Abstract: The present invention provides anhydrous compositions for topical delivery of a medicament comprising (A) a penetration enhancer/solvent selected from the group consisting of alcohol, propylene glycol, or a combination thereof; (B) a humectant/solvent selected from the group consisting of polyethylene glycol, glycerin, sorbitol, xylitol, or any combination of any of the foregoing; and (C) an anhydrous vehicle. In an alternate embodiment, the present invention provides anhydrous compositions for topical delivery of a medicament which comprise (A) a penetration enhancer/solvent selected from the group consisting of alcohol, propylene glycol, or a combination thereof; (B) a humectant/solvent selected from the group consisting of polyethylene glycol, glycerin, sorbitol, xylitol or any combination of any of the foregoing; (C) an anhydrous vehicle; and (D) a medicament. Also provided are methods for topically delivering a medicament to an animal.

Abstract: A wound dressing having anti-microbial activity comprises a first fiber capable of bonding with silver (1) cations. The wound dressing comprises a blend of the first fiber to which silver (1) cations are bonded and a second fiber which is substantially free from silver. The wound dressing comprises from 0.01 to 5.0 percent by weight of silver (1) cations, based on the weight of fiber.

Abstract: A method for removing airborne bacteria and airborne mycetes from indoor air comprises imparting microbiocidal and microbiostatic properties to fabric by treating the fabric with one or more naturally occurring biocides, positioning the treated fabric in a sheet-like orientation, and blowing indoor air through the fabric.

Abstract: Protein preparations containing biologically active compounds and the application of the protein preparations obtained, particularly as a component of medicinal and cosmetic preparations as protective substances or in the regeneration of cells and tissues of the human organism, and which can comprise a component of culture media for dermal or hepatic tissues, or for stem cells destined for use in the regeneration of cells and tissues in the human organism.

Abstract: A process is described herein for applying antimicrobials to substrates such as fabrics. An antimicrobial-binder mixture is provided that includes an antimicrobial and a binder that includes guar gum in an aqueous solution, which is applied to the substrate. Once the substrate is cured, spikes formed by the antimicrobial are disposed on the fabric and function to rupture membranes of infectious agents.

Abstract: A solid buffer including one or more ion exchange materials, wherein said solid buffer has a volumetric buffering capacity greater than about 20 mM H+/(L.pH unit) and further wherein, when said material is in an environment capable of transporting H+ ions, said solid buffer is adapted to cause the death of at least one target cell within or in contact with said environment. A selectively permeable barrier layer may be provided covering the solid buffer.

Abstract: Disclosed are oligo- or polysiloxanes, which are characterized by containing at least 3, for example 4-3000, Si atoms in the main chain, and wherein at least one thereof is contained in a moiety of the formula (I) whose variables and attachments are described within. The disclosed are oligo- or polysiloxane compounds are effective as antimicrobials.

Abstract: Storage-stable, anti-microbial compositions and products include a carrier and a ceragenin compound suspended in the carrier. Ceragenin compounds suspended in the carrier include a sterol backbone and a number of cationic groups attached to the sterol backbone via hydrolysable linkages. The carrier has a pH of 5.5 or less, which acts to stabilize the hydrolysable linkages and increase the shelf-life of the anti-microbial compositions and anti-microbial products. Nevertheless, the ceragenin compounds described herein are designed to break down relatively quickly (e.g., within about 5 days) if the pH environment of the ceragenin compounds is raised to about pH 6.5 or greater.

Abstract: A wound spacer device comprising multiple beads connected by non-absorbable suture material is disclosed. The device can be applied, for example, by a first responder to an injured individual, or can be applied by a trauma treatment facility, such as a Level 2 medical unit. In typical embodiments the device allows for site-specific controlled elution of an antimicrobial agent, such as Tobramycin, including defined elution over a period of time, such as 48 or 72 hours.

Abstract: Contaminants are filtered from a fluid flow stream and the filter is regenerated by a process including steps of: providing a filter material comprising both carbon and potassium iodide; passing a contaminated fluid stream in contact with the filter material; adsorbing contaminants from the fluid stream onto surfaces in the filter material; passing an electric current through the filter material with adsorbed contaminant thereon; disassociating contaminant from the surfaces of the filter material; and removing disassociated contaminant from the filter material by carrying away the disassociated contaminant in a fluid flow mass. Separately, a stable, active iodine solution is also provided for numerous deodorizing and disinfecting applications.

