Abstract: A medical device includes a structure configured for introduction to a vascular system of a patient. The structure including a surface having sodium nitroprusside and silver disposed thereupon. The sodium nitroprusside has a concentration sufficient to reduce thrombosis. To make the medical device, a base material is impregnated with sodium nitroprusside, the medical device is formed from the base material, and the medical device is coated with an antimicrobial agent.

Abstract: Provided are antimicrobial solutions comprising a glyceryl nitrate (e.g., glyeryl trinitrate) in combination with a chelator (e.g., citrate), a peroxide, a fatty acid, and/or an alcohol (e.g., ethanol). In various aspects these components may synergistically act to kill or reduce the growth of microbes, such as bacteria or fungi, present in a biofilm.

Abstract: A catheter lock solution includes a hydrochloric acid solution having a concentration of 0.3 Molar to 1.0 Molar. This hydrochloric acid solution may be used to lock a catheter and/or salvage an infected catheter.

Abstract: Antimicrobial catheters and medical devices are provided. In some aspects, a low durometer aliphatic polyether polyurethane may be impregnated with a first antimicrobial agent (e.g., minocycline and rifampin) and coated with a second antimicrobial agent (e.g., chlorhexidine, gendine, or gardine). The antimicrobial catheters may display improved flexibility and resistance to kinking. Methods of producing the antimicrobial catheters are also provided.

Abstract: Biodegradable antimicrobial films are provided that are solid at room temperature and substantially liquefy in situ after implantation into a mammal, such as a human patient. Methods of using the films to cover a medical device, such as a breast implant, prior to insertion into a subject are also provided.

Abstract: Provided are polymer-based surfaces (e.g., gloves) with an antimicrobial coating, e.g., comprising chlorhexidine and a partially hydrolyzed polyvinyl acetate copolymer, or a biguanide and a silicone. Methods of coating polymer-based surfaces with antimicrobial compositions are also provided.

Abstract: Provided are antimicrobial solutions comprising a glyceryl nitrate (e.g., glyeryl trinitrate) in combination with a chelator (e.g., citrate), a peroxide, a fatty acid, and/or an alcohol (e.g., ethanol). In various aspects these components may synergistically act to kill or reduce the growth of microbes, such as bacteria or fungi, present in a biofilm.

Abstract: The present invention includes methods for the inhibition of post-operative adhesion formation between tissue surfaces in a body cavity having been subjected to a surgical procedure, which methods involve administering Tranilast, or an analog thereof, directly to tissue surfaces in the body cavity in amounts and under conditions effective to inhibit formation of adhesions, and to delivery vehicles and compositions suitable for use for local, non-systemic administration of a drug to the body and directly to tissue within a body cavity having been subjected to a surgical procedure.

Abstract: A catheter lock solution includes a hydrochloric acid solution having a concentration of 0.3 Molar to 1.0 Molar. This hydrochloric acid solution may be used to lock a catheter and/or salvage an infected catheter.

Abstract: The invention provides novel self-emulsifying diblock copolymers and novel self-emulsifying compositions comprising an active ingredient and a diblock copolymer characterized in that the diblock copolymer is liquid at a temperature below 50° C. and the composition is non-aqueous and liquid at a temperature below 50° C.

Abstract: A catheter lock solution includes a hydrochloric acid solution having a concentration of 0.3 Molar to 1.0 Molar. This hydrochloric acid solution may be used to lock a catheter and/or salvage an infected catheter.

Abstract: Implantable catheters are provided which comprise an antimicrobial agent incorporated in a coating or bulk distributed, in combination with a fibrinolytic agent incorporated in a top coating.

Abstract: A catheter lock composition for preventing bacterial infection having an effective amount of glycerol and sodium chloride solution. The effective amount of glycerol is between about 35-60% and sodium chloride is in a concentration range between 0.5-0.9%. The composition further includes an anticoagulant and/or an antimicrobial agent.

Abstract: A composition for dissolving or reducing the viscosity of sputum on a surface of a device includes an effective amount of glycerol and an effective amount of dextran sulfate in a saline solution. The effective amount of glycerol is between about 30-50% and the effective amount of dextran sulfate is between about 10-30%. The composition may further include an antimicrobial agent.

Abstract: The present invention is directed to medical devices and pharmaceutical compositions containing a synthetic, bioabsorbable, biocompatible liquid polymer that is the reaction product of a polybasic acid or derivative thereof, a polyol and a fatty acid, the liquid polymer having a melting point less than about 40° C., as determined by differential scanning calorimetry.

Abstract: A medical device includes a base material having an immobilized fibrinolytic enzyme and dextran sulfate. The dextran sulfate has a molecular weight that is less than 40 kilo dalton (kDa). The medical device is formed from at least a base material. A fibrinolytic enzyme is immobilized on the base material. The fibrinolytic enzyme is stabilized with a dextran sulfate having a molecular weight of less than 40 (kDa).

Abstract: A conformable tissue implant is provided for use in repairing or augmenting a tissue defect or injury site. The tissue implant contains a tissue carrier matrix comprising a plurality of biocompatible, bioresorbable granules and at least one tissue fragment in association with the granules. The tissue fragment contains one or more viable cells that can migrate from the tissue and populate the tissue carrier matrix. Also provided is a method for injectably delivering the tissue implant.

Abstract: The present invention includes methods for the inhibition of post-operative adhesion formation between tissue surfaces in a body cavity having been subjected to a surgical procedure, which methods involve administering Pemirolast, or an analog thereof, directly to tissue surfaces in the body cavity in amounts and under conditions effective to inhibit formation of adhesions, and to delivery vehicles and compositions suitable for use for local, non-systemic administration of a drug to the body and directly to tissue within a body cavity having been subjected to a surgical procedure.

Abstract: A medical device includes a base material and chlorhexidine or a pharmaceutically acceptable salt thereof disposed in the base material sufficient to reduce microbial growth. The base material includes a polymer having a silicone monomer and a urethane monomer. To make the medical device having an antimicrobial agent, a silicone-urethane-carbonate polymer is dissolved in Dimethylformamide/Tetrahydrofuran (DMF/THF) to generate a coating solution, a chlorhexidine or a pharmaceutically acceptable salt thereof is mixed into the coating solution, a base material is coated with the coating solution, and the coating solution is dried to remove the solvent. The chlorhexidine is present in concentration sufficient to reduce microbial growth.

Abstract: The present invention includes methods for the inhibition of post-operative adhesion formation between tissue surfaces in a body cavity having been subjected to a surgical procedure, which methods involve administering Pemirolast, or an analog thereof, directly to tissue surfaces in the body cavity in amounts and under conditions effective to inhibit formation of adhesions, and to delivery vehicles and compositions suitable for use for local, non-systemic administration of a drug to the body and directly to tissue within a body cavity having been subjected to a surgical procedure.