Abstract: The invention provides methods, compositions, uses and kits relating to exosomes isolated from progenitor cells.

Abstract: The invention provides methods, compositions, uses and kits relating to exosomes isolated from progenitor cells.

Abstract: The invention provides methods, compositions, uses and kits relating to exosomes isolated from progenitor cells.

Abstract: The invention provides methods, compositions, uses and kits relating to exosomes isolated from progenitor cells.

Abstract: The invention provides methods, compositions, uses and kits relating to exosomes isolated from progenitor cells.

Abstract: The present application describes the new methods for the differentiation of primate pluripotent stem cells into cardiomyocyte-lineage cells. The methods utilize sequential culturing of the primate pluripotent stem cells in certain growth factors to produce cardiomyocyte-lineage cells. In certain embodiments of the invention, the population of cells produced by the sequential culturing is further enriched for cardiomyocyte-lineage cells so as to produce a higher percentage of those cells.

Abstract: The present application describes the new methods for the differentiation of primate pluripotent stem cells into cardiomyocyte-lineage cells. The methods utilize sequential culturing of the primate pluripotent stem cells in certain growth factors to produce cardiomyocyte-lineage cells. In certain embodiments of the invention, the population of cells produced by the sequential culturing is further enriched for cardiomyocyte-lineage cells so as to produce a higher percentage of those cells.

Abstract: This invention provides a new procedure for generating cardiomyocyte lineage cells from embryonic stem cells for use in regenerative medicine. Differentiating by way of embryoid body formation or in serum is no longer required. Instead, the stem cells are plated onto a solid substrate, and differentiated in the presence of select factors and morphogens. After enrichment for cells with the appropriate phenotype, the cells are allowed to cluster into Cardiac Bodies™, which are remarkably homogeneous and suitable for the treatment of heart disease.

Abstract: This invention provides a new procedure for generating cardiomyocyte lineage cells from embryonic stem cells for use in regenerative medicine. Differentiating by way of embryoid body formation or in serum is no longer required. Instead, the stem cells are plated onto a solid substrate, and differentiated in the presence of select factors and morphogens. After enrichment for cells with the appropriate phenotype, the cells are allowed to cluster into Cardiac Bodies™, which are remarkably homogeneous and suitable for the treatment of heart disease.

Abstract: This invention provides a new procedure for generating cardiomyocyte lineage cells from embryonic stem cells for use in regenerative medicine. Differentiating by way of embryoid body formation or in serum is no longer required. Instead, the stem cells are plated onto a solid substrate, and differentiated in the presence of select factors and morphogens. After enrichment for cells with the appropriate phenotype, the cells are allowed to cluster into cardiac bodies™, which are remarkably homogeneous and suitable for the treatment of heart disease.

Abstract: The present application describes the new methods for the differentiation of primate pluripotent stem cells into cardiomyocyte-lineage cells. The methods utilize sequential culturing of the primate pluripotent stem cells in certain growth factors to produce cardiomyocyte-lineage cells. In certain embodiments of the invention, the population of cells produced by the sequential culturing is further enriched for cardiomyocyte-lineage cells so as to produce a higher percentage of those cells.

Abstract: This invention provides a new procedure for generating cardiomyocyte lineage cells from embryonic stem cells for use in regenerative medicine. Differentiating by way of embryoid body formation or in serum is no longer required. Instead, the stem cells are plated onto a solid substrate, and differentiated in the presence of select factors and morphogens. After enrichment for cells with the appropriate phenotype, the cells are allowed to cluster into cardiac bodies™, which are remarkably homogeneous and suitable for the treatment of heart disease.

Abstract: A plasmid-liposome composition for transfection of a cell is described. The composition includes plasmid molecules condensed with a polycationic condensing agent and cationic liposomes. Also disclosed is a method for preparing the plasmid-liposome complexes.

Abstract: An improvement in a method of preparing plasmid-liposome complexes for in vivo transfection is described. The improvement includes selecting a condensing agent to condense the plasmid prior to contact with the liposomes, selecting a working medium and selecting a ratio of liposome lipid to plasmid. Also disclosed are DNA plasmid-liposome complexes formed by the method.