Abstract: The present disclosure generally relates to constructs, formulations and methods for the treatment of various types of cancer. The constructs, formulations and methods as provided herein are particularly useful for the treatment of various tumorigenic cancers.

Abstract: The invention comprises an implantable cell device that includes a membrane defining and enclosing a chamber; a distance body within the chamber for reducing the diffusion distance for a biological active factor to or across the membrane; and a support scaffold within the chamber for increasing the cell support surface area per unit volume of the chamber for distributing cells.

Abstract: Methods are disclosed for forming tissue engineered, tubular bowel constructs from intestinal circular smooth muscle cells and enteric neural progenitor cells. The intestinal smooth muscle cells and neural progenitor cells can be seeded on a mold with a surface texture that induces longitudinal alignment of the intestinal smooth muscle cells and co-cultured until an innervated aligned smooth muscle sheet is obtained. The innervated smooth muscle sheet can then be wrapped around a tubular scaffold to form an intestinal tissue construct.

Abstract: The disclosure is directed to the use of nonviable pluripotent stem cells to improve age-related declines in tissue and organ function. In one aspect, nonviable pluripotent stem cells are used to improve cognition in a subject in need thereof. In another aspect, nonviable pluripotent stem cells are used to improve age-related cardiac dysfunction in a subject in need thereof. Administration of nonviable pluripotent stem cells provides a transient and safe form of heterochronic cellular transbiosis.

Abstract: A microfluidic structure for spacing out and aligning entities in an aqueous suspension is provided. The structure comprises: a channel for guiding entities in an aqueous suspension; a first comb of first inlets arranged on a first side of the channel for introducing a spacing medium into the channel; and a second comb of second inlets arranged on a second side of the channel for introducing the spacing medium into the channel; wherein the first side is opposite the second side, and wherein one of the first inlets has a corresponding, respective one of the second inlets at a substantially similar longitudinal position along the channel.

Abstract: Compositions and methods for treating tissue are provided. The compositions may include tissue matrix derived from adipose tissue suitable for injection, small-volume implantation, or use as a soft-tissue regenerative material. Also provided are methods for producing such compositions.

Abstract: Uses of expanded cord blood hematopoietic stem/progenitor cells (HSPC) are described. Examples include to reduce transplant rejection, to induce immune tolerance, to reduce total parenteral nutrition (TPN) feeding, opioid use, mucositis, and hospitalization following a medical procedure and to reduce graft versus host disease (GVHD) following an allogeneic transplant.

Abstract: The present invention relates to a method for preparing stem cells having a size suitable for intravascular administration, and preferably to a method for preparing stem cells with a diameter ranging from 11-16 ?m. Additionally, the present invention relates to media composition for preparing stem cells having a size suitable for intravascular administration. According to the present invention, stem cells having a size suitable for intravascular administration can be prepared such that stem cells administered into a vein can stably reach a target tissue, and thus can more efficiently increase efficacy displaying activity, thereby innovatively enhancing the efficacy of cell therapy using stem cells.

Abstract: A method is disclosed for recovering living cells highly efficiently from cryopreserved cells by thawing and a system designed for such a method. The method for recovering living cells from cryopreserved cells includes thawing cryopreserved cells and diluting the thawed cell suspension with a diluent, wherein the dilution is performed in such a way that the maximum load of osmotic pressure at the time of dilution is equal to or less than 250 mOsm/second.

Abstract: Provided is a method of inducing the differentiation of a stem cell into nerve progenitor cells, comprising the step (1) of forming a homogenous aggregate of stem cells in a serum-free medium (1) and the step (2) of suspension-culturing the homogenous aggregate of stem cells in the presence of a basement membrane reference standard.

Abstract: Cardiac neural crest cells and methods for making and using the same to effect cardiac injury is described herein.

Abstract: Compositions and methods are provided for treating a patient suffering from a disease associated with endothelial dysfunction by administering to the patient a pharmaceutical composition containing an effective amount of a synthetic collagen binding peptidoglycan.

