Abstract: Compositions and methods of using cells derived from umbilical cord tissue to stimulate and support lung tissue angiogenesis, to improve blood flow to lung tissue, to regenerate, repair, and improve lung tissue damaged by lung disease, disorder and/or injury, and to protect lung tissue from damage caused by lung disease, disorder and/or injury in a patient.

Abstract: Isolated or purified mammalian kidney-derived cell populations from mammalian kidney tissue are provided. Methods are provided for the isolation and purification of the mammalian kidney-derived cell population. Methods for treating kidney disease are provided by administration of the isolated or purified mammalian kidney-derived cell population to a mammalian subject.

Abstract: Isolated or purified mammalian kidney-derived cell populations from mammalian kidney tissue are provided. Methods are provided for the isolation and purification of the mammalian kidney-derived cell population. Methods for treating kidney disease are provided by administration of the isolated or purified mammalian kidney-derived cell population to a mammalian subject.

Abstract: An isolated mammalian internal mammary artery-derived cell is disclosed. Furthermore, methods of isolating the mammalian internal mammary artery-derived cell are disclosed. The cell is useful in tissue engineering technologies, specifically in vascular tissue engineering.

Abstract: Provided are therapeutic implants comprising renal tissue encapsulated within a polymer bead. Also disclosed are methods for treating a disease state in a subject comprising implanting within said subject a therapeutic implant comprising renal tissue encapsulated within a polymer bead. Also provided are methods for making a therapeutic implant comprising: providing renal tissue; mixing the renal tissue with a solution comprising a polymer, thereby forming a tissue-polymer suspension; extruding the tissue-polymer suspension into an bead-forming solution, thereby forming a therapeutic implant comprising beads of said polymer within which the renal tissue is encapsulated.

Abstract: Isolated or purified mammalian kidney-derived cell populations from mammalian kidney tissue are provided. Methods are provided for the isolation and purification of the mammalian kidney-derived cell population. Methods for treating kidney disease are provided by administration of the isolated or purified mammalian kidney-derived cell population to a mammalian subject.

Abstract: Compositions and methods of using tissue engineered blood vessels to repair and regenerate blood vessels of patients with vascular disease are disclosed.

Abstract: An isolated mammalian internal mammary artery-derived cell is disclosed. Furthermore, methods of isolating the mammalian internal mammary artery-derived cell are disclosed. The cell is useful in tissue engineering technologies, specifically in vascular tissue engineering.

Abstract: Provided are therapeutic implants comprising renal tissue encapsulated within a polymer bead. Also disclosed are methods for treating a disease state in a subject comprising implanting within said subject a therapeutic implant comprising renal tissue encapsulated within a polymer bead. Also provided are methods for making a therapeutic implant comprising: providing renal tissue; mixing the renal tissue with a solution comprising a polymer, thereby forming a tissue-polymer suspension; extruding the tissue-polymer suspension into an bead-forming solution, thereby forming a therapeutic implant comprising beads of said polymer within which the renal tissue is encapsulated.

Abstract: Provided are therapeutic implants comprising renal tissue encapsulated within a polymer bead. Also disclosed are methods for treating a disease state in a subject comprising implanting within said subject a therapeutic implant comprising renal tissue encapsulated within a polymer bead. Also provided are methods for making a therapeutic implant comprising: providing renal tissue; mixing the renal tissue with a solution comprising a polymer, thereby forming a tissue-polymer suspension; extruding the tissue-polymer suspension into an bead-forming solution, thereby forming a therapeutic implant comprising beads of said polymer within which the renal tissue is encapsulated.

Abstract: Cells derived from human umbilical cords are disclosed along with methods for their therapeutic use. Isolation techniques, culture methods and detailed characterization of the cells with respect to their cell surface markers, gene expression, and their secretion of trophic factors are described.

Abstract: We have disclosed an induced pluripotent stem cell and the method of preparing the induced pluripotent stem cell from a human umbilical cord tissue-derived cell. More particularly, we have disclosed a human umbilical cord tissue-derived iPS cell which may be differentiated into cells of ectoderm, mesoderm, and endoderm lineages.

Abstract: Provided are therapeutic implants comprising renal tissue encapsulated within a polymer bead. Also disclosed are methods for treating a disease state in a subject comprising implanting within said subject a therapeutic implant comprising renal tissue encapsulated within a polymer bead. Also provided are methods for making a therapeutic implant comprising: providing renal tissue; mixing the renal tissue with a solution comprising a polymer, thereby forming a tissue-polymer suspension; extruding the tissue-polymer suspension into an bead-forming solution, thereby forming a therapeutic implant comprising beads of said polymer within which the renal tissue is encapsulated.

Abstract: We have disclosed an induced pluripotent stem cell and the method of preparing the induced pluripotent stem cell from a human kidney-derived cell. More particularly, we have disclosed a human kidney-derived iPS cell which may be differentiated into cells of ectoderm, mesoderm, and endoderm lineages.

Abstract: We have disclosed an induced pluripotent stem cell and the method of preparing the induced pluripotent stem cell from a human umbilical cord tissue-derived cell. More particularly, we have disclosed a human umbilical cord tissue-derived iPS cell which may be differentiated into cells of ectoderm, mesoderm, and endoderm lineages.

Abstract: We have disclosed an induced pluripotent stem cell and the method of preparing the induced pluripotent stem cell from a human kidney-derived cell. More particularly, we have disclosed a human kidney-derived iPS cell which may be differentiated into cells of ectoderm, mesoderm, and endoderm lineages.

Abstract: Cells derived from human umbilical cords are disclosed along with methods for their therapeutic use. Isolation techniques, culture methods and detailed characterization of the cells with respect to their cell surface markers, gene expression, and their secretion of trophic factors are described.

Abstract: An isolated mammalian internal mammary artery-derived cell is disclosed. Furthermore, methods of isolating the mammalian internal mammary artery-derived cell are disclosed. The cell is useful in tissue engineering technologies, specifically in vascular tissue engineering.

Abstract: This application invention discloses bioartificial proximal tubule device, constructed by preparing a decellularized biological matrix, seeding the biological matrix with mammalian kidney-derived cells and optionally mammalian endothelial cells. The device may then be cultured statically or matured using bioreactor culture to allow differentiation of the kidney cells into functioning proximal tubule cells. The device is capable of carrying out proximal tubule functions. The application also describes various methods of making the proximal tubule devices. The application also further describes methods of use of bioartificial proximal tubule devices for e.g. in vitro studies of tubule cell transport, toxicity effects of various compounds or pharmaceutical compound screening.

Abstract: Methods for treating a patient having a disease or damage to at least one kidney are provided. The methods comprise administering cells obtained from human umbilical cord tissue, or administering pharmaceutical compositions comprising such cells or prepared from such cells. When administered, the cells promote and support the repair and regeneration of the diseased or damaged kidney tissue in the patient. Pharmaceutical compositions for use in the inventive methods, as well as kits for practicing the methods are also provided.