Abstract: Fungicidal mixtures comprising, as active components, 1) azolopyrimidinylamines of the formula I, ?in which the substituents are as defined in the description and 2) at least one active compound II selected from the following groups: azoles, strobilurins, carboxamides, heterocylic compounds, carbamates and other active compounds selected from the group consisting of guanidines, antibiotics, sulfur-containing heterocyclyl compounds, organophosphorus compounds, organochlorine compounds, inorganic active compounds, growth retardants and cyflufenamid, cymoxanil, dimethirimol, ethirimol, furalaxyl, metrafenone and spiroxamine; in a synergistically effective amount. Methods for controlling harmful fungi using mixtures of the compound I with active compounds II and the use of the compound I with active compounds II for preparing such mixtures, and also compositions comprising these mixtures.

Abstract: A topical skin barrier for protecting and promoting healing of skin, and for providing comfort to a patient, comprises a semi-solid hydrocarbon and a water-absorbing compound. The topical skin barrier effectively adheres to skin, affords protection from moisture and waste, and provides transparency in use. Methods of in vitro evaluation are for (i) a composition's protection from moisture and waste, and (ii) a composition's adhesion to skin.

Abstract: The present invention relates to stable fixed dose topical formulations comprising an antiacne agent and an antibiotic, which exhibit storage stability at a temperature of about 40° C. and relative humidity of about 75% for a period of at least 3 months. Particularly, the present invention relates to stable fixed dose topical formulations comprising therapeutically effective amounts of (a) adapalene-containing microspheres and (b) clindamycin, a process for their preparation thereof and their use for the treatment of acne.

Abstract: Foaming alcohol compositions with selected dimethicone surfactants are disclosed. The dimethicone surfactants are PEG-8 to PEG-12 linear dimethicone surfactants and in particular PEG-10 linear dimethicone surfactant. The compositions are useful as antimicrobial products and in particular handcare or skincare products.

Abstract: An improved beverage can includes a GRAS antimicrobial wipe contained in a low profile pouch that is adhered to the side of the can. The low profile pouch is constructed of a substantially planar substrate that retains the wipe directly to the exterior surface of the can. The pouch includes a perforated tab that is removed to access the wipe. To use, the perforated tab is ripped off, the user reaches into the pouch and pulls out the antimicrobial wipe, and wipes the can as desired, typically focusing on the drinking region of the can.

Abstract: Surfaces and members having one or more surfaces derived from compositions containing polymers and one or more heat labile and/or incompatible components adsorbed on carrier materials are provided. The heat labile components include materials that, unless adsorbed on a carrier, are transformed at the polymer's processing temperatures (such as for example, heat labile biocides). Incompatible components are materials that generally react or form gels, slimes or precipitates upon mixing. The carrier materials typically include inorganic and/or organic porous materials capable of remaining solid during processing temperatures. Methods for preparing the polymer surfaces and members having polymer surfaces are provided. Members include, but are not limited to, structures, articles, containers, devices, woven/nonwoven articles, remediation materials, and the like.

Abstract: Compounds of the formulae (I) and (II) for controlling pathogens by drenching or drip application.

Abstract: Coating compositions having a peptidic antimicrobial additive and an antimicrobial additive of another configuration are provided. The concentrations of the antimicrobial agents within the coating composition are sufficient to synergistically inhibit microbial growth on an inanimate surface coated with the surface coating composition or within a container storing the coating composition. Methods for making and using such compositions to inhibit microbial growth in stored coatings and on susceptible surfaces are also provided.

Abstract: This invention provides medical articles having antimicrobial efficacy and good barrier properties. In particular, the medical articles comprise a nonwoven material and a coating comprising chlorhexidine acetate and triclosan.

Abstract: The present invention relates to the use of a container, made of an inorganic additive containing plastic material, for reducing physical/chemical interaction between the container and an oil, fat and/or wax containing formulation contained therein.

Abstract: Antitoxic fibers and fibrous media contain impregnated material including an antitoxin. A method for producing antitoxic fibers and fibrous media includes impregnating a fibrous media by dipping in a dipping solution containing a concentrate of an antitoxin to form a fiber with impregnated material including an antitoxin. The impregnated material is at least about 1.0% to about 2.5% by weight of the fibers and includes additive chemical components including at least one of an anionic, cationic or nonionic component, an oil and/or an organic solvent, and an alcohol. The additives include those found in a spin finish. The antitoxin is in an amount of at least 0.1% by weight of the fiber. The manufacturing process can be applied to any woven or nonwoven media.

