A method for production of anti-microbial orthodontic elastomeric ligatures is disclosed. The elastomeric ligatures are coated with an anti-microbial solution layer by layer. The coating solution comprising an anti-bacterial agent, a polymer and a solvent in the following ratio: 2 g anti-microbial agent, 4 g polymer and 200 mL solvent. The hypo-allergic latex-free orthodontic elastomeric ligatures with an internal diameter of 0.045 inches and external diameter of 0.115 inches are rinsed in distilled water, dried at 60° C. and sprayed with the anti-bacterial solution two times and dried for five minute. This process is repeated for five times and the elastomeric ligatures are dried at room temperature for 1 h.

The invention relates to an antiseptic material, in particular as a wound dressing, containing a carrier material and at least one antiseptic together with a surfactant, wherein the carrier material is equipped with a cyclodextrin or cyclodextrin derivative that is loaded in the antiseptic or antiseptics.

The present invention provides thin-film forming compositions comprising an antiseptic (e.g., povidone iodine, chlorhexidine, or octenidine), a non-aqueous solvent, and a film-forming material dissolved in the non-aqueous solvent, wherein the composition yields a continuous and flexible protective film upon substantial removal of the solvent. The compositions are useful for the treatment and prevention of infections in wounds, ulcers (e.g., decubitus ulcers and stasis ulcers), cuts, or burns, or against infections from bacterial, mycobacterial, viral, fungal, or amoeba causes, as well as for prevention of such infections in appropriate clinical settings (e.g., as liquid bandages or dressings). Additionally, the compositions of this invention are also useful for the treatment of infections and as a disinfectant skin preparation for pre- and/or post-surgical operations.

Compositions and methods for wound care or the dressing or treatment of wounds in a subject in need thereof. The compositions include an oil-based carrier, a polar solvent comprising one or more polar antimicrobial agents, and collagen or a collagen-based material. In at least some instances, the polar solvent comprising the one or more polar antimicrobial agents and the collagen or collagen-based material are suspended in the oil-based carrier.

The present invention is directed to suturing systems having a needle, an elongated flexible suture having a connecting end attached to a said needle and an opposing free end and at least one elongated external beneficial filament that is attached to said needle or attached to said suture at the connecting end. The beneficial filament has a smaller cross-sectional area and lower mechanical strength than the suture and contains a medicant.

The present invention pertains to an integrated wound dressing device for treatment of an insertion site of percutaneous and drug delivery devices. The integrated wound dressing device preferably comprises a transparent film layer having a bottom side, a top side and a perimeter. The bottom side is coated with an adhesive impregnated with an antimicrobial agent. The transparent film has a radius cutout between a central opening and the perimeter. A liquid crystal temperature sensitive film with an adhesive placed on the top side of the transparent film layer is preferably near and around the central opening. The dressing also has a layer of double folded release paper below the bottom side of the transparent film layer. The preferred TLCs used are cholesteryl esters with a preferable temperature detection range of 35-40° C. The preferred antimicrobial agent is chlorohexidine gluconate (CHG).

Adhesives comprising rubber, tackifier, oil, and optionally absorbent and active ingredient are described. The adhesives are suitable for medical applications as they are repositionable on skin. Also described are medical articles using the adhesives.

Antimicrobial and antithrombogenic polymer or polymeric blend, compounds, coatings, and materials containing the same, as well as articles made with, or coated with the same, and methods of making the same exhibiting improved antimicrobial properties and reduced platelet adhesion. Embodiments include polymers with antimicrobial and antithrombogenic groups bound to a single polymer backbone, an antimicrobial polymer blended with an antithrombogenic polymer, and medical devices coated with the antimicrobial and antithrombogenic polymer or polymeric blend.

The present invention relates to methods and compositions for rendering a surface resistant to bio-film formation by a combination of an antimicrobial agent, an organic hydroxy acid, lubricious biomedical polymer and solvent. The invention provides for compositions which may be used to render surfaces bio-film resistant, articles having bio-film resistant surfaces, and methods for their preparation. The present invention may be advantageously applied to medical articles as well as articles used in non-medical contexts, such as child care or food preparation.

An absorbent wound dressing comprises a hydrophilic porous substrate and polymer-stabilized silver nanoparticles distributed throughout the porous substrate. The silver nanoparticles have a particle size d.sub.50 in the range of about 45 nm to about 85 nm and the silver nanoparticles are present in the substrate in an amount of about 0.16% to about 1.5% by weight of the total weight of the substrate. The wound dressing produces a 7-day log reduction of 4 or more for bacteria in accordance with the Modified AATCC Test Method 100. The wound dressing is also non-cytotoxic in accordance with ISO 10993-5 standard procedure for medical device cytotoxicity assessment.