The present invention relates to a water-absorbing polymer and to a process for preparation, including finishing the water-absorbing polymer, with 0.0001 to 3% by weight, of a peroxo compound, based on the acrylic acid, after the polymerization is treated, and to a process for producing a hydrogel polymer, to the product of the process and to use.

Provided are compositions and methods for achieving time-delayed cross-linking of hyaluronic acid (HA) to be used as a soft tissue filler. The compositions may include at least one component that facilitates cross-linking of HA, which is encapsulated and released in a time-delayed manner. Also provided are methods for treating or augmenting tissue using such compositions.

This disclosure provides a method of preparing a hydrocolloid adhesive that includes the steps of mixing one or more components to produce a continuous phase, heating the continuous phased to a predetermined temperature between about 135 C. to 170 C., adding a stabilizer to the continuous phase, reducing a temperature of the continuous phase to a second predetermined temperature below 99 C., adding a discontinuous phase to the continuous phase at the second predetermined temperature, and mixing the components of the discontinuous phase and the continuous phase to produce a uniform mixture. Further, the hydrocolloid adhesive includes a super absorbent material and 0.05% to 2% by weight of a peroxide.

A wound dressing system that includes a conformal cover and an infusion pump is provided. The cover includes a fluid port and an oxygen catalyst. The infusion pump is configured to deliver a bioactive liquid to the cover via the fluid port. The liquid includes an oxygen precursor. Upon combination, the oxygen catalyst and precursor react to form oxygen. A method of applying a wound dressing system including a bioactive powder, a bioactive liquid, and a conformal cover to a wound site is also provided. The method includes applying the powder to the wound site; securing the cover around the wound site, where the cover includes an oxygen catalyst and a fluid port; and delivering the bioactive liquid to at least an inner layer of the cover via the fluid port, where the bioactive liquid includes an oxygen precursor.

This disclosure provides for an antimicrobial pressure sensitive adhesive composition that includes a sequestered peroxide source and devices that incorporate such a composition.

A sanitary aid with antibacterial effect for stabilization of physiological balance in vaginal environment and/or external genitalia is made by a backsheet impermeable layer, absorbent core formed by a mixture of absorbent and/or superabsorbent and a topsheet layer from woven or non-woven textile or from cellulose. The sanitary aid contains an effective component on the basis of at least one reactive form of oxygen, which is encapsulated by an encapsulation agent, where the effective substance is arranged on the topsheet layer of the sanitary aid designated for the contact with body and/or in the absorbent core. The sanitary aid is adapted for gradual release of reactive forms of oxygen, particularly hydrogen peroxide after contact with liquid from the sanitary aid, which causes the prolongation of the effect of reactive forms of oxygen with substantial disinfection ability.

The present invention relates to a water-absorbing polymer and to a process for preparation, including finishing the water-absorbing polymer, with 0.0001 to 3% by weight, of a peroxo compound, based on the acrylic acid, after the polymerization is treated, and to a process for producing a hydrogel polymer, to the product of the process and to use.

A packaged treatment composition comprising a polymerisable and/or curable composition comprising (1) a packaged first flowable component comprising a source of hydrogen peroxide and (2) a separately packaged second flowable component; the composition comprising a polymerisable monomer or oligomer, a polymer and/or a curing agent, wherein the composition comprises a photoinitiator and wherein the first flowable component is substantially free of photoinitiator, the composition capable of forming a solid composition by UV-initiated polymerisation and/or curing following mixing of the first and second flowable components.

The present invention provides compositions and methods for reducing bacterial contamination or infection in plants, animals, fabrics, and products therefrom. The present invention also provides compositions and methods for reducing human infections and the emergence of antibiotic resistance. In particular, the invention provides magnetic nanoparticles comprising bactericidal or bacteriostatic enzymes in one component, substrates for the enzymes in a second component, and a bactericidal chemical agent that works in combination or synergistically with the enzymes. The compositions are dormant and become active upon exposure to hydration, oxygen, or mixing.

The present invention provides compositions and methods for reducing microbial and nematodal contamination or infection in plants, animals, fabrics, and products therefrom. The present invention also provides compositions and methods for reducing human infections and the emergence of antimicrobial resistance. In particular, the invention provides magnetic nanoparticles comprising biocidal or biostatic enzymes in one component, substrates for the enzymes in a second component, and a biocidal chemical agent that works in combination or synergistically with the enzymes. The compositions are dormant and become active upon exposure to hydration, oxygen, or mixing.