranous tissue. The tissue forms may contain viable endogenous cells. The tissue forms may be sheets or mini sheets, each having quadrilateral, circular, polygonal, or irregular shapes. The sheet tissue form may have a generally quadrilateral shape, with an average length of about 1 to about 20 centimeters and an average width of about 1 to about 20 centimeters. The mini sheet tissue form may have a generally quadrilateral shape, with an average length of about 0.5 to about 9 millimeters and an average width of about 0.5 to about 9 millimeters. A mixture of the mini sheet tissue form and a liquid, such as cryopreservation fluid, saline or buffer solution, is flowable, which means the mixture will pass through a luer-slip tip syringe, or a gauge needle.

Bioprosthetic retinal grafts (or devices) comprising stem cell derived tissues and/or cells may be used to slow the progression of retinal degenerative disease, slow the progression of retinal degenerative disease after traumatic injury, slow the progression of age related macular degeneration (AMD), prevent retinal degenerative disease, prevent retinal degenerative disease after traumatic injury, prevent AMD, restore retinal pigment epithelium (RPE), photoreceptor cells (PRCs) and retinal ganglion cells (RGCs) lost from disease, injury or genetic abnormalities, increasing RPE, PRCs and RCGs, treat RPE, PRCs and RCG defects in a subject, or for other purposes. Bioprosthetic retinal grafts may comprise a bioprosthetic carrier or scaffold suitable for implantation into the ocular space of a subject's eye, to form a bioprosthetic retinal patch. In certain embodiments, the bioprosthetic retinal patch may comprise multiple pieces of stem cell derived tissues or cells on a carrier or scaffold, which may be used to treat large areas of retinal degeneration or damage, or for other purposes.