Abstract: Aspects of the present invention include methods and compositions related to the production and use of pluripotent stem cell-derived clonal embryonic progenitor cell types useful in the generation of cellular components of brown adipocyte tissue for research and therapy relating to applications in obesity, diabetes, and cardiovascular disease.

Abstract: Aspects of the present invention include methods and compositions related to the modulation of molecules regulating the regenerative potential of cells and tissues in the embryonic state and the loss thereof in later fetal and adult stages of development. Said methods and compositions have uses in research in stern cell biology and in increasing regenerative potential in fetal and adult tissues otherwise incapable of regeneration.

Abstract: Aspects of the present invention include methods and compositions related to the modulation of molecules regulating the regenerative potential of cells and tissues in the embryonic state and the loss thereof in later fetal and adult stages of development. Said methods and compositions have uses in research in stem cell biology and in increasing regenerative potential in fetal and adult tissues otherwise incapable of regeneration.

Abstract: The invention provides improved methods, compositions, uses and kits relating to exosomes isolated from cells and therapeutic compositions and methods of using those exosomes. In one embodiment, the exosomes are loaded with one or more molecules to provide a desired therapeutic effect.

Abstract: Aspects of the present invention include methods and compositions related to the modulation of molecules regulating the regenerative potential of cells and tissues in the embryonic state and the loss thereof in later fetal and adult stages of development. Said methods and compositions have uses in research in stem cell biology and in increasing regenerative potential in fetal and adult tissues otherwise incapable of regeneration.

Abstract: Aspects of the present invention include methods and compositions related to the production and use of numerous clonal lineages of embryonic progenitor cell lines derived from differentiating cultures of primordial stem cells with diverse molecular markers and having been cultured for >21 doublings of clonal expansion. The robustness of these clonally-purified lines, their ability to expand for >40 passages while maintaining their pattern of gene expression, lack of tumorigenicity, and their embryonic pattern of gene expression offers novel compositions and methods for modeling numerous differentiation pathways for the first time in vitro, and for the manufacture of purified product not existing in such a purified state in nature or using other manufacturing modalities. Representative progenitor cell lines described herein are capable of development into cutaneous adipocytes, blood-brain barrier cells, neuronal cells, or smooth muscle cells each with therapeutic potential.

Abstract: Aspects of the present invention include methods and compositions related to the production and use of clonal lineages of embryonic progenitor cell lines derived from differentiating cultures of primordial stem cells, in particular, said methods and compositions relate to methods of differentiating cells in the presence of members of the BMP family of growth factors and the applications of said cell lines in the treatment of degenerative orthopedic diseases such as osteoarthritis.

Abstract: Aspects of the present invention include methods and compositions related to the production and use of pluripotent stem cell-derived clonal embryonic progenitor cell types useful in the generation of cellular components of brown adipocyte tissue for research and therapy relating to applications in obesity, diabetes, and cardiovascular disease.

Abstract: Aspects of the present invention include methods and compositions related to the production and use of numerous clonal lineages of embryonic progenitor cell lines derived from differentiating cultures of primordial stem cells with diverse molecular markers and having been cultured for >21 doublings of clonal expansion. The robustness of these clonally-purified lines, their ability to expand for >40 passages while maintaining their pattern of gene expression, lack of tumorigenicity, and their embryonic pattern of gene expression offers novel compositions and methods for modeling numerous differentiation pathways for the first time in vitro, and for the manufacture of purified product not existing in such a purified state in nature or using other manufacturing modalities. Representative progenitor cell lines described herein are capable of development into cutaneous adipocytes, blood-brain barrier cells, neuronal cells, or smooth muscle cells each with therapeutic potential.

Abstract: Aspects of the present invention include methods and compositions related to the production and use of embryonic progenitor cell types useful in the generation of cartilage, bone, choroid plexus, tendon, lipasin-secreting adipocytes, and other differentiated cell types useful in research and therapy.

Abstract: Aspects of the present invention include methods and compositions related to the modulation of molecules regulating the regenerative potential of cells and tissues in the embryonic state and the loss thereof in later fetal and adult stages of development. Said methods and compositions have uses in research in stem cell biology and in increasing regenerative potential in fetal and adult tissues otherwise incapable of regeneration.

Abstract: Aspects of the present invention include methods and compositions related to the production and use of pluripotent stem cell-derived clonal embryonic progenitor cell types useful in the generation of cellular components of brown adipocyte tissue for research and therapy relating to applications in obesity, diabetes, and cardiovascular disease.

Abstract: Aspects of the present invention include methods and compositions related to the production and use of clonal lineages of embryonic progenitor cell lines derived from differentiating cultures of primordial stem cells, in particular, said methods and compositions relate to methods of differentiating cells in the presence of BMP family mambeis of growth factors and the applications of said cell lines in the treatment of degenerative orthopedic diseases such as osteoarthritis,

Abstract: Aspects of the present invention include methods and compositions related to the production, identification and use of embryonic progenitor cell lines that are capable of undergoing chondrogenesis. A number of exemplary chondrogenic cell lines derived from primordial stem cells are disclosed. The chondrogenic cell lines described herein are robust, can expand for >40 passages, and have site-specific purity, thus providing for compositions and methods of producing diverse cartilage types with unique molecular compositions for use in research and therapy.

Abstract: Aspects of the present invention include methods and compositions related to the production and use of embryonic progenitor cell types useful in the generation of cartilage, bone, choroid plexus, tendon, lipasin-secreting adipocytes, and other differentiated cell types useful in research and therapy.

Abstract: Aspects of the present invention include methods and compositions related to the production, identification and use of embryonic progenitor cell lines that are capable of undergoing chondrogenesis. A number of exemplary chondrogenic cell lines derived from primordial stem cells are disclosed. The chondrogenic cell lines described herein are robust, can expand for >40 passages, and have site-specific purity, thus providing for compositions and methods of producing diverse cartilage types with unique molecular compositions for use in research and therapy.

Abstract: Aspects of the present invention include methods and compositions related to the production, identification and use of embryonic progenitor cell lines that are capable of undergoing chondrogenesis. A number of exemplary chondrogenic cell lines derived from primordial stem cells are disclosed. The chondrogenic cell lines described herein are robust, can expand for >40 passages, and have site-specific purity, thus providing for compositions and methods of producing diverse cartilage types with unique molecular compositions for use in research and therapy.

Abstract: Artificial plasma-like solutions and methods for their use are provided. The subject solutions include: electrolytes and an oncotic agent. The subject solutions find use in a variety of applications, particularly in those applications where at least a portion of a host's blood volume is replaced with a blood substitute.

Abstract: Methods and compositions for use in perfusion applications are provided. In the subject methods, a subject or derivative thereof, e.g. isolated organ or tissue, is infused, perfused and/or transfused with at least two fluid compositions. The first fluid composition is a non-naturally occurring biological buffer free plasma-like solution and the second fluid composition is a fluid blood composition. In a preferred embodiment, an additional volume of the first solution, or a derivative thereof, is administered to the patient following introduction of the fluid blood composition. Also provided are kits and systems for performing the subject methods. The subject methods and compositions find use in variety of perfusion applications, including the treatment of hypothermic surgical applications, cryogenic procedures, and the like.

Abstract: Artificial plasma-like solutions and methods for their use are provided. The subject solutions include: electrolytes and an oncotic agent. The subject solutions find use in a variety of applications, particularly in those applications where at least a portion of a host's blood volume is replaced with a blood substitute.