Abstract: Provided herein are hydrogel compositions containing graphene, chitosan, a polyethylene (glycol) diacrylate (PEGDA). The hydrogel can optionally contain an N-isopropylacrylamide (NIPAM) (TPCG hydrogel). Also provided are methods for differentiating a cell on the hydrogels described herein. Further provided herein are methods for delivering a compound via the hydrogels described herein.

Abstract: Compositions and methods that employ various combinations of such factors as retinoic acid signaling inhibitors, antioxidants, BMP4, VEGF, prostaglandin E2 pathway stimulants, TPO, SCF, FLT-3, EPO, TGF?1, p38 MAPK inhibitors, beta adrenergic receptor agonists, cell cycle inhibitors, RXR agonists, Cripto, and chromatin remodelers to drive differentiation of pluripotent stem cells towards primitive blood cells. Uses of such primitive blood cells are provided.

Abstract: A method of obtaining pancreatic endocrine cells from cells originating in an adipose tissue characterized by comprising culturing the adipose tissue-origin cells; the pancreatic endocrine cells that can be obtained thereby; a method of treating or preventing a disease caused by the hypofunction in pancreatic endocrine cells wherein the above-described pancreatic endocrine cells are used; a method of screening a substance capable of promoting or inhibiting the differentiation into pancreatic endocrine cells characterized by comprising adding a candidate substance to a medium in the course of culturing adipose tissue-origin cells to obtain the pancreatic endocrine cells; and so on.

Abstract: According to the invention there is provided methods for inducing pluripotent stem cells in vitro, comprising introducing a gene or polypeptide of a nuclear receptor and one or more gene or polypeptide selected from the group consisting of Sox, Krüppel-like factor or the myc family, to cells in vitro. The present invention also provides vectors and compositions for producing the same and methods for using the induced pluripotent stem cell for treating a patient in need of a pluripotent stem cell treatment.

Abstract: The present invention relates in part to nucleic acids encoding proteins, nucleic acids containing non-canonical nucleotides, therapeutics comprising nucleic acids, methods, kits, and devices for inducing cells to express proteins, methods, kits, and devices for transfecting, gene editing, and reprogramming cells, and cells, organisms, and therapeutics produced using these methods, kits, and devices. Methods for inducing cells to express proteins and for reprogramming and gene-editing cells using RNA are disclosed. Methods for producing cells from patient samples, cells produced using these methods, and therapeutics comprising cells produced using these methods are also disclosed.

Abstract: A pharmaceutical composition for the acute and/or chronic treatment or prevention of osteoarticular diseases includes an adequate pharmaceutical carrier or diluent, a polysaccharide and/or a glycosaminoglycan, an anti-inflammatory agent and stem cells.

Abstract: The invention generally regards methods for providing endothelial cells and precursors of endothelial cells from a variety of cell sources, such as pluripotent stem cells. Also provided are therapeutic compositions including the provided endothelial cells, and methods of using them for the treatment of subjects.

Abstract: The present invention relates to a method and composition for the aspiration, processing, testing and infusion of bone marrow derived stem cells, as an adjuvant treatment in cardiovascular disorders. More specifically, the invention provides for the methods and compositions for the aspiration, analysis, processing, infusate preparation and infusion of bone-marrow derived stem cells, particularly in a rapid point-of-care environment, wherein a centrifugal fractionation and optically monitored separation of the bone marrow yield desired cellular product in the desired concentration and viscosity.

Abstract: A cell preparation containing mesenchymal stem cells whose immunosuppression ability is maintained is produced by means of a serum-free or low-serum culture. A method for producing a cell preparation containing mesenchymal stem cells, comprising the steps of: (A) proliferating mesenchymal stem cells in a serum-free medium “A” containing an FGF, a PDGF, a TGF-?, an HGF, an EGF, at least one phospholipid, and at least one fatty acid; and (B) screening mesenchymal stem cells whose immunosuppression ability is maintained or improved, from the mesenchymal stem cells thus proliferated in the step (A).

Abstract: The present invention relates to a method and composition for the aspiration, processing, testing and infusion of bone marrow derived stem cells, as an adjuvant treatment in cardiovascular disorders. More specifically, the invention provides for the methods and compositions for the aspiration, analysis, processing, infusate preparation and infusion of bone-marrow derived stem cells, particularly in a rapid point-of-care environment, wherein a centrifugal fractionation and optically monitored separation of the bone marrow yield desired cellular product in the desired concentration and viscosity.

