Abstract: This invention is directed to coral scaffolds seeded with precursor cells in culture in the presence of a chelator and uses thereof in inducing or enhancing bone and/or cartilage formation in a subject, and kits related thereto. This invention is also directed to use of cadherin-upregulating coral for treating cancer or inhibiting cancer progression. This invention is also directed to use of aragonite or calcite-producing species for in vivo calcium release, and its application to the treatment of skin diseases, disorders or conditions.

Abstract: Nuclear Transport Modifiers such as cSN50 and cSN50.1, afford in vivo islet protection following a 2-day course of intense treatment in autoimmune diabetes-prone, non-obese diabetic (NOD) mice, a widely used model of Type 1 diabetes (T1D), which resulted in a diabetes-free state for one year without apparent toxicity and the need to use insulin. cSN50 precipitously reduces the accumulation of islet-destructive autoreactive lymphocytes while enhancing activation-induced cell death of T and B lymphocytes derived from NOD mice. cSN50 attenuated pro-inflammatory cytokine and chemokine production in immune cells in this model of human T1D. cSN50 also provides cytoprotection of beta cells, therefore preserving residual insulin-producing capacity. Because intracellular delivery of a Nuclear Transport Modifier peptide such as cSN50 and cSN50.

Abstract: A reagent composition containing GDH-PQQ as an enzyme-co-factor and screen-printed on working and counter electrodes of electrochemical biosensors, maintains activity of the enzyme reagents by proper selection of components. A preferred composition includes hydrophilic polymers, amorphous untreated silica, buffers, surfactants, and a mediator. For example, the biosensor is useful in the amperometric determination of glucose.

Abstract: A method of parenterally administering a composition, the method including parenterally administering to a person a composition including krill oil in an oil-in-water emulsion. A parenterally applicable pharmaceutical composition, including an oil-in-water emulsion including a phospholipid obtained from a marine crustacean.

Abstract: The present invention relates to scaffolds that can physically guide cells, e.g. neurons, while best matching the material properties of native tissue. The present invention also relates to methods of generating such scaffolds, and for the use of such scaffolds, e.g. in spinal cord and peripheral nerve injury repair. The methods of the present invention include a uniquely controlled freeze casting process to generate highly porous, linearly oriented scaffolds. The scaffolds of the present invention not only comprise a highly aligned porosity, but also contain secondary guidance structures in the form of ridges running parallel to the pores to create a series of microstructured and highly aligned channels. This hierarchy of structural guidance aligns and guides neurite outgrowth down the channels created by the ridges, and keep neurites from branching perpendicular to the inter-ridge grooves.

Abstract: Methods and therapeutic treatments of ocular diseases are provided including applying peg-Arginase I to affected eyes. Methods are provided that simultaneously treat inflammation and neovascularization of eyes while promoting healing. Methods are provided to treat lesions or infections of an eye.

Abstract: Methods and devices for applying hemodynamic patterns to human/animal cells in culture are described. Hemodynamic flow patterns are measured directly from the human circulation and translated to a motor that controls the rotation of a cone. The cone is submerged in fluid (i.e., cell culture media) and brought into close proximity to the cells. Rotation of the cone creates time-varying shear stresses. This model closely mimics the physiological hemodynamic forces imparted on endothelial cells in vivo. A TRANSWELL coculture dish (i.e., a coculture dish comprising an artificial porous membrane) may be incorporated, permitting two, three, or more different cell types to be physically separated within the culture dish environment. In-flow and out-flow tubing may be used to supply media, drugs, etc. separately and independently to both the inner and outer chambers. The physical separation of the cell types permits each cell type to be separately isolated for analysis.

Abstract: A composite oil displacement agent contains the following main components: 20 to 40% of microorganism, 6 to 30% of surfactant, 5 to 10% of macromolecular modifier, 1 to 5% of viscosity reducer, 1 to 5% of additive and the balance of water. The preparation method thereof comprises the steps of: in proportion by weight, adding the microorganism, the surfactant, the macromolecular modifier, the viscosity reducer, the additive, and the water to a reactor provided with a stirring device, and stirring the components for 1.5 to 2 h at room temperature to obtain the finished product.

Abstract: Disclosed are compositions and methods for using label free optical biosensors for performing cell assays. In certain embodiments the assays can be performed in high throughput methods and can be multiplexed.

Abstract: Compositions comprising Glutathione Reductase (GSSG-r) and Oxidized Glutathione (GSSG) or pharmaceutically acceptable salts thereof for pharmaceutical use as antiviral and antibacterial agents and for the protection against the toxicity of free radicals and in particular radicals produced by the radiolysis of cellular water are provided. Methods of making and using such compositions are also provided.