Abstract: The present disclosure relates to a composition and methods for preparing a tissue-derived, dissolved extracellular matrix. In implementations, the extracellular matrix composition includes components native to the cornea including liquefied corneal tissue. The extracellular matrix composition can be prepared by dissolving extracted corneas in an aqueous solution of inorganic base. The resulting solution is then dialyzed to achieve a physiological pH. In some implementations, the extracellular matrix composition can be seeded and/or chemically cross-linked to form a gel matrix. The extracellular matrix and/or the gel matrix can be seeded with a desired cell type (e.g., endothelial cells, epithelial cells, stromal keratocytes, etc.) to stimulate cell proliferation and regeneration.

Abstract: Provided is a method of inducing oligodendrocyte precursor cells (OPCs) through direct reprogramming from human somatic cells into which a nucleic acid molecule encoding an Oct4 protein or Oct4 protein-treated human somatic cells. The method of inducing OPCs by treating Oct4-overexpressing human somatic cells with a low molecular weight substance may establish OPCs with high efficiency in a short period of time through direct reprogramming without via neural stem cells, and thus the OPCs are useful as a cell therapeutic agent for an intractable demyelinating disease.

Abstract: The present application provides methods and processes for making and using a mesenchymal stem cell secretome, as well as methods for treating ocular conditions and/disorders with the mesenchymal stem cell secretome described herein.

Abstract: Methods of differentiating unmodified adult stem cells into functional beta-like cells are provided, as well as compositions, tissues and devices containing such cells. The method requires inducing sequential expression of PDX1, NGN3, and MAFA in these stem cells to form reprogrammed beta cells. Methods of treating diabetes are also provided, comprising obtaining stem cells, preferably from a patient with diabetes, inducing sequential expression of PDX1, NGN3, and MAFA, in said stem cells to form reprogrammed beta cells, and introducing said reprogrammed beta cells into a pancreas of said patient. Alternatively, it may be possible to inject such cells systemically, if the cells are targeted for the pancreas. In yet another embodiment, the reprogrammed beta cells are placed into an artificial pancreas that is surgically placed or injected into the patient.

Abstract: Cell-based therapies for cartilage repair and regeneration selectively using chondrocytes carrying a CD24 surface marker are disclosed. In particular, chondrocytes carrying the CD24 surface marker have a high regenerative potential and low responsiveness to inflammatory cues. Since cartilage injuries as well as chronic cartilage degenerative conditions are often accompanied by a heightened inflammatory environment, cartilage cell populations carrying the CD24 surface marker, which are resistant to the inflammatory environment, provide more efficient cartilage repair. Thus, chondrocytes carrying the CD24 surface marker are useful in cell-based therapies for regenerating or repairing cartilage.

Abstract: Disclosed herein are compositions and methods for treating, ameliorating or preventing a retinal disease or condition; improving a photopic (day light) vision; for improving correcting visual acuity, improving macular function, improving a visual field, or improving scotopic (night) vision by administration of retinal progenitor cells. The subject matter described herein also provides cell populations comprising retinal progenitor cells and methods of isolation thereof.

Abstract: An implantable composition can include methacrylated solubilized devitalized cartilage (MeSDVC) with or without devitalized cartilage (DVC) particles. These compositions can be hydrogel precursors. After implantation, the MeSDVC may be crosslinked so as to form a hydrogel. The crosslinked hydrogel can include the DVC particles. A hydrogel precursor matrix (e.g., not crosslinked) can include a crosslinkable substance that can be crosslinked into a hydrogel, where DVC particles are included in the precursor matrix. The hydrogel precursor matrix can be located in a tissue defect site, such as a hole or recess in a cartilage or bone, and then crosslinked into a hydrogel that has the DVC particles therein.

Abstract: The invention relates to a method for predicting the clinical response to a therapy based on the administration of mesenchymal stem cells (MSCs) in a patient suffering from an immune-mediated inflammatory disease. The invention also relates to methods of personalised medicine as well as to therapeutic uses of MSCs in a patient suffering from an immune-mediated inflammatory disease.

Abstract: Aspects include methods of fabricating antibacterial surfaces for medical implant devices including patterning a photoresist layer on a silicon substrate and etching the silicon to generate a plurality of nanopillars. Aspects also include removing the photoresist layer from the structure and coating the plurality of nanopillars with a biocompatible film. Aspects also include a system for preventing bacterial infection associated with medical implants including a thin silicon film including a plurality of nanopillars.

