An improved wound honey using a combination of buckwheat honey, honeydew honey, a natural thickening agent of blackstrap molasses and tangerine puree, and fragrance comprising lavender essential oil. The wound honey is sterilized using a flowing UV light sanitizing system. The bottles are disinfected using a combination parecetic acid, formic acid, vanillin, clove essential oil, monolaurin, aloe vera, and hydrogen peroxide disinfectant. The product comes in a container with a pump dispenser that dispenses a quantifiable amount of product. This new wound honey with pump dispenser may be used multiple times, is cheaper than manuka honey, and may be produced outside of New Zealand and Australia.

A method for preventing and treating internal infections, e.g., urinary tract infections, caused by catheters is provided, in particular by reduction in catheter-associated biofilms. A coating composition is used to treat the catheter and applied through the catheter into the bladder or other body urinary tract organ to kill or neutralize microorganisms, including biofilms therein. The composition comprises a humectant and an antimicrobial with the antimicrobial including a monoquaternary ammonium compound or pharmaceutically acceptable salt thereof. The coating layer has antimicrobial cidal or static activity for at least about one hour.

Described is a method of manufacturing carboxymethyl cellulose (CMC) fibres containing an antimicrobial, the fibres being suitable for use in the preparation of wound dressings, wherein the antimicrobial is selected from the group consisting of a biguanide, a biguanide derivative, octenidine, taurolidine, and a combination of two or more thereof, the method comprising, submerging CMC fibres comprising at least 95 wt % carboxymethylcellulose on a dry weight basis in a treatment solution for a duration adequate to provide the CMC fibres containing an antimicrobial, the treatment solution comprising the antimicrobial and at least 70 wt % of a water-miscible organic solvent selected from C.sub.1-C.sub.4 alkanols, C.sub.3-C.sub.5 ketones, and a combination of two or more thereof. Anti-microbial CMC fibres obtained by the methods and wound dressings containing such fibres are also described.

Disclosed herein are compositions (e.g., sprays, paints, etc.) that comprise antimicrobial zeolite nanoparticles. Also provided are hemostatic compositions comprising zeolite nanoparticles, dryer sheets comprising zeolite nanoparticles, and textiles comprising zeolite nanoparticles. Also disclosed are compositions (e.g., sprays) that include a binder polymer to improve coating adherence. In some cases, the zeolite nanoparticles can further comprise an optical tracer (e.g., a fluorophore) associated with the zeolite nanoparticles. The optical tracer can be interrogated to confirm presence of the zeolite nanoparticles (or a coating comprising the zeolite nanoparticles) on a surface. Also provided are methods of forming viricidal coatings using compositions that comprise zeolite nanoparticles dispersed in a carrier.

The present invention relates to a suturing system, comprising: an elongated flexible suture having a connecting end attached to a needle and an opposing free end, said suture co-packaged with a pierceable container containing a medicant solution. The invention further relates to a suturing system, comprising: an elongated flexible suture having a connecting end attached to a needle and an opposing free end, said suture co-packaged with a wicking medicant transfer sponge and a frangible container containing a liquid. In some embodiments, the invention relates to a suturing system, comprising: an elongated flexible suture having a connecting end attached to a needle and an opposing free end, said suture co-packaged with a medicant transfer sponge, said system further comprising a medicant dispenser container with a liquid.

The present disclosure provides compositions, methods of preparing, and method of use of a composition comprising: (a) about 0.05 wt % to about 10.0 wt % ethylenediaminetetraacetic acid, a salt thereof, a chelating agent, or a combination thereof; (b) from about 2.0 wt % to 50.0 wt % ethanol (ET), isopropyl alcohol (IPA), or a combination thereof; and (c) from about 0.015 μg/mL to about 100.0 μg/mL chlorhexidine, a salt thereof, or a combination thereof. These compositions, as disclosed herein, eliminate greater the 95% of planktonic or biofilm cells from a central venous access device.

The disclosed technology provides thermoplastic polyurethane compositions having antimicrobial properties while still maintaining good physical properties and good non-fouling properties, methods of making the same, and articles, including medical devices, made from such compositions. The disclosed technology includes a process of making an antimicrobial polymer composition, where the process includes mixing an antimicrobial additive into a base polymer and further includes mixing in a non-fouling additive, where the antimicrobial additive is chemically held in the composition and the antimicrobial and non-fouling additives do not negatively impact each other's effectiveness.

Provided is a bioimplant which is capable to inhibit the biofilm formation over a long period of time after an operation. The bioimplant of the present invention comprises a base material of metal, ceramic, or plastic and a thermal spraying film of a calcium phosphate-based material formed at least partially thereon and the silver concentration in the thermal-spray film is 0.05 wt % to 3.00 wt %.

A highly safe and inexpensive bone repair material that stably exhibits high antibacterial activity for a long time in a living body by supporting a large amount of an iodine ion and is excellent in apatite forming ability and preservability. The material includes a substrate made of titanium or titanium alloy and a titanate film on a surface of the substrate, the film composed of a large number of crystalline masses having a crystal structure and containing a calcium ion and an iodine ion, wherein the mass contains layers having a Ti—O skeleton and the calcium and the iodine ions adsorbed between the layers.

A method of providing an anti-microbial coating on an object, comprises the steps of pretreating the object in a first oxygen plasma to graft oxygen-based functional groups on the surface of the object by plasma enhanced chemical vapour deposition, coating the pretreated object with a suspension of particulate graphene oxide to provide a graphene oxide coating on the object, treating the object in a hydrocarbon plasma to deposit an amorphous hydrocarbon film on the graphene oxide coating by plasma enhanced chemical vapour deposition, and treating the object in a second oxygen plasma configured to etch and flatten the coatings on the surface of the object. A prosthetic implant having a metal or metal alloy surface and an anti-microbial coating on all or part of the surface is also described.