Abstract: The present invention relates to methods for culturing spirochetes, in particular Borrelia burgdorferi. The present invention also provides methods of identifying spirochetes present in a biological sample. The present invention further provides methods of diagnosing diseases cause by a spirochete infection, such as Lyme disease, syphilis, and multiple sclerosis. The present invention further provides methods for identifying spirochete susceptibilities to antimicrobials and antimicrobial compositions and cocktails. The present invention also provides methods for treating subjects suspected of having a spirochete infection.

Abstract: A method for forming neuromuscular junctions includes forming functional neuromuscular junctions between motoneurons and muscle cells by co-culturing one or more human motoneurons and one or more human muscle cells in a substantially serum-free medium. A synthetic mammalian neuromuscular junction includes a human motoneuron functionally linked to a human muscle cell in a substantially serum-free medium. An artificial substrate may be used to support the one or more neuromuscular junctions.

Abstract: Although it can be farnesylated, the mutant lamin A protein expressed in Hutchinson Gilford Progeria Syndrome (HGPS) cannot be defarnesylated because the characteristic mutation causes deletion of a cleavage site necessary for binding the protease ZMPSTE24 and effecting defarnesylation. The result is an aberrant farnesylated protein (called “progerin”) that alters normal lamin A function as a dominant negative, as well as assuming its own aberrant function through its association with the nuclear membrane. The retention of farnesylation, and potentially other abnormal properties of progerin and other abnormal lamin gene protein products, produces disease. Farnesyltransferase inhibitors (FTIs) (both direct effectors and indirect inhibitors) will inhibit the formation of progerin, cause a decrease in lamin A protein, and/or an increase prelamin A protein. Decreasing the amount of aberrant protein improves cellular effects caused by and progerin expression.

Abstract: Described is a composition for preventing or treating an oxidative stress related disease or condition in a subject. The disease or condition is characterized by the presence of excess oxidative compounds in the subject, and the composition includes a synergistic combination of therapeutically effective amounts of resveratrol to promote NAD+ synthesis in the subject; a chelating agent to reduce production of additional oxidative compounds in the subject; and an antioxidant to minimize the oxidative activity in the subject.

Abstract: A method for assessing whether a patient subjected to an antigen-specific Tr1 cell therapy is responding to the treatment, includes: determining in vitro the antigen-specific proliferation of T cells contained in a cell sample from the patient; and comparing the antigen-specific proliferation to a standard reference, thereby determining whether the patient is responding or not to the treatment.

Abstract: A method for measuring an analyte is described that includes the steps of: i) preparing a reagent (D) in which an enzyme (A) and an enzyme (B) coexist in the absence of the analyte; ii) bringing the analyte into contact with the enzyme (A) and the enzyme (B) so that the enzyme (A) acts on the analyte to produce a product (E), on which the enzyme (B) does not substantially act, from the analyte; iii) producing a product (C) by allowing the enzyme (A) or an enzyme (F) that is different from the enzyme (A) that acts on the analyte to produce a product (C) to act on the analyte and/or the product (E); and iv) detecting the product (C) by the enzyme (B).

Abstract: The present invention relates to a therapeutic agent for liver-related diseases, comprising adipose tissue-derived multilineage progenitor cells; and others.

Abstract: The present invention provides methods, compositions, and systems for reinitiating meiosis in cells in meiotic arrest and oocyte activation in fertilized, but un-activated, oocytes. In certain embodiments, Zn-binding moieties (e.g., zinc chelators) are used for reinitiating meiosis or oocyte activation.

Abstract: The invention relates generally to methods and compositions for the cryopreservation and/or vitrification of tissue including articular cartilage and the preparation of said tissue for clinical or research use, including but not limited to joint replacement and the treatment and prevention of osteoarthritis.

Abstract: A microfluidic device for culturing cells, termed a microscale cell culture analog (?CCA), is provided. The microfluidic device allows multiple cell or tissue types to be cultured in a physiologically relevant environment, facilitates high-throughput operation and can be used for drug discovery. The microfluidic device uses gravity-induced fluidic flow, eliminating the need for a pump and preventing formation of air bubbles. Reciprocating motion between a pair of connected reservoirs is used to effect the gravity-induced flow in microfluidic channels. Bacterial contamination is reduced and high throughput enabled by eliminating a pump. The microfluidic device integrates a pharmacokinetic-pharmacodynamic (PK-PD) model to enable PK-PD analyses on-chip. This combined in vitro/in silico system enables prediction of drug toxicity in a more realistic manner than conventional in vitro systems.