Disclosed are compositions comprised of Oxidized Cellulose (OC), such as oxidized regenerated cellulose (ORC), and an antibiotic comprised of minocycline, methods of preparation thereof and uses thereof.

A device and method for forming fibrin foam, preferably utilizing a single container, comprising a base structured to be rotationally driven and including a separation chamber disposed and structured to receive a blood sample therein. The base includes a reaction chamber disposed in fluid communication with said separation chamber. The blood sample is separated into a plasma segment and a packed cell segment when subjected to sufficient centrifugation concurrent to the driven rotation of the base. According to structural features, and in some instances concurrent and continuous centrifugation, the plasma segment is directed from said separation chamber into said reaction chamber which includes sufficient quantities of gas and reactant composition to facilitate formation of fibrin foam therein concurrent to centrifugation. Further centrifugation of the fibrin foam and the inclusion of additional features such as a pressurized reaction chamber facilitate the formation of fibrin foam exhibiting varying chemical and/or physical properties.

A microporous gel system for certain applications, including biomedical applications, includes an aqueous solution containing plurality of microgel particles including a biodegradable crosslinker. In some aspects, the microgel particles act as gel building blocks that anneal to one another to form a covalently-stabilized scaffold of microgel particles having interstitial spaces therein. In certain aspects, annealing of the microgel particles occurs after exposure to an annealing agent that is endogenously present or exogenously added. In some embodiments, annealing of the microgel particles requires the presence of an initiator such as exposure to light. In particular embodiments, the chemical and physical properties of the gel building blocks can be controlled to allow downstream control of the resulting assembled scaffold. In one or more embodiments, cells are able to quickly infiltrate the interstitial spaces of the assembled scaffold.

The present invention provides a liquid bandage containing peptide anti-inflammatory active ingredient and a preparation method thereof, which relates to the technical field of medical materials. The liquid bandage comprises film-forming agents; one or more plasticizers, comprising glycerin; one or more anti-inflammatory substances, comprising oligopeptide with an amino acid sequence of Leu-Leu-Phe-Thr-Thr-Gln; and solvent, comprising deionized water. The liquid bandage can promote the expression of interleukin 10 (IL-10) and inhibit the expressions of interleukin 6 (IL-6) and tumor necrosis factor (TNF-α). Peptide anti-inflammatory active ingredient can produce good anti-inflammatory activity. Further, the liquid bandage can enhance the close contact between gel and the injured skin surface, increase the cleanliness of the wound surface, and can increase a clearance rate of inflammatory cells.

Biologically acceptable surgical barrier materials are comprised of a polyelectrolytic complex of chitosan and sodium alginate. The chitosan is deacetylated in an amount between about 40 to about 60% and has a molecular weight (Mw) between 50,000 and 375,000 g/mol. The barrier materials may be formed by mixing a two-component material system whereby one component comprises the chitosan and a second component comprises the sodium alginate and directing such a mixture (e.g., via air-assisted spray nozzle) toward a surgical site in need of the material. A polyelectrolytic complex of the chitosan and sodium alginate will thereby form in situ. Suitable ionic cross-linkers may be provided in the individual components, e.g., calcium chloride with the chitosan component and sodium tripolyphosphate with the sodium alginate component.

The present invention provides radical crosslinked zwitterionic gels, methods of preparing the radical crosslinked zwitterionic gels, and methods of using the radical crosslinked zwitterionic gels for treating a wound.

The present invention relates to a wound dressing composition that is capable of gelling upon contact with a fluid derived from a human or animal body, and which is able to maintain the integrity of the gel for a period of time that is longer than about 24 hours.

Described herein are polymeric particles configured for intravascular delivery of pharmaceutical agents, e.g., to a diseased site, and methods of forming and using same. Preparation of these polymer particles is also described.

A dispensing system includes a hollow tube having an outer wall with an air vent formed in the outer wall. A valve including a flexible flap is disposed inside the tube. The flexible flap, normally biased into a retracted position, is moveable between an extended position for sealing the air vent and the retracted position for unsealing the air vent. A syringe connector interconnects a syringe with the proximal end of the hollow tube and defines a fluid flow path. A flowable viscous fluid is disposed within the syringe. When a syringe plunger is depressed, the flowable viscous fluid is expelled from the syringe and forced through the fluid flow path and into the proximal end of the hollow tube. When the flowable viscous fluid engages the flexible flap, the flexible flap is forced to move into a position that seals the air vent.

The compositions of the present invention comprise at least one medium polarity oil and at least one antibacterial agent, the combination of which produces a synergistic antibacterial effect against bacterial biofilms. Methods are disclosed for the reduction of bacteria in and/or elimination of bacterial biofilms on biological and non-biological surfaces, as well as methods for the treatment of wounds, skin lesions, mucous membrane lesions, and other biological surfaces infected or contaminated with bacterial biofilms.