Abstract: Provided are compositions comprising a depilatory active; and a surfactant, wherein the composition has a Yield Stress of from about 1 Pascal (Pa) to about 1500 Pa, and methods of use thereof.

Abstract: A system and method for forming a bone construct include providing bone marrow stromal cells on a substrate without disposing the cells within an exogenous scaffold, and culturing the cells in vitro in osteogenic media such that the cells form a confluent monolayer and detach from the substrate to form a self-organized three-dimensional bone construct. A system and method for forming a ligament construct using fibrogenic media and a system and method for forming a functionally integrated bone-ligament construct are also provided.

Abstract: The present invention provides a method of treating a skin ailment including administering to a subject in need thereof, a therapeutically effective amount of a composition including (i) a primary diamine; (ii) a secondary aromatic diamine; (iii) a polyisocyanate; and (iv) optionally, a polyol. The present invention also provides a method of forming a skin bandage.

Abstract: The invention discloses pharmaceutical compositions in liquid form comprising a peptide with the amino acid sequence KLKL5KLK and an oligodeoxynucleotide with the nucleic acid sequence (dIdC)13 and wherein the peptide and the oligodeoxynucleotide are present as sterile-filterable nanoparticles in the composition, thereby forming a suspension, characterized in that the mean particle size of the solid particles is less than 1 ?m.

Abstract: In one aspect, methods for separating biological tissue are described herein. In some embodiments, a method for separating tissue comprises providing a first composition comprising a polymerizable material, providing a second composition comprising a polymerization initiator, disposing the first composition at a first site beneath a first tissue layer, disposing the second composition at the first site, polymerizing the polymerizable material at the first site, and separating the first tissue layer from a second tissue layer.

Abstract: Embodiments of this invention generally relate to systems and methods for optical treatment and more particularly to non-invasive refractive treatment method based on sub wavelength particle implantation. In an embodiment, a method for optical treatment identifies an optical aberration of an eye, determines a dopant delivery device configuration in response to the optical aberration of the eye, wherein the determined dopant delivery device is configured to impose a desired correction to the eye to mitigate the identified optical aberration of the eye by applying a doping pattern to the eye so as to locally change a refractive index of the eye.

Abstract: A foamed biocompatible material for use in tissue repair and a kit for producing same. The kit includes a container having a valve and an inlet, and a tissue-repair composition containing a biocompatible material and a liquid carrier, in which the composition is placed in the inlet of the container and the inside of container has a pressure lower than that of the outside so that, upon opening the valve, the composition is forced into the container by the pressure difference to form a foam inside the container. Also disclosed is a method of preparing a foamed biocompatible material for tissue repair.

Abstract: Medical devices having a barrier layer comprising an inorganic material. The medical device has a reservoir containing a therapeutic agent and the barrier layer is disposed over the reservoir. In one aspect, the barrier layer has one permeability to the therapeutic agent at one portion of the medical device and a different permeability at another portion of the medical device. In another aspect, the dosage amount of the therapeutic agent in the reservoir at one portion of the medical device is different from the dosage amount of the therapeutic agent in the reservoir at another portion of the medical device. In another aspect, a bioresorbable layer is disposed over the barrier layer at one or more portions of the medical device, wherein the bioresorbable layer comprises a bioresorbable material. Also, methods of coating a medical device are disclosed, in which a barrier layer over a medical device is formed using a lithographic etching process where a plurality of particles serve as an etch mask.

Abstract: Methods for the preparation of polymer-templated core-shell nanoparticles include the steps of (a) preparing a cationic polymeric core material comprising polymeric micelles, and (b) coating the core material with a silica-comprising shell by depositing the shell onto the polymeric micelles from at least one silica precursor to form the core-shell nanoparticles. Compositions which include the core-shell nanoparticles are adapted to facilitate controlled delivery of at least one active agent into a system in response to controlled changes in the pH of the system.

Abstract: The invention is a shaving formulation comprising 0.3 to 5% by weight of noncrystalline amorphous silicon dioxide SiO2 which has not been produced pyrogenically, having a particle size of 2 to 30 ?m.