Abstract: Human somatic cells obtained from individuals with a genetic heart condition are reprogrammed to become induced pluripotent stem cells (iPS cells), and differentiated into cardiomyocytes for use in analysis, screening programs, and the like.

Abstract: The present invention is related generally to embryonic-like stem cells isolated from human umbilical cord blood, designated herein as cord blood-stem cells (CB-SC's), which display the characteristics of embryonic stem cells and hematopoietic cells. These cells have the capability of proliferation and are able to differentiate to multiple types of cells. In addition, the CB-SC display low immunogenicity and immune regulation. These cells are, therefore, suitable for use in stem cell-based therapies for the treatment of diseases such as Parkinson's disease, diabetes, spinal cord damage, multiple sclerosis, cardiovascular disease, stroke and birth defects, and for preventing, treating and/or reducing an autoimmune disease in a mammalian subject.

Abstract: Compositions and methods are provided herein for regenerating and repairing damaged or aged tissue or organs using nonviable lethally irradiated or lyophilized pluripotent stem cells. In one aspect, the compositions and methods described herein provide anti-aging benefits to the skin by increasing the hydration reducing fine lines, wrinkles, and pores of the skin. Compositions and methods are also provided for promoting wound healing using lyophilized pluripotent stem cell powder. A method is provided for inducing cardiac muscle regeneration in a primate comprising delivering nonviable lethally irradiated pluripotent stem cells to damaged or aged areas of the heart. The compositions and methods include nonviable lethally irradiated or lyophilized pluripotent stem cells. In one aspect, the compositions and methods utilize nonviable pluripotent stem cells in the form of a powder, such as lyophilized stem cells.

Abstract: Compositions and methods are provided herein for regenerating and repairing damaged or aged tissue or organs using nonviable lethally irradiated or lyophilized pluripotent stem cells. In one aspect, the compositions and methods described herein provide anti-aging benefits to the skin by increasing the hydration reducing fine lines, wrinkles, and pores of the skin. Compositions and methods are also provided for promoting wound healing using lyophilized pluripotent stem cell powder. A method is provided for inducing cardiac muscle regeneration in a primate comprising delivering nonviable lethally irradiated pluripotent stem cells to damaged or aged areas of the heart. The compositions and methods include nonviable lethally irradiated or lyophilized pluripotent stem cells. In one aspect, the compositions and methods utilize nonviable pluripotent stem cells in the form of a powder, such as lyophilized stem cells.

Abstract: A hair transplantation material prepared by a process comprising: refrigerating a hair portion comprising a hair shaft, a hair root, and a cell-collagen layer; and sterilizing the refrigerated hair.

Abstract: An object of the present invention is to provide a method for inducing the differentiation of erythropoietin-producing cells from human pluripotent stem cells. The above object is achieved by providing a method for inducing the differentiation of erythropoietin-producing cells from human pluripotent stem cells using a medium containing a specific growth factor and a specific compound.

Abstract: A method for designing or replicating a human or animal organ in the form of a functional model includes providing previously recorded structural-geometric data of the organ or organ part to be replicated, selecting reconstruction materials for the organ or organ part, allocating the structural-geometric data to the individually selected reconstruction materials, and carrying out a layered assembly by the model by successively applying site-selective assembly methods for at least one part of the reconstruction materials on the basis of an associated data set.

Abstract: The invention relates to the use of viral inactivated-plasma cryoprecipitate concentrate (VIPCC) comprising a suitable fibronactin/fibrinogen ratio for treating a spine disease, disorder or condition such as intervertebral disc degeneration.

Abstract: An apparatus and method is described for culturing and conditioning cells on a sample. The apparatus includes a fluid delivery system that transmits gas to a first surface of a sample and transmits liquid to an opposite surface of the sample without transmitting liquid onto the first surface. Further, while culturing cells on the sample, the apparatus enables a constant or variable tension and shear stress applied to the sample. The apparatus may thus, for example, be used to culture cells on an external surface of a tissue construct with air and culture cells underneath the tissue construct with a cell growth media. The fluid delivery system may alternatively transmit liquid cell growth media underneath and on the sides of the tissue construct without flowing onto a designated external surface of the tissue construct.

Abstract: A subpopulation of peripheral blood mononuclear cells (PBMCs) that is substantially devoid of CD3+ cells, CD19+ cells, CD56+ cells and optionally of CD16+ cells, for use in treatment of CNS injury is provided.