Abstract: A method for generating chondrocytes and/or cartilage, optionally articular like non-hypertrophic chondrocyte cells and/or cartilage like tissue and/or hypertrophic chondrocyte like cells and/or cartilage like tissue, the method comprising: a. culturing a primitive streak-like mesoderm population, optionally a CD56+, PDGFRalpha+ KDR? primitive streak-like mesoderm population, with a paraxial mesoderm specifying cocktail comprising: i. a FGF agonist; ii. a BMP inhibitor; optionally Noggin, LDN-193189, Dorsomorphin; and iii. optionally one or more of a TGFbeta inhibitor, optionally SB431524; and a Wnt inhibitor, optionally DKK1, IWP2, or XAV939; ?to specify a paraxial mesoderm population expressing cell surface CD73, CD105 and/or PDGFR-beta; b. generating a chondrocyte precursor population comprising: i. culturing the paraxial mesoderm population expressing CD73, CD105 and/or PDGFR-beta at a high cell density optionally in serum free or serum containing media; ii.

Abstract: The present disclosure relates to nucleic acid promoter sequences that are able to specifically express genes operatively linked to the promoter in brainstem and spinal motor neuron cells, and to methods for using such promoters to selectively express genes in motor neurons in vitro and in vivo. It is based, at least in part, on the discovery that the nucleic acid of SEQ ID NO: 1 functioned as a motor neuron-specific promoter and was successful in expressing transgenes in motor neuron cells in vivo. The present disclosure also relates to compositions that can increase the activity or expression level of miR-218 and to compositions that can decrease the expression of miR-218 target nucleic acids.

Abstract: It has been discovered that administering therapeutically effective amounts of an antibiotic that kills Gram-negative bacteria, together with an anti-ceramide antibody or anti-ceramide mimetic, treats and prevents an array of diseases mediated by cytolytic T lymphocyte (CTL)-induced killing and/or by damage to endothelial microvasculature, including Radiation GI syndrome, GvHD disease, inflammatory diseases and autoimmune diseases.

Abstract: Methods of obtaining a cell population enriched for tumor-reactive T cells, the method comprising: (a) obtaining a bulk population of peripheral blood mononuclear cells (PBMCs) from a sample of peripheral blood; (b) specifically selecting CD8+ T cells that also express PD-1 and/or TIM-3 from the bulk population; and (c) separating the cells selected in (b) from unselected cells to obtain a cell population enriched for tumor-reactive T cells are disclosed. Related methods of administering a cell population enriched for tumor-reactive T cells to a mammal, methods of obtaining a pharmaceutical composition comprising a cell population enriched for tumor-reactive T cells, and isolated or purified cell populations are also disclosed.

Abstract: The present invention provides a composition for inhibiting the survival or growth of a tubercle bacillus, containing a material which induces the polarization of a macrophage into an M1 macrophage, and a method for inhibiting the survival or growth of the tubercle bacillus by using the composition.

Abstract: The present invention relates to a method for producing mammalian neural plate border stem cells (NPBSCs), comprising: (a) differentiation of mammalian pluripotent stem cells by (a-i) culturing mammalian pluripotent stem cells in pluripotent stem cell medium for about 24 to about 96 hours, wherein the pluripotent stem cell medium comprises: (i) an inhibitor of the activin/TGF-? signalling pathway; (ii) an inhibitor of the BMP signalling pathway; (iii) an activator of the canonical WNT signalling pathway; and (iv) an activator of the Hedgehog signalling pathway; subsequently (a-ii) culturing the cells obtained in step (a-i) for about 24 to about 96 hours in a neural medium, wherein the neural medium comprises: (i) an inhibitor of the Activin/TGF-? signalling pathway; (ii) an inhibitor of the BMP signalling pathway; (iii) an activator of the canonical WNT signalling pathway; and (iv) an activator of the Hedgehog signalling pathway; subsequently (a-iii) culturing the cells obtained in step (a-ii) for about 24 to

Abstract: Methods for priming of vaccines including administering to a patient a composition including one or more integrin activating compounds capable of adjuvanting an antigen and capable of adjuvanting one or more antigens contained in a vaccine preparation.

Abstract: The present invention relates to compositions and methods of inducing angiogenesis and methods of treating a pathology that would benefit from angiogenesis by use of a composition comprising partially purified intact mitochondria and/or ruptured mitochondria derived therefrom.

