Thus, the present invention provides a composition in powder form comprising highly dispersed silica particles, polymethylsiloxane particles, and a cationic surfactant, wherein at least 25% by weight of the cationic surfactant is present in primary polymethylsiloxane particles carrying the cationic surfactant on their surface and/or in agglomerates of these primary particles.

The present invention relates to methods for removal of dead tissue from wounds or skin using topical nitric oxide donor devices and/or compositions. In one embodiment, the present invention relates to a transdermal patch device that is designed to deliver nitric oxide. In another embodiment, the present invention relates to one or more devices and/or compositions that are designed to deliver nitric oxide and optionally one or more other compounds, where such devices/compositions include, without limitation, bandages, layered bandages, adhesive bandages, transdermal patches, creams, ointments, or a any combination of two or more thereof.

Biologically activated ion-exchange polymer salts are made by exchanging biologically active ionic agents onto ion-exchange polymers. The activated polymers are uniquely surface active and stable to thermal degradation and chemical and other forms of decomposition. The activated ion-exchange polymer salts may be processed and combined with polymer precursors using novel methods and materials to produce stable, biologically activated polymer composites, including antimicrobial and antifouling polymer composites.

This disclosure is directed to methods of treating a subject with a fibrotic or fibroproliferative disease, comprising administering to the subject a composition comprising an effective amount of an anti-fibrosis agent, e.g., a CXCR4 and/or CXCR7 binding agent, such as CXCL12.

Disclosed is 1) a method for greatly increasing the solubility of useful actives in siloxane matrix-forming preparations, and 2) the associated preparations, themselves. Volatilizing coagents are utilized to give novel gels containing heretofore siloxane-insoluble additives.

Bacteriophages are provided that infect strains of Enterococcus faecalis, an opportunistic bacterial pathogen that causes human disease. Also provided are methods of treating Enterococcus faecalis by therapeutic administration of such bacteriophages.

Compositions that include a clay such as kaolin dispersed in a liquid such as water may be useful for promoting the clotting of blood. The compositions may be in a liquid, gel, paste, foam, or another form. Uses may include treating a traumatic injury such as in injury caused by a bullet, an explosive, a blade etc., or an injury caused during a medical procedure such as surgery.

Methods for detecting, imaging, analyzing, diagnosing and/or treating cutaneous conditions and dermatoses such as disorders of the skin, subcutaneous tissues, mucous membranes, poorly vascularized tissues and/or other tissue disorders, including erosions, fissures, transient and/or chronic sores, burns, wounds, ulcers, lesions and infections. In particular embodiments, treatments include methods for improving skin and related tissue healing and repair, offloading of damaged tissues and/or increasing angiogenesis in response to specifically diagnosed conditions.

The present disclosure relates to a film for oral hemostasis and wound protection and, more particularly, to a film for oral hemostasis and wound protection which, being attached to a wound area in an oral cavity, delays or prevents microbleeds and controls medicinal component release. The film provided by the present disclosure is capable of including a polyol, an alcohol and a biodegradable polymer in the state of partial swelling, thereby locally absorbing blood or pus or arresting hemorrhage. Moreover, due to its high elongation ratio, the film provided by the present disclosure is capable of maintaining its adhesive force even when having blood, saliva and pus absorbed inside an oral cavity and conveniently deforming according to the shape of a seriously corrugated local area, which causes only slight foreign body sensation even after a long period of time of attachment on to the local area. In addition, the film provided by the present disclosure includes a disintegrant which is dissolved and released by reacting with blood to form microchannels that act as paths for drug release and is capable of adjusting the amount and the size of the microchannels, thereby controlling the amount of drug release. The present disclosure doesn't require a patient to detach the film attached inside an oral cavity by hand because the adhesive layer and the backing layer dissolve entirely over time.

This disclosure relates to dermal treatment compositions, such as dermal fillers and tissue glues, and injectable compositions that incorporate one or more cationic steroidal antimicrobials (CSAs). The CSAs are incorporated into the dermal treatment compositions to provide effective antimicrobial, anti-inflammatory, analgesic, anti-swelling and/or tissue-healing properties. A treatment composition includes a component formed from a biologically compatible material suitable for injection into and/or application onto tissue at a treatment site. One or more CSA compounds are mixed with the biologically compatible material so that the one or more CSA compounds are incorporated within the composition, forming a reservoir of CSA compounds within the resulting bolus of the treatment composition after injection and/or application.