Abstract: A method of ex-vivo expanding a population of stem cells, while at the same time inhibiting differentiation of the stem cells. The method comprises ex-vivo providing the stem cells with conditions for cell proliferation and with at least one copper chelator in an amount and for a time period for permitting the stem cells to proliferate and, at the same time, for reducing a capacity of the stem cells to differentiate.

Abstract: Ex vivo and in vivo methods of expanding a population of stem and/or progenitor cells, while at the same time reversibly inhibiting differentiation of the stem and/or progenitor cells by providing the stem and/or progenitor cells with an effective amount of at least one copper chelate, so as to maintain a free copper concentration available to said cells substantially unchanged, to thereby expand the population of said stem and/or progenitor cells, while at the same time reversibly inhibit differentiation of said stem and/or progenitor cells.

Abstract: A method of ex-vivo expanding a population of stem cells, while at the same time inhibiting differentiation of the stem cells. The method comprises ex-vivo providing the stem cells with conditions for cell proliferation and with at least one copper chelator in an amount and for a time period for permitting the stem cells to proliferate and, at the same time, for reducing a capacity of the stem cells to differentiate.

Abstract: A method of ex-vivo expanding a population of stem cells, while at the same time inhibiting differentiation of the stem cells.

Abstract: Methods of ex-vivo expansion of fetal and/or adult progenitor, and umbilical cord blood, bone marrow or peripheral blood derived stem cells in bioreactors for bone marrow transplantation, transfusion medicine, regenerative medicine and gene therapy.

Abstract: A method of expanding a population of cells, while at the same time inhibiting differentiation of the cells, the method includes the step of providing the cells with conditions for cell proliferation and, at the same time, for reducing a capacity of the cells in utilizing cooper. The method can be executed both in-vivo and ex-vivo. A method of inducing differentiation in a population of cells, the method includes the step of providing the cells with a transition metal chelator which binds copper and which is effective in inducing cell differentiation.

Abstract: A cell population cultured ex-vivo in a culture medium under conditions permitting cells of the cell population to proliferate and, at the same time, reducing a capacity of the cells in utilizing cooper, the cells are hence expanded yet not further differentiated as compared to ex-vivo seeded cells from which the cell population developed.

Abstract: A method of preparing and thawing of cryopreserved cells without added DNase and a method of DNase-free isolation of subpopulations of thawed, cryopreserved cells which can be used to prepare and thaw Human Cord Blood cells for immunoaffinity selection and enrichment of CD34+ hematopoietic progenitor cells for expansion and transfusion.

Abstract: A cell population cultured ex-vivo in a culture medium under conditions permitting cells of the cell population to proliferate and, at the same time, reducing a capacity of the cells in utilizing cooper, the cells are hence expanded yet not further differentiated as compared to ex-vivo seeded cells from which the cell population developed.