Provided herein are methods of producing a distinct bilayer culture of retinal epithelial cells (RPE) with photoreceptor cells and/or photoreceptor precursor cells (PR/PRP). Further provided herein is a therapy comprising transplantation of the RPE and PR/PRP bilayer as well as methods for testing candidate drugs using the bilayer.

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.

Provided herein are novel methods and composition utilizing adipose tissue-derived stromal stem cells for treating fistulae.

Provided herein are novel methods and composition utilizing adipose tissue-derived stromal stem cells for treating fistulae.

The present invention relates to a method for producing hair microfollicles comprising the steps of: a) providing de novo papillae, b) providing other cell populations selected from the group of fibroblasts, keratinocytes and melanocytes, and co-culturing the de novo papillae with at least one other cell population in non-adherent culture vessels. The present invention relates also to methods of producing de novo papillae usable in said method for producing hair microfollicles.

The present invention provides for methods and devices suitable for producing a transplantable cellular suspension of living tissue suitable for promoting tissue regeneration in an epithelium-related procedure, as well as compositions produced therefrom. The cellular suspension can include viable and functioning cells at various stages of differentiation, including undifferentiated/progenitor cells and differentiated cells, as well as those in between. In certain embodiments, the cellular suspension can be subjected to a stress to induce a heat shock response therein, or be exposed to an exogenously supplied agent such as heat shock protein or a fragment thereof, hyaluronic acid, platelet-enriched plasma, and/or growth factors. The cellular suspension can be applied directly to a patient's recipient site for in vivo regeneration, or be cultured or seeded to a matrix for in vitro growth/regeneration.

There is provided a production method for a microcapsule in which cells are encapsulated with alginic acid and a polycation, the method including dropwise adding a cell suspension containing cells and alginic acid into a calcium ion-containing solution to obtain a liquid droplet in which the cells are encapsulated in alginic acid, and immersing the liquid droplet in a coating liquid containing a polycation, to obtain the microcapsule, where the coating liquid contains a calcium ion or a barium ion at a concentration of 0.1 mM or more and 50.0 mM or less. According to the production method of the present invention, it is possible to produce a microcapsule having a uniform shape and particle size.

Tissue replacement implants are disclosed that include polarized retinal pigment epithelial cells on a polylactic-co-glycolic acid) (PLGA) scaffold, wherein the PLGA scaffold is 20-30 microns in thickness, has a DL-lactide/glycotide ratio of about 1:1, an average pore size of less than about 1 micron, and a fiber diameter of about 150 to about 650 nm. Also disclosed are methods of treating a subject with a retinal degenerative disease, retinal or retinal pigment epithelium dysfunction, retinal degradation, retinal damage, or loss of retinal pigment epithelium. These methods include locally administering to the eye of the subject the tissue replacement implant. In further embodiments, methods are disclosed for producing the tissue replacement implant.

The invention provides a cell binding composition comprising a shear thinning gel wherein the shear thinning gel having attached to it one or more cell selective binding agents, or the shear thinning gel having dispersed therein a plurality of gel beads, the gel beads having attached to them one or more cell selective binding agents. Methods of enriching cells using the compositions and using the cells to treat injury or disease are also provided.

A method of manufacturing a retinal graft. The method includes: (a) preparing a scaffold material solution; (b) air-drying the scaffold material solution, to form a thin scaffold layer; (c) crosslinking the thin scaffold layer; (d) rehydrating the scaffold layer; and (e) applying retinal pigment epithelium cells onto the scaffold layer.