Abstract: A microbicidal and antiseptic composition, which comprises the following (a), (b) and (c): (a) at least one kind of alcohols selected from the group consisting of ethanol and isopropanol; (b) at least one kind of carboxyvinyl polymers selected from the group consisting of polyacrylic acids, polyacrylates, copolymers of polyacrylic acids and polyacrylic acid alkyl esters, and copolymers of polyacrylates and polyacrylic acid alkyl esters; and (c) agar.

Abstract: A topical, foamable composition is provided that includes at least one antifungal agent that is able to penetrate the upper layers of skin and is retained in or on an area to be treated for a prolonged period of time, and that has a residual non-volatile component content less than 25%. In addition, a method of treating fungal diseases including jock itch, tinea, dandruff and sebborheic dermatitis is provided, and includes applying to the affected area of patient requiring such treatment an antifungal composition.

Abstract: The present invention relates to a process for the treatment of a cellulosic molded body, wherein the molded body is contacted with an acid solution of a chitosan. The process according to the invention is characterized in that the chitosan has a deacetylation degree of at least 80%, a nitrogen content of at least 7 w %, preferably at least 7.5 w %, a weight average molecular weight Mw (D) of 10 kDa to 1000 kDa, preferably 10 kDa to 160 kDa, and a viscosity in 1 w % solution in 1 w % acetic acid at 25° C. of 1000 mPas or less, preferably 400 mPas or less, in particular preferably 200 mPas or less.

Abstract: A microbicidal delivery system including: a microbicidal composition including a microbicidal compound including a dendrimer including one or more surface groups of formula (IV); a microbicidally active derivative thereof, or pharmaceutically acceptable salt or solvate thereof; and a carrier, excipient or diluent therefor; and a prophylactic device; the microbicidal composition being carried on a surface of the prophylactic device and being compatible therewith.

Abstract: The invention relates to an aqueous dispersion comprising microcapsules, the capsule wall of which is formed from radically polymerized monomers and the capsule core of which comprises at least one oil, in which the capsule core comprises at least one lipophilic surfactant and the continuous phase of the dispersion comprises at least one agrochemical. In addition, the invention relates to a process for the preparation of an aqueous dispersion by (i) providing an aqueous dispersion comprising microcapsules, the capsule wall of which is formed from radically polymerized monomers and the capsule core of which comprises at least one oil and at least one lipophilic surfactant (microcapsule crude dispersion), and (ii) mixing with at least one agrochemical.

Abstract: A fibrous web, in particular tissue web treated with a lotion composition based on an O/W emulsion comprising: (A) at least one oil; (B) an (O/W) emulsifier or (O/W) emulsifier combination; and (C) 6 to 30 weight % of water; wherein the weight % values relate to the total weight of the lotion composition. Since in the above lotion composition the external phase is aqueous, a web treated therewith can easily be wet by water and does not float on the water if it is to be disposed in a toilet.

Abstract: Novel antimicrobial compositions and coatings are disclosed. The antimicrobial compositions consist of mixtures of taurolidine and protamine, including protamine salts. The antimicrobial compositions are particularly useful in coatings for implantable medical devices. The antimicrobial compositions are effective against a broad spectrum of microbes.

Abstract: A toothpick probe molded of nylon 6 material and containing absorbed polar mouthwash antiseptic/antibacterial solution for probing between human teeth and probing of the gums holding the human teeth. The toothpick probe molded of nylon 6 material is captured immediately on ejection from the molding cavities and immersed in a polar antiseptic mouthwash solution and subsequently removed from the solution and free liquid removed from the toothpick probes for subsequent use of the toothpick probes, as a toothpick probe for human teeth and gums holding the teeth and in addition a molded nylon 6 material is captured and immersed in a polar solution of antiseptic/antibacterial for a sufficient time to absorb at least 10% of its weight of the antiseptic/antibacterial solution and a section of the molded nylon 6 material containing the absorbed polar antiseptic/antibacterial liquid, for in vivo application.

Abstract: Porous, permeable particles of meta-aramid can be chlorinated or brominated to produce antimicrobial and detoxifying particles for use in applications such as, but not limited to, nonwoven webs, paper, textiles, absorbent articles, healthcare products, paints, filter materials, powder coatings, clear coatings, molded plastic articles, binders for fibrous materials, and the like. The particles can be charged with halogen before or after incorporation into the application medium. The particles can contain blends of meta-aramid with other polymers such as, but not limited to, cellulose, cellulose acetate, polyurethane, and the like. The particles will be effective at inactivation of pathogenic and odor-causing microorganisms and toxic chemical agents. The particles, which contain N-halamine units, have unexpected resistance to ultraviolet light degradation.

