Abstract: This invention provides a polymer composition comprising at least one thermal gelling polymer and at least one anionic polymer for cell delivery applications. These injectable polymer compositions are shear-thinning, thixotropic and resorbable. More specifically there is described a hyaluronan (HA) and methylcellulose (MC) based thermogelling cell delivery system (HAMC) that promotes cell survival both in vitro and in vivo. Importantly, HAMC (relative to media alone) enhances survival of transplanted stem/progenitor cells in the injured CNS. HAMC provides a minimally-invasive cell delivery strategy where the microenvironment can be further defined and the differentiation and regenerative capacity further explored. This hydrogel system has applications for minimally-invasive cell delivery to other tissues/organs in the body as well.

Abstract: This invention provides a polymer composition comprising at least one thermal gelling polymer and at least one anionic polymer for cell delivery applications. These injectable polymer compositions are shear-thinning, thixotropic and resorbable. More specifically there is described a hyaluronan (HA) and methylcellulose (MC) based thermogelling cell delivery system (HAMC) that promotes cell survival both in vitro and in vivo. Importantly, HAMC (relative to media alone) enhances survival of transplanted stem/progenitor cells in the injured CNS. HAMC provides a minimally-invasive cell delivery strategy where the microenvironment can be further defined and the differentiation and regenerative capacity further explored. This hydrogel system has applications for minimally-invasive cell delivery to other tissues/organs in the body as well.

Abstract: Pancreatic progenitor cells isolated from the pancreas of a mammal. The invention also includes pancreatic cells or neural cells differentiated from the pancreatic progenitor cells.

Abstract: Described are a novel cell type in the neural lineage, and method of producing the same based on the degree of neural commitment and growth factor responsiveness in vitro and the potential to give rise to neural and non-neural progeny in vivo. The novel vell type of neural lineage and cells derived therefrom have a number of applications including applications regarding tissue engineering, transplantation and gene therapy and drug discovery. Also described are suggested uses of the method and cell type including isolating genes that positively and negatively regulate the transition from an ES cell to a neural cell and generally for studying ES cell models of mammalian neural development.

Abstract: Pancreatic progenitor cells isolated from the pancreas of a mammal. The invention also includes pancreatic cells or neural cells differentiated from the pancreatic progenitor cells.

Abstract: Described are a novel cell type in the neural lineage, and method of producing the same based on the degree of neural commitment and growth factor responsiveness in vitro and the potential to give rise to neural and non-neural progeny in vivo. The novel veil type of neural lineage and cells derived therefrom have a number of applications including applications regarding tissue engineering, transplantation and gene therapy and drug discovery. Also described are suggested uses of the method and cell type including isolating genes that positively and negatively regulate the transmission from an ES cell to a neural cell and generally for studying ES cell models of mammalian neural development.

Abstract: The invention relates to stem cells isolated from the retina of mammals and retinal cells differentiated from these stem cells. The invention also relates to a method of isolating retinal stem cells and inducing retinal stem cells to produce retinal cells. Retinal stem cells may also be induced in vivo to produce retinal cells. The invention also includes pharmaceuticals made with retinal stem cells or retinal cells which may be used to restore vision lost due to diseases, disorders or abnormal physical states of the retina. The invention includes retinal stem cell and retinal cell culture systems for toxicological assays, for isolating genes involved in retinal differentiation or for developing tumor cell lines.