Abstract: The invention is directed to methods for treating cartilage disorders, diseases and injuries including, but not limited to, degenerative disc disease. The invention is also directed to methods for preventing cartilage disorders and diseases including, but not limited to, degenerative disc disease. The field of the invention is further directed to reducing inflammation associated with cartilage disorders, diseases and injuries including, but not limited to, degenerative disc disease.

Abstract: A method for making a nerve graft includes the following steps. A culture layer including a carbon nanotube film structure and a protein layer is provided. The protein layer is located on a surface of the carbon nanotube film structure. A number of nerve cells are seeded on a surface of the protein layer away from the carbon nanotube film structure. The nerve cells are cultured until a number of neurites branch from the nerve cells and are connected between the nerve cells.

Abstract: A microwell array chip made of silicon and having multiple microwells where each microwell is used to store a single specimen organic cell. The microwell of the array chip is of a size and shape to hold just one organic cell and the interior surface of the microwells are coated with a fluorocarbon film.

Abstract: Embodiments of the present invention provide a population of purified perivascular stem cells (PSC) or induced pluripotent stem cells (iPS) and a supernatant of stem cell free from the stem cell, a composition comprising any of these, and a method of using and making them.

Abstract: The present invention relates to a method for producing dendritic cells and their use in medicaments by genetic engineering aimed at functionally improving their therapeutic efficacy in the treatment of cancer, microbial infections, allergies, auto-immune diseases or organ and stem cell transplant rejection.

Abstract: A method for expanding mesenchymal cells derived from autologous bone marrow in autologous culture medium which can be used in a clinical setting, and a business method for performing such expansions in the future as a service for patients. A method for expanding mesenchymal cells derived from autologous bone marrow in autologous culture medium including a diagnostic kit for the autologous cell therapy to determine whether a patient will respond to the autologous cell therapy for treatment of a disease, in which said kit comprising a system for detecting gene and protein expression comprising at least two isolated DNA molecules wherein each isolated DNA molecule detects expression of a gene that is differentially expressed in the tissue of the patient that is intended to be the source of the autologous cell therapy.

Abstract: The present invention provides a pharmaceutical composition for preventing or treating arteriosclerosis, comprising: a pharmaceutically effective amount of a protein comprising the amino acid sequence of SEQ ID NO: 1; and a pharmaceutically acceptable carrier. The composition of the present invention exhibits no toxicity in the liver or kidney and effectively reduces the formation of atherosclerotic plaques, thereby exhibiting efficacy in treating arteriosclerosis.

Abstract: A material for treatment of cerebral infarction ameliorates angiopathy at a cerebral infarction region and improves brain function. The material for treatment of cerebral infarction according to the present invention comprises a dental pulp stem cell including at least one of a CD105-positive cell, an SP cell, a CD24-positive cell, a CD271-positive cell, and a CD150-positive cell. The material for treatment of cerebral infarction according to the present invention may contain a secretory protein of the dental pulp stem cell. Transplanted dental pulp stem cells do not directly differentiate into neural progenitor cells or neural cells and indirectly participate in the promotion of differentiation to restore and cure a cerebral infarction region such that the region becomes normal.

Abstract: The present invention provides a method for the repair of subcutaneous or dermal tissue in a subject, comprising in one aspect the injection of a suspension of allogeneic dermal fibroblasts into the subject. By injecting a suspension of allogeneic cells, the invention provides, for example, long-term augmentation of the subadjacent tissue without the disadvantages that accompany the preparation and/or use of presently available materials such as autologous fibroblasts cells or collagen. According to a first aspect of the invention there is provided a method for the augmentation of subcutaneous or dermal tissue in a subject, which method comprises the steps of: (i) providing a suspension of allogeneic dermal fibroblasts; and (ii) injecting an effective volume of the suspension into tissue subadjacent to the subcutaneous or dermal tissue so that the tissue is augmented. The method is preferably cosmetic.

Abstract: The present disclosure provides a method of determining the frequency and proliferative potential of progenitor cells in a starting cell preparation comprising (a) culturing the cell preparation for 5-10 days in a culture medium comprising FLT-3 Ligand (FL) and Thrombopoietin (TPO); (b) detecting and enumerating the colonies; and (c) assessing the frequency and proliferative potential of progenitor cells in the starting cell preparation based on the number of colonies in step (b). The number of colonies in step (b) correlates to the number of colonies in a standard 14-day colony-forming cell assay. The method is particularly useful for predicting and evaluating the suitability of grafts for transplantation.