Abstract: Foaming alcohol compositions with selected dimethicone surfactants are disclosed. The dimethicone surfactants are PEG-8 to PEG-12 linear dimethicone surfactants and in particular PEG-10 linear dimethicone surfactant. The compositions are useful as antimicrobial products and in particular handcare or skincare products.

Abstract: A pharmaceutical delivery system enabling the oral transmucosal administration of active pharmaceutical agents in a situation where rapid transmucosal administration is preferred to prevent the delay and decomposition of the agents in passing through the intestinal tract. The delivery system comprises a supportive substrate with bilateral lingual vestibular flanges connected at the anterior midline to form a ‘U’ like shape for fitting in the potential space of the bilateral lingual vestibules, and further comprising a handle or tab for holding the device in the mouth of a patient with altered consciousness to prevent aspiration or premature swallowing. The pharmaceutical dosage-form is formulated and shaped to contact the mucosal tissues and may include mucoadhesive compounds, retentive compounds, and/or additional payload enhancers, such as permeation enhancers and flavor enhancers.

Abstract: A method of producing a fabric with antimicrobial properties that includes liquefying bamboo to produce a slurry, adding an antimicrobial element to the slurry, adding a non-bamboo fiber to the slurry to create a mixture and extruding the mixture to produce a fiber. The antimicrobial fabric may include a composition of 69% bamboo, 30% cotton and 1% silver.

Abstract: The present invention discloses an antimicrobial fibre, fabric and wound dressing that incorporate nano metal and the preparation method thereof. Nano metal particles are homogenously distributed within the fibre structure or surface, and, the fibre does not contain protective colloid for the prevention of agglomeration of nano metal particles. The nano metal particles are in an amount of 1.1% to 20% by weight. The fibrous wound dressing has the ability to continuously release sufficient amount of silver ions and is especially suitable for the management of chronic wounds. It can effectively prevent various bacteria and microbial infections.

Abstract: The present invention provides antiseptic compositions that contain DMSO or DMA, an alcohol (e.g., isopropanol), and/or an additional antiseptic agent such as iodine. In certain embodiments, the antiseptic compositions may be used for skin disinfection and/or skin antisepsis (e.g., as applied via a swab).

Abstract: The disclosure provides methods and materials suitable for preparing coating layers on substrates. The coatings comprise quaternary amine groups and therefore impart anti-bacterial properties to the substrate. In one embodiment, for example, there is provided a quaternary amine-containing polymeric coating comprising propylene and ethylene repeat units.

Abstract: A substrate of polymeric material for wound care contains at least one oleous antimicrobial and/or helping tissue regeneration substance that is selected from Hyperforin, Adhyperforin, 1-3 Diapigenin, 11-8 Diapigenin, Rutin, Quercetin, Hypericin, Azadirachtin ?-?, Nimbin, Nimbidin, Salanin, Gallic Acid, Gedunin and combinations thereof.

Abstract: Horse hoof protection against thrush conditions is obtained by depositing onto the horse hoof bottom wall a synthetic organic resin such as a urethane resin through which a medicament that does not block cure of the resin has been, distributed for continuing hoof wall contact. The resin is suitably free flowing into place, conforms to the contours of the hoof bottom wall, and adheres to the wall when cured. The protection by the resin is resilient and softer than the hoof wall and acts to cushion the hoof against shock.

Abstract: Antifungal and antibacterial peptides, polypeptides and proteins as antifungal additives for paint and other coatings are disclosed, along with antifungal compositions, and coated surfaces with antifungal properties. Methods of using the coatings for treating and/or inhibiting growth of mold, mildew and other fungi and bacteria on objects such as building materials that are susceptible to such infestation are also disclosed.

Abstract: Medical devices, wound dressings, and methods of dressing wounds are described. Devices and methods using silicone and pharmaceutically active agents are described. Devices including covers and bases are described.

Abstract: The present invention, therefore, relates to a method for prophylaxis, control or reduction of fungi in a textile substrate, which comprises applying to a textile substrate that is susceptible to fungal infestation an amount effective for the prophylaxis, control or reduction of fungi of at least one fungicidal compound. The invention further provides a method for the prophylaxis, control or reduction of both fungi and dust mites in a textile substrate, which comprises co-application to a textile substrate that is susceptible to fungal and dust mite infestation of a prophylactic or acaricidally effective amount of a suitable acaricide and a prophylactic or fungicidally effective amount of at least one fungicidal compound.

Abstract: The present invention relates to the use of compounds of Formula (I) wherein R1, R2, R3, R4, R5, R6, R7, R8, X, n and G have the meanings given above as insecticides and/or acaricides and/or fungicides.

