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: 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 affinity peptides toward infliximab. More specifically we have disclosed an affinity biomatrix where the affinity peptide is covalently attached to a biocompatible, biodegradable polymer. The affinity biomatrix is useful in preparing controlled release devices for infliximab.

Abstract: This invention encompasses methods, pharmaceutical compositions, and kits for modulating (e.g. reducing) the production of pro-inflammatory mediators involved in the pathology of a lung disease, disorder, and/or injury in a patient having the lung disease, disorder, and/or injury. The invention also encompasses methods, pharmaceutical compositions, and kits for inhibiting the production of pro-inflammatory mediators involved in the pathology of a lung disease, disorder, and/or injury in a patient having the lung disease, disorder, and/or injury. In one embodiment, the umbilical cord tissue-derived cells are isolated from human umbilical cord tissue substantially free of blood, are capable of self-renewal and expansion in culture, lack the production of CD117 or CD45, and do not express hTERT or telomerase.

Abstract: A method of separating blood by providing a horizontal substrate having a plurality of oxygen plasma-treated polypropylene pillars extending from the surface of a polypropylene film, depositing a whole blood sample on an upper surface of the substrate, collecting red blood cells on the upper surface of the pillars and permitting remaining components of said whole blood sample to flow downward and through the pillars.

Abstract: A blood clotting substrate and device which has a plurality of oxygen plasma-treated polypropylene pillars extending from the surface of a polypropylene film.

Abstract: Synthetic polymer substrates comprising a hierarchical surface structure of multiple domes and multiple pillars on said domes, wherein said substrate is a synthetic polymer film, said domes have diameters in the range from about 5 ?m to about 400 ?m, heights in the range from about 2.5 ?m and about 500 ?m, and said pillars have diameters in the range from about 20 nm to about 5 ?m and aspect ratios of from about 2 to about 50, and methods of making and using them.

Abstract: This invention relates to methods of treating stroke by intranasal administration of umbilical cord tissue-derived cells, which are isolated from mammalian umbilical cord tissue substantially free of blood or expanded in culture from a cell isolated from mammalian umbilical cord tissue substantially free of blood, are capable of self-renewal and expansion in culture, and do not produce CD117 and/or telomerase. The methods of the invention regenerate, repair and improve neural tissue and improve behavior and neurological function in stroke patients.

Abstract: The invention relates to methods for detecting allogeneic therapeutic cells (such as human umbilical cord tissue-derived cells (hUTC)) in blood. The methods includes the steps of identifying one or more one or more markers positive for allogeneic therapeutic cells (e.g. hUTC) and one or more markers positive for human peripheral blood mononuclear cells (PBMC); providing a blood sample from a patient that has been treated with allogeneic therapeutic cells (e.g. hUTC), analyzing the sample using an assay method to detect one or more markers positive for PBMC and one or more markers positive for allogeneic therapeutic cells (e.g. hUTC); and distinguishing between the PBMC and one or more markers positive for allogeneic therapeutic cells (e.g. hUTC). In one embodiment, the cells are hUTC and the markers positive of hUTC include CD10 and/or CD13 and the one or more markers positive for PBMC includes CD45.

Abstract: This invention relates to methods of treating amyotrophic lateral sclerosis. In particular, the invention provides for methods of treating amyotrophic lateral sclerosis by administering umbilical cord tissue-derived cells, an effective amount of a substantially homogenous population of umbilical cord tissue-derived cells or a pharmaceutical composition comprising umbilical cord tissue-derived cells to a patient.

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: 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: Cells derived from postpartum tissue such as the umbilical cord and placenta, and methods for their use to regenerate, repair, and improve neural tissue, and to improve behavior and neurological function in stroke patients are disclosed.

Abstract: Cells derived from postpartum umbilicus and placenta are disclosed. Pharmaceutical compositions, devices and methods for the regeneration or repair of neural tissue using the postpartum-derived cells are also disclosed.

Abstract: Novel semi-crystalline, epsilon-caprolactone-rich block copolymers of epsilon-caprolactone and p-dioxanone for long term absorbable medical applications are disclosed. The novel polymer compositions are useful for long term absorbable surgical sutures, and other medical devices. Also disclosed are compositions and methods of using tissue engineered blood vessels to repair and regenerate blood vessels of patients with vascular disease.

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: Provided are methods for sterilizing a material comprising a biologically-active agent comprising irradiating said material with ionizing radiation at a dose of about 5 kGy to about 25 kGy while maintaining said material in an atmosphere comprising at least 95% by volume inert gas and at a temperature of about 4° C. or lower. Also provided are sterilized materials comprising a biologically-active agent, wherein said materials exhibit substantially the same amount of biological activity as a non-sterilized control.

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.