Abstract: Described is a spray-on hydrogel comprising water-soluble PEG polymers that cross-link in situ to form a hydrogel such that the cross-links are reversible. The hydrogel can be useful as a drug delivery composition, wound dressing or surgery adjuvant. Polyethylene glycol polymer and cross-linker solutions are sprayed simultaneously through a common orifice. Cross-linking via formation of thioether or disulfide bonds is initiated upon mixing, providing rapid gelation. The hydrogel components can be derivatized with RGD peptides or analogs thereof to promote retention in/on a body compartment such as the skin, surface of the eye, or a mucosa such as the vaginal mucosa. The cross-links are reversed using a reducing solution enabling easy removal of the hydrogel by dissolution. Processes for preparation of the cross-linker, RGD derivatized PEG and RGD-linked agents are also disclosed.

Abstract: Methods for improving the gastrointestinal tolerability of biguanide compounds and for treating metabolic disorders and/or inducing weight loss in patients in need thereof, particularly in individuals having a contraindication for treatment with biguanide compounds, are provided comprising administering delayed release formulations of such biguanide compounds, including metformin, targeted to the small intestine.

Abstract: This invention relates to biomaterial compositions, methods and kits for producing hydrogels with tunable physico-chemical properties. Specifically, the invention relates to producing cellulosic hydrogels having optimized physico-chemical properties enabling support of cell growth or as replacement or filler for tissue repair, reconstruction or augmentation.

Abstract: The present application relates to encapsulated benefit agents, compositions comprising such encapsulated benefit agents and processes for making and using compositions comprising such encapsulated benefit agents. Such encapsulated benefit agents eliminate or minimize one or more of the drawbacks of current encapsulated benefit agents and thus provide formulators with additional perfume delivery opportunities.

Abstract: Methods are disclosed for controlling the morphology and the release-rate of active agent from coating layers for medical devices comprising a polymer matrix and one or more active agents. The methods comprise fixing the morphology or phase distribution of the active agent prior to removing solvent from the coating composition. The coating layers can be used for controlled the delivery of an active agent or a combination of active agents.

Abstract: Disclosed is a pharmaceutical composition for gene delivery, comprising: (i) a gene; (ii) a water-soluble chitosan; (iii) a thiamine pyrophosphate or a pharmaceutically acceptable salt thereof; (iv) a protamine or a pharmaceutically acceptable salt thereof; and (v) a neutral or anionic phospholipid. The composition can introduce a gene into cells safely and effectively. Composed of non-toxic and injectable components, the composition is safe for the body and can be advantageously commercialized. Notably, it can deliver a gene at high efficiency in vivo as well as in vitro, and is stable in the blood.

Abstract: This invention provides novel solid pharmaceutical compositions and processes for the bulk production of said compositions. This invention also provides methods of using the pharmaceutical compositions in the treatment of cancer.

Abstract: A web material containing one or more active agents and methods for making same are provided.

Abstract: Methods and compositions for producing hydrogel capsules enveloped with at least one coating layer is disclosed. The coating formulations deposited on the surface of the capsules can improve the physical integrity and the water-retention properties of the alginate beads. The coating formulations can be sequentially applied in various combinations to obtain desirable properties, such as improved physical integrity, mechanical strength, and low permeability, that can extend the shelf-life of the capsules when incorporated into various consumer products.

Abstract: Topical, vitamin D, oral supplement compositions useful in treating oral inflammation comprising vitamin D in an aqueous-free emulsion containing a trans-oral mucosal absorption facilitator, where said emulsion forms a mucoadhesive coating in the presence of saliva; wherein saliva dissolution of the mucoadhesive gel releases vitamin D and the trans-oral mucosal, absorption facilitator; effecting: vitamin D passive diffusion; regulating in vivo availability and immune response of vitamin D; and maintaining adequate levels of circulating vitamin D while minimizing the risk of hypercalcemia.