Abstract: The present invention comprises methods and compositions for the treatment of pathological conditions of the dermis and dermal structures of animals and humans. In particular, the present invention comprises the use of topical delivery vehicles, including hydrogels, which incorporate active agents such as organic acids, for the treatment of dermal conditions.

Abstract: An antimicrobial wipe that contains a polymer coating having a synergistic combination of ingredients for providing controlled release of an antimicrobial agent and also good antimicrobial efficacy is provided. One such ingredient is a high molecular weight polyamideamine release agent. Due to the polycationic nature of the release agent, it is able to adhere to the wipe, which is generally formed from fibers having a negative surface charge (e.g., cellulosic fibers). In this manner, the release agent can occupy binding sites on the wipe to inhibit the antimicrobial agent from adhering thereto, thus allowing it to be expressed in the germicidal solution to kill microbes on the desired surface. The adherence of the release agent to the wipe is even further enhanced by crosslinking the polyamideamine to increase its molecular weight, thereby enabling it to form a structural network that physically adheres to the wipe and that blocks the antimicrobial agent from binding thereto.

Abstract: The combination of a first species which is a polyanionic compound and a second species which is an antimicrobial agent is used for the treatment of microbial biofilms and for the topical treatment of wounds. The combination may be incorporated in a wound dressing. The polyanionic compound may be a polyphosphate, such as an alkali metal polyphosphate, e.g. sodium hexametaphosphate. Examples of antimicrobial agents include metallic silver, silver compounds, iodine, PHMB (polyhexamethylene biguanide), acetic acid, chlorhexidine, aminoglycosides (e.g. amikacin, gentamicin, streptomycin and tobramycin), ansamycins, carbacephem, cephalosporins, glycopeptides (e.g. vancomycin), macrolides (eg clarithromycin), monobactams and sulfonamides).

Abstract: The present invention is directed to providing antimicrobial compositions consisting of a polymeric material and, embedded therein, an antimicrobial compound. The antimicrobial compound contains at least one quaternary ammonium group, at least one hydrocarbon chain comprising a minimum of 10 carbon atoms and a maximum of 24 carbon atoms, and one or more anions to balance the charge of the quaternary ammonium groups. The invention is also directed to a method of making antimicrobial compositions containing an antimicrobial compound embedded in a polymeric material.

Abstract: The invention provides a novel method for producing an antitoxic nonwoven fabric by molecularly grafting the antitoxic molecule thereto. The method comprises immersing a fibrous media comprising a material having a melt flow index of less than 150 MFI in a stable antitoxin solution comprising an antitoxin, preferably triiodide. The wet media is processed through rollers, thereby forcing the antitoxic molecule (e.g., iodine) to penetrate the media. The wet media is dried, and the fabric isolated therefrom. The invention further provides products incorporating the antitoxic media formed by this molecularly grafting method, including a wound dressing, surgical drape, privacy curtain, facemask, gown, article of protective clothing, shoe covering, hair covering, air filter, medical tape, and wipe.

Abstract: An air treating composition for eliminating odors from air in combination with specific spray valve and actuator requirements and spray performance parameters providing maximum dispersion of the active component in the composition into the air is disclosed. The particles of the composition are small so that the active component is dispersed into air as a fine dispersion to provide more contact with odors and to provide quick absorption of odors. The particle size of the composition is controlled through the selection of valve and actuator dimensions. The air treating and odor eliminating composition of the invention includes water, a low molecular weight polyol, an emulsifier, and a propellant. The composition may also include additional adjuvants such as solvent(s), fragrance(s), corrosion inhibitor, pH adjustor and the like.

Abstract: The invention relates to polymeric systems for stabilizing, storing and delivering hypohalide salts. One system consists of material coated with two layers: one prepared from polyethylene glycol epoxide and melamine solution and second prepared from inorganic hypohalide salt solution. The material can be fabric, cotton, bamboo, cellulosic materials, blend of cellulosic and synthetic fibres. Antimicrobial materials comprising this system are also described. Another system consists of material containing pre-formed spaces coated with water-polyethylene glycol solution of hypohalide salt and encapsulated by film forming polymer. Hypohalide salts within both systems are in some cases storage stable for at least three months.

Abstract: This document relates to methods and materials for reducing the risk of infection after a shoulder surgery or medical procedure. For example, this document relates to methods and materials for using a topical composition containing clindamycin or erythromycin to reduce the risk of or to prevent infection associated with shoulder surgeries or medical procedures.