Abstract: Methods are provided for long term culture of mammalian intestinal cells. Cultures are initiated with fragments of mammalian intestinal tissue, which are then maintained embedded in a gel substrate that provides an air-liquid interface. Intestinal epithelium in cultures of the invention can be continuously grown for extended periods of time. Mammalian intestinal cells cultured by the methods of the invention recapitulate features of intestinal growth in vivo.

Abstract: A composition including adult pluripotent olfactory stem cells is provided. The adult pluripotent olfactory stem cells are obtained by culturing a cell mixture from an olfactory tissue of a mammal in media containing growth factors and then isolating cells which express B-lymphoma moloney murine leukemia virus insertion region-1 (Bmi-1).

Abstract: One aspect of the present invention provides methods of treating a viral infection in a subject including administrating a therapeutically effective amount of at least one Wnt ligand protein selected from Wnt1, Wnt2, Wnt2B, Wnt3, Wnt3A, Wnt4, Wnt5A, Wnt5B, Wnt6, Wnt7A, Wnt7B, Wnt8A, Wnt8B, Wnt9A, Wnt9B, Wnt10A, Wnt10B, Wnt11 and Wnt16. In one embodiment, the subject is a human and the infection is a human immunodeficiency virus infection. Another aspect provides drug combinations for treating viral infections.

Abstract: The present invention addresses the problem of providing a method for obtaining Schwann cells directly (by direct reprogramming) without passing through pluripotent stem cells, such as ES cells or iPS cells. As a means for solving this problem, the present invention provides a method for preparing Schwann cells that includes a step of introducing into somatic cells of a mammal at least one gene selected from the group consisting of SOX10 genes and KROX20 genes, or an expression product thereof.

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: Ctsk is used as a marker to identify, track, and manipulate Ctsk positive cartilaginous stem cells for cartilage repair and regeneration in vitro and in vivo.

Abstract: A fluid handling system is provided that includes a controller, a plurality of valves, a pump, and an interface in communication with the controller. The valves can be operatively connected with a conduit to along a flow path. Each of the valves is controlled by the controller for selective movement between a first position and a second position. The first position closes the flow path, while the second position opens the flow path. The pump can be operatively connected with the conduit and the is controlled by the controller for selective pumping of fluid through the flow path. The interface allows selective definition of the flow path through the valves.

Abstract: The present invention relates to treatment of pulmonary fibrosis with umbilical mesenchymal stem cell.

Abstract: Means which enables preparation of a thick cell aggregate by a simple process without an operation of detaching and stacking of cells is disclosed. The method for preparing a three-dimensional cell aggregate by the present invention comprises: a cell encasing step of placing a cell suspension in a cell container; and a pressure application step of applying pressure to cells in the container. The cell encasing step and the pressure application step may be carried out a plurality of times. By the present invention, a thick, robust cell aggregate can be obtained by a simple operation of applying pressure to a cell suspension or a medium containing cells. Since the method does not require an operation of stacking a plurality of cell sheets, the cells are hardly damaged, and the conditions of the cells can be favorably maintained, so that the cells can be advantageously used as a tissue piece for transplantation.

Abstract: The present invention provides novel stem cell compositions having significant therapeutic and practical advantages, as well as methods of preparing and using such compositions for the treatment and prevention of injury and disease in patients. The invention may be applied to stem cell populations isolated from a wide variety of animals, including humans, and tissues. In particular applications, the invention is used to prepare a stem cell composition from a collagen-based tissue, such as adipose tissue, isolated from a patient, and the stem cell composition is subsequently provided to a site of actual or potential injury in the patient. The invention further includes related kits comprising the stem cell compositions, which are remarkably stable and retain viability and efficacy during storage and shipment.

Abstract: The methods and compositions described herein relate to producing, expanding, enriching, and/or maintaining hematopoietic stem cells ex vivo by treating the cells with an agent(s) that exhibits two or more activities selected from modulation of histone methylation; inhibition of TGF? signaling; inhibition of p38 signaling; activation of canonical Wnt signaling; and modulation of histone acetylation. In some embodiments, the technology described herein relates to transplantation of hematopoietic stem cells.