Abstract: A method for treating an autism spectrum condition includes administering an effective dose of a TNF-? inhibiting agent to a person having an autism spectrum condition or pervasive development disorder and at least one of elevated TNF-? in the cerebrospinal fluid or elevated TNF-? in the serum, as compared to normal conditions; and lowering at least one of the elevated TNF-? in the cerebrospinal fluid or elevated TNF-? in the serum. A TNF-? inhibiting agent includes at least one of Lenalinomide; Thalidomide; L-Carnosine; Infliximab; Etanercept; a stem cell preparation; derivatives thereof, isomers thereof, or pharmaceutically acceptable salts thereof.

Abstract: An agent induces heat shock protein in human and animal cells. The agent includes at least one phenol compound that is a cinnamic acid derivative and at least one nonionic surfactant. The agent is useful in cosmetic preparations, food supplements and foodstuffs.

Abstract: A method of producing a modified acellular tissue matrix (mATM) from an acellular tissue matrix (ATM), where the mATM has a reduced stretchiness relative to the ATM, without substantially compromising its associated structural or functional integrity. The method includes providing an acellular tissue matrix (ATM) and exposing the ATM to elastase for a period of time.

Abstract: The present invention relates to a method of isolating hematopoietic stem cells from adipose tissue. The method yields a notably high number of CD34+, ALDHbr and/or ABCG2-expressing cells, comprising hematopoietic stem cells, permitting the use of the cells with no or minimal expansion.

Abstract: The present application relates to methods and compositions for the generation of therapeutic cells having reduced incidence of karyotypic abnormalities. In several embodiments cardiac stem cells are cultured in an antioxidant-supplemented media that reduces levels of reactive oxygen species, but does not down regulate DNA repair mechanisms. In several embodiments, physiological oxygen concentrations are used during culture in order to increase the proliferation of stem cells, decrease the senescence of the cells, decrease genomic instability, and/or augment the functionality of such cells for cellular therapies.

Abstract: Pro-healing agent formulation compositions, methods and treatments for enhancing vascular healing are disclosed herein. In some embodiments, a pro-healing agent is encapsulated, suspended, disposed within or loaded into a biodegradable carrier for sustained-release delivery to a denuded or damaged endothelium treatment area in a blood vessel. In some applications, the pro-healing agent can accelerate re-endothelialization of a denuded vascular region. In some applications, the pro-healing agent can assist in the regaining of endothelium functionality. The formulation can be delivered by a delivery assembly such as an infusion catheter, a porous balloon catheter, a needle injection catheter, a double balloon catheter or the like.

Abstract: Provided is a method including providing a population of cells including a target type of differentiated cells having a pre-identified cytoskeletal profile and at least one cell selected from undifferentiated cells, differentiating cells and differentiated cells being different from the target type of differentiated cells; and incubating the population of cells with a cytotoxic agent, in an amount and for a time period effective to form a modified population of cells including predominantly or consisting essentially of the target type of differentiated cells. The pre-identified cytoskeletal profile can include the presence of class III ?-tubulin on neuronal cells and the population of cells includes neural cells and neuronal cells.

Abstract: Provided are a composition for stimulating differentiation of MSCs into osteoblasts, which includes cryptotanshinone, and an osteogenesis stimulator including cryptotanshinone and MSCs. When the cryptotanshinone is treated to the MSCs, the differentiation into osteoblasts is stimulated, and thus osteogenesis of a patient may be stimulated by directly transplanting the differentiation-induced MSCs to the patient. Accordingly, the composition or osteogenesis stimulator may be used to treat patients having disability requiring stimulation of osteogenesis such as osteoporosis, bone fracture, bone grafting including alveolar bone grafting for implant placement, or other bone defects.

Abstract: The present invention relates to a method of reprogramming a somatic cell to produce an induced pluripotent stem (iPS) cell which is capable of differentiating into somatic cells derived from ectoderm, mesoderm or endoderm. The present invention also relates to the aforementioned iPS cells, methods of generating and maintaining iPS cells, and methods of using iPS cells.

Abstract: The present invention is concerned with methods for reprogramming of mammalian somatic cells and in particular to reprogramming of mature mammalian somatic cells into multi-potent precursor cells.

