Embodiments of the invention include hemostatic compositions, delivery devices, kits, and methods utilizing silica fibers or other silica fiber compositions. The fiber compositions may be formed via electrospinning of a sol gel produced with a silicon alkoxide reagent, such as tetraethyl ortho silicate, alcohol solvent, and an acid catalyst.

Provided are pharmaceutical compositions comprising an anion exchanger and a calcium salt; methods for inducing hemostasis at a site of bleeding by applying to the site of bleeding an effective amount of the compositions; and methods of preparation of the compositions.

A dressing composition for use as a skin dressing comprises an elastomeric-adhesive composition, and a zeolite comprising releasably adsorbed nitric oxide. The zeolite may comprise a transition metal cation such as Co, Fe, Mn, Ni, Cu, Zn, Ag or a mixture thereof as an extra-framework metal cation, preferably Zn. The elastomeric adhesive composition may be a hydrocolloid-adhesive composition comprising, hydrocolloid and elastomer. The dressing composition releases nitric oxide, which may have beneficial effects, when used on wounds or moist skin, with a substantially constant release rate over a long period of time. A dressing including a layer of the dressing composition has a backing layer and may have a release liner removably attached to the skin-contacting surface of the dressing layer.

The present invention includes the composition and manufacturing of a non-prescription consumer product to treat odor and various types of inflammations, infections, and diseases. It embodies a disposable absorbent or nonabsorbent article containing unbound/freely associating adsorbent porous carbonaceous material for the entrapment and/or treatment of odor, pathogens, and adverse biological by-products. The product form includes but is not limited to tampons, panty liners, incontinence pads, diapers, sanitary towels, swabs, balls, casts, pouches, bandages and/or plugs, which contain adsorbent porous carbonaceous material that effectively reduces or eliminates adverse situations sourcing from pathogens and harmful biological by-products, including but not limited to fungi, bacteria, viruses, and parasites. The article is used to treat malodor, yeast infections, vaginitis, sexually transmitted diseases, field bullet wound holes, tooth infections, nail-bed and cuticle infections, among others by way of internal insertion and/or complete covering the body cavity, wound, and/or affected areas, creating a clear and direct path for contact with pathogens and adverse biological by-products.

There is disclosed a substrate with an electron donating surface, characterized in having metal particles on said surface, said metal particles comprising palladium and at least one metal selected from the group consisting of gold, ruthenium, rhodium, osmium, iridium, and platinum, wherein the amount of said metal particles is from about 0.001 to about 8 g/cm.sup.2. Examples of coated objects include contact lenses, pacemakers, pacemaker electrodes, stents, dental implants, rupture nets, rupture mesh, blood centrifuge equipment, surgical instruments, gloves, blood bags, artificial heart valves, central venous catheters, peripheral venous catheters, vascular ports, haemodialysis equipment, peritoneal dialysis equipment, plasmapheresis devices, inhalation drug delivery devices, vascular grafts, arterial grafts, cardiac assist devices, wound dressings, intermittent catheters, ECG electrodes, peripheral stents, bone replacing implants, orthopaedic implants, orthopaedic devices, tissue replacing implants, intraocular lenses, sutures, needles, drug delivery devices, endotracheal tubes, shunts, drains, suction devices, hearing aid devices, urethral medical devices, and artificial blood vessels.

A material or biomaterial comprising silicic acid condensates having a low degree of cross-linking, and methods for its production are subject-matter of the invention. A method for the production of silicic acid structures having a low degree of cross-linking is disclosed, wherein a sol is produced, wherein further condensation is prevented when specific cross-linking of the silicic acid is reached, wherein, preferably, structures having a size of 0.5-1000 nm are produced, e.g. polyhedral structures or aggregates of the same. Further condensation can be prevented by means of mixing with a polymer. In one embodiment, this comprises nano-structured, silicon dioxide (SiO.sub.2) having a low degree of cross-linking that is embedded in a polymer matrix. The material can be used in medicine for therapeutic purposes, and can enter into direct contact with biological tissue of the body in this connection. This material herein enters into chemical, physical, and biological interactions with the corresponding biological systems. It can herein be decomposed, and can act as a supplier for the silicic acid required for metabolism. Furthermore, it can have a supportive or shielding effect. It can be present as a granulate, microparticles, fiber, and as a woven or nonwoven fabric produced therefrom, or as a layer on implants or wound dressings. The material can be used as a medical device or as a nutritional supplement.

A formulation of a discrete liquid patch for the treatment of cold sores or viral lesions, including a combination of the adhesive layer and an active compound/ingredient such as antiviral agents, and/or amino acids, and/or minerals/vitamins. The adhesive layer of the discrete patch is substantially free of hydrocolloid particles. The adhesive layer does not include any backing layer to maintain the compliance of the patch with a thickness ranging from 5 microns to 1,300 microns. Wherein, the discrete patch of the invention is configured to apply to a viral lesion to maintain in contact therewith for a time effective to substantially complete re-epithelialization of the lesion.

A dressing composition for use as a skin dressing comprises an elastomeric-adhesive composition, and a zeolite comprising releasably adsorbed nitric oxide. The zeolite may comprise a transition metal cation such as Co, Fe, Mn, Ni, Cu, Zn, Ag or a mixture thereof as an extra-framework metal cation, preferably Zn. The elastomeric adhesive composition may be a hydrocolloid-adhesive composition comprising, hydrocolloid and elastomer. The dressing composition releases nitric oxide, which may have beneficial effects, when used on wounds or moist skin, with a substantially constant release rate over a long period of time. A dressing including a layer of the dressing composition has a backing layer and may have a release liner removably attached to the skin-contacting surface of the dressing layer.

A dressing composition for use as a skin dressing comprises an elastomeric-adhesive composition, and a zeolite comprising releasably adsorbed nitric oxide. The zeolite may comprise a transition metal cation such as Co, Fe, Mn, Ni, Cu, Zn, Ag or a mixture thereof as an extra-framework metal cation, preferably Zn. The elastomeric adhesive composition may be a hydro-colloid-adhesive composition comprising, hydrocolloid and elastomer. The dressing composition releases nitric oxide, which may have beneficial effects, when used on wounds or moist skin, with a substantially constant release rate over a long period of time. A dressing including a layer of the dressing composition has a backing layer and may have a release liner removably attached to the skin-contacting surface of the dressing layer.

The invention relates to a biodegradable graphene oxide biocomposite fibrous membrane and a preparation method and uses thereof. The composite fibrous membrane comprises biodegradable graphene oxide biocomposite fibers, each fiber has an outer layer consisting of graphene oxide-biodegradable polymer nanofibers and an inner layer consisting of sodium alginate/polyvinyl alcohol nanocomposite fibers. The biodegradable graphene oxide biocomposite fibrous membrane of the invention has the advantages of good biocompatibility, biodegradability, swellability, bacteriostasis and good mechanical properties and chemical stability.