Abstract: Hydrodynamic methods for conformally coating non-uniform size cells and cell clusters for implantation, thus preventing immune rejection or inflammation or autoimmune destruction while preserving cell functionality. A method for conformally coating cells and c clusters with hydrogels that are biocompatible, mechanically and chemically stable and porous, with an appropriate pore cut-off size. The methods of the invention are advantageously reproducible and result in a relatively high yield of coated versus non-coated cell clusters, without compromising cell functionality. Conformal coating devices configured to perform the methods of the invention, methods of optimally utilizing said devices and purifying the coated islets, and coated biomaterials made by said methods.

Abstract: Hydrodynamic methods for conformally coating non-uniform size cells and cell clusters for implantation, thus preventing immune rejection or inflammation or autoimmune destruction while preserving cell functionality. A method for conformally coating cells and cell clusters with hydrogels that are biocompatible, mechanically and chemically stable and porous, with an appropriate pore cut-off size. The methods of the invention are advantageously reproducible and result in a relatively high yield of coated versus non-coated cell clusters, without compromising cell functionality. Conformal coating devices configured to perform the methods of the invention, methods of optimally utilizing said devices and purifying the coated islets, and coated biomaterials made by said methods.

Abstract: A system for accelerating and/or inhibiting the migration of cells by applying a time-varying magnetic field to induce eddy currents that promote electrotaxis (galvanotaxis) of cells without the need for chemokines or glucose. The present invention can also be used to study and quantify the metastatic potential of different cell lines.

Abstract: Systems and methods for uniquely identifying fluid-phase products by endowing them with fingerprints composed of dispersed colloidal particles, and by reading out those fingerprints on demand using Total Holographic Characterization. A library of chemically inert colloidal particles is developed that can be dispersed into soft materials, the stoichiometry of the mixture encoding user-specified information, including information about the host material. Encoded information then can be recovered by high-speed analysis of holographic microscopy images of the dispersed particles. Specifically, holograms of individual colloidal spheres are analyzed with predictions of the theory of light scattering to measure each sphere's radius and refractive index, thereby building up the distribution of particle properties one particle at a time. A complete analysis of a colloidal fingerprint requires several thousand single-particle holograms and can be completed in ten minutes.

Abstract: An isolated mammalian progenitor cell or its progeny, isolated from articular cartilage, is disclosed. Further is disclosed an equine progenitor cell isolated from the surface zone of equine articular cartilage tissue and uses thereof. Also disclosed are a method of tissue repair, a medicament, and a method of treating mammalian cartilage damage using such progenitor cells or progeny.

Abstract: A mesenchymal stem cell extract and its use are provided, wherein the mesenchymal stem cell extract comprises a trophic factor(s), such as bone morphogenetic protein-7 (BMP-7), stromal cell-derived factor-1 (SDF-1), vascular endothelial growth factor (VEGF), C-X-C chemokine receptor type-4 (CXCR4), brain-derived neurotrophic factor (BDNF), and/or interleukin-17 (IL-17), and wherein the extract is especially suitable for repairing skin aging.

Abstract: Demyelinated axons were remyelinated in the demyelinated rat model by collecting bone marrow cells from mouse bone marrow and transplanting the mononuclear cell fraction separated from these bone marrow cells.

Abstract: A method for coupling a body conduit to tissue includes engaging an implant about an outer surface of a catheter. The implant receives a bioactive agent having tissue growth properties. The method involves inserting the catheter through the body conduit and into a tissue opening across a resected area, positioning the implant in the resected area, inflating a balloon to anchor the catheter within the tissue opening such that the implant bridges the body conduit and the tissue opening across the resected area, and maintaining the catheter and the implant in vivo to enable the bioactive agent to secure the implant in the resected area to permanently bridge the body conduit and the tissue opening.

Abstract: The present invention relates generally to methods and materials for use in the production of implants, particularly luminal tissue implants, where the implants are engineered by seeding of an acellular scaffold or matrix with muscle cell precursors and fibroblasts, for example injection seeding using particular ratios of cells. The present invention provides methods for producing tissue engineered constructs for implantation into a subject which can utilise novel seeding processes described herein for improved cell engraftment and differentiation. In addition, the invention describes methods for treating an individual by implantation of the engineered constructs or tissues of the invention.

Abstract: This invention provides disc stem cells, processes for obtaining and culturing disc stem cells, and methods for repairing damaged or diseased disc tissue comprising the use of the disc stem cells of the invention.