A method of preparing a nerve graft includes submerging a nerve graft in a solution including FK506 and a solvent to promote incorporation of FK506 into the nerve graft. A tissue graft includes nerve tissue and FK506 incorporated within the nerve tissue. In the tissue graft, the FK506 is free of hydrogel and not encapsulated.

The invention relates to a biohybrid for the use thereof in the regeneration of neural tracts, comprising an implantable tubular hybrid structure which is degradable and biocompatible and characterized in that it comprises three layers of different porosity: an inner layer a), an intermediate layer b) and an outer layer c), with uninterrupted connection among them, the three layers consisting of the same porous hydrogel based on cross-linked hyaluronic acid, a biohybrid comprising the hybrid tubular structure described, which can contain a fibrous material, preferably poly-L-lactic acid, to a method for producing said tubular hybrid structure and said biohybrid, and to the use of same for regenerating neural tracts in diseases that affect the central nervous system, preferably Parkinson's disease.

The invention is directed to methods for treating nervous system injury and disease, in particular traumatic brain injury and degenerative nervous system disease. Such methods utilize novel compositions, including but not limited to trophic factor-secreting extraembryonic cells (herein referred to as TSE cells), including, but not limited to, amnion-derived multipotent progenitor cells (herein referred to as AMP cells) and conditioned media derived therefrom (herein referred to as amnion-derived cellular cytokine solution or ACCS), each alone or in combination with each other and/or other agents.

The present invention resides in a method for producing jellyfish collagen hydrogels and kits for producing the same. The jellyfish collagen hydrogels can be used in the culture of cells. According to the invention, there is a process for producing jellyfish collagen hydrogels comprising jellyfish collagen fibrils, said process comprising the steps of: mixing a solution of purified jellyfish collagen and an aqueous neutralisation buffer; and incubating the mixture for a sufficient time to enable jellyfish collagen fibrils to form, wherein a cross-linking agent is either added during to mixing step or during or after the incubation of the mixture.

The present invention provides novel compositions comprising multipotent cells or microvascular tissue, wherein the cells or tissue has been sterilized and/or treated to inactivated viruses, and related methods of using these compositions to treat or prevent tissue injury or disease in an allogeneic subject.

The invention provides a method for producing a ciliary marginal zone stem cell induced to differentiate from a pluripotent stem cell, including either the following step (1) or step (2), or both of these steps: (1) a step of floating culturing cells obtained from a cell aggregate containing a ciliary marginal zone-like structure induced to differentiate from pluripotent stem cells, thereby obtaining a retinosphere; and (2) a step of collecting stage specific embryonic antigen-1 positive cells from cells obtained from a cell aggregate containing a ciliary marginal zone-like structure induced to differentiate from pluripotent stem cells.

A cell sheet for transplantation into a living body, containing MSCs having an average cell density of 3.0×10.sup.4 cells/cm.sup.2 or less on the surface of the sheet is provided. A method for producing a cell sheet for transplantation into a living body, including: a step of seeding MSCs on a cell culture carrier having a three-dimensional structure formed of fibers at a cell number of 3.0×10.sup.5 cells/cm.sup.2 or less; and a step of culturing the MSCs and thereby preparing a cell sheet containing the MSCs having an average cell density of 3.0×10.sup.4 cells/cm.sup.2 or less is also provided.

The present invention relates to a fibrous nerve conduit for promoting nerve regeneration, comprising a channel, the channel having diameter controllable ends, the channel is adjustable to suturing to a proximal and distal end of a severed nerve, the conduit further comprises a PCL (MW:70KDa) with concentration of 10-15% and PLGA (MW:50KDa,50:50) with concentration of 10-18%.

The method disclosed herein is for evaluating the quality of a transplant neural retina by sampling a part or the whole of a cell aggregate containing a neural retina having an epithelial structure derived from a pluripotent stem cell as a sample for quality evaluation.

The present invention features a neural organoid that recapitulates in vitro most characteristics of the brain (e.g., human), and methods of using this neural organoid to study disease and to identify therapeutic agents for the treatment of neurological diseases and disorders.