Abstract: The present invention relates to a manufacturing method of immune killer cells characterized in that an immune killer cell is induced in a culture medium containing concanavalin A (ConA), and the immune killer cell is maintained or expanded in a culture procedure. Antibody proteins are not used as a stimulant in the culture process to avoid the risk of being infected by zoonotic diseases and effectively increase the number and specific release of the immune killer cells.

Abstract: The present invention provides a composition for regenerating cartilage or treating a cartilage disease containing a monovalent metal salt of alginic acid for which the endotoxin level thereof has been lowered to an extent that does not substantially induce inflammation or fever. As a result, it is possible to provide a composition for regenerating cartilage that improves cartilage regenerative action and ease of application to a cartilage injury lesion, and a composition for treating a cartilage disease, which has the effects of protecting cartilage from mechanical irritation, inhibiting degenerative changes in cartilage caused by wear and inflammation, repairing a cartilage injury lesion, and inhibiting inflammation and pain of joint tissue.

Abstract: Pro-apoptotic compounds having a tripartite structure: A-L-B are disclosed. In these compounds A is an IBM mimetic moiety; L is a linker and B is a moiety that binds to a protein on the outer mitochondrial membrane. The compounds are useful for inducing cell apoptosis and therefore treating cancer.

Abstract: The present invention relates to a cellular therapeutic agent for treating urinary incontinence, and more particularly to a cellular therapeutic agent for treating urinary incontinence, which contains stem cells derived from the decidua of the placenta or menstrual fluid or stem cells derived from adipose. The decidua-derived stem cells or adipose-derived stem cells show the effects of increasing leak point pressure and urethral sphincter contractility, and thus are useful as an agent for treating urinary incontinence.

Abstract: A stent scaffold combined with amniotic tissue provides for a biocompatible stent that has improved biocompatibility and hemocompatibility. The amnion tissue can be variously modified or unmodified form of amnion tissue such as non-cryo amnion tissue, solubilized amnion tissue, amnion tissue fabric, chemically modified amnion tissue, amnion tissue treated with radiation, amnion tissue treated with heat, or a combination thereof. Materials such as polymer, placental tissue, pericardium tissue, small intestine submucosa can be used in combination with the amnion tissue. The amnion tissue can be attached to the inside, the outside, both inside and outside, or complete encapsulation of the stent scaffold. In some embodiments, at least part of the covering or lining comprises a plurality of layers of amnion tissue. The method of making the biocompatible stent and its delivery and deployment are also discussed.

Abstract: The prognosis of a cancer patient can be determined by analyzing the modulation of expression of specified genes in the tumor tissue. Genes uniquely up-regulated in adult stem cells that can reconstitute the tissue of the tumor are analyzed for up-regulation in the patient's tumor. Up-regulation of a plurality of such genes in the tumor is an indication of good prognosis. Genes uniquely up-regulated in fetal stem cells are analyzed for up-regulation in the patient's tumor. Up-regulation of a plurality of such genes in the tumor are an indication of a poor prognosis. Specific genes are disclosed, the modulation of which, in a patient's prostate cancer tumor, will serve as an indication of prognosis. Patients with a good prognosis are subjected to watchful waiting. Patients with a poor prognosis are aggressively treated. Kits are provided containing a set of affinity reagents that specifically detect expression of the various genes.

Abstract: Provided is a method for increasing proliferation of mesenchymal stem cells. The method entails contacting the cells with 6-bromoindirubin-3?-oxime (BIO). This results in robust proliferation and “stemness” in a dose-dependent fashion, as indicated by the gene expression of two stem cell genes: Sox2 and Nanog.

Abstract: The invention is related to methods for expanding and differentiating hemopoietic progenitor cells in a medium comprising a collection of cytokines, desulphated glycosaminoglycan and human serum. The invention further relates to a collection of cells obtainable by a method of the invention, use of the collection of cells, and a kit of parts for expanding and differentiating hemopoietic progenitor cells.

Abstract: The present invention encompasses methods, and kits for the isolation and expansion of T regulatory cells having the CD45RA+ phenotype, including such cells from human umbilical cord blood.

Abstract: Methods are described for generating autologous tissue grafts, including generating grafts at the point of care, which include isolated cell populations that are enriched with stem cells and are mixed with hyaluronic acid and derivatives thereof. The hyaluronic acid localizes the cells to a desired injection site and stimulates collagen production thus enhancing the viability and the longevity of the graft.