Disclosed herein are methods and compositions for the cryopreservation of stem cells, such as stem-cell derived retinal pigment epithelial cells, that have been seeded onto and cultured on a substrate, such as a polymeric substrate. Such cryopreserved stem cells are useful for cell therapies, such as treatment of ocular damage or disease.

Provided is a dental pretreatment material for dental tissue regeneration by use of dental pulp stem cells, particularly a dental pretreatment material effectively enabling dental tissue regeneration even by use of dental pulp stem cells of middle-aged or older individuals. The dental pretreatment material is characterized by comprising a serine protease, specifically trypsin. The dental pretreatment material comprising trypsin is used as an injection into a root canal before a root canal filling material comprising dental pulp stem cells and an extracellular matrix is inserted into the root canal as an attempt to regenerate a dental pulp and a dentin. The root canal filling material includes an ALK5 inhibitor, a CCR3 antagonist, or a CCL11 neutralizing antibody.

In various aspects and embodiments, the present invention provides methods for maintaining motor neuron health in the spinal cord and pro-regenerative capacity of a proximal nerve segment subsequent to a nerve injury in a subject in need thereof, the methods comprising transplanting a stretch-grown tissue engineered nerve graft (TENG) into a proximal site contacting the proximal nerve segment.

Compositions and methods for generating insulin-producing beta cells from pluripotent stem cells are provided. The compositions and methods of the present invention involve stepwise differentiation while the differentiating cells are cultured on a lung tissue-derived acellular scaffold.

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.

A bone augmentation composition and a method for making the bone augmentation. The method including hydrating an allograft comprising cortical fibers with a cell culture media, seeding the hydrated allograft with a solution of human stem cells, and culturing the stem-cell seeded allograft to grow a population of the stem cells in the seeded graft prior to freezing the bone augmentation composition for storage.

Disclosed are means, methods and compositions of matter useful for prevention and/or reversion of type 1 diabetes by upregulation of myeloid suppressor cell activity in a mammal suffering from and/or at risk of developing type 1 diabetes. In one embodiment the invention teaches administration of immune cells that have been conditioned by exposure to regenerative cells, and/or cultured in the presence of factors produced from regenerative cells. In one embodiment said regenerative cells are umbilical cord derived mesenchymal stem cells. In one embodiment, immune cells that have been exposed to said regenerative cells are administered together with agents known to enhance myeloid suppressor cell activity. In another embodiment immune cells are administered together with exogenous myeloid suppressor cells.

Compositions and methods for the prevention and/or treatment of conditions involving disease or damage in mammalian cartilage and bone, using mesenchymal stem cells isolated with anti-integrin α10 antibodies are disclosed.

An object of the present invention is to provide a cell population comprising adherent cells having low differentiation capacity derived from a fetal appendage, methods for producing or using the same, and a pharmaceutical composition comprising the cell population, in particular wherein the proportion of CD73- and CD90-positive adherent cells derived from a fetal appendage is 90% or more; and the cell population satisfies a relative expression level of LFA-3 gene to the expression level of SDHA gene of 1.0 or more, in particular wherein the relative expression level of HAPLN1 gene to the expression level of SDHA gene is 4.0 or more and/or the relative expression level of CCND2 gene to the expression level of SDHA gene is 1.5 or less, in particular wherein the proportion of the STRO-1-negative adherent cells derived from a fetal appendage is 95% or more.