In some embodiments, a composition and/or method may include a toxin binding system formulated for safe and effective mixture into various feed rations which are fed to monogastric and ruminant animals such as poultry, swine, cows, cattle, and fish, among others. The toxin binding system includes novel combinations of one or more of an organoclay, an activated hydrated sodium calcium aluminosilicate clay, and a synthetic hectorite clay. In some embodiments, the binding composition may include organoclay, bentonite, hectorite, Leonardite, and/or any combination thereof. The toxin binding complex may effectively bind mycotoxins, endotoxins and some pesticides in the animal's digestive system, preventing their absorption and the consequent damages to the animal. This binding action includes the T-2 toxin, which can start their damaging action in the animal's mouth, hence, offering protection from oral lesions.

In some embodiments, a composition and/or method may include a toxin binding system formulated for safe and effective mixture into various feed rations which are fed to monogastric and ruminant animals such as poultry, swine, cows, cattle, and fish, among others. The toxin binding system includes novel combinations of one or more of an organoclay, an activated hydrated sodium calcium aluminosilicate clay, and a synthetic hectorite clay. In some embodiments, the binding composition may include organoclay, bentonite, hectorite, Leonardite, and/or any combination thereof. The toxin binding complex may effectively bind mycotoxins, endotoxins and some pesticides in the animal's digestive system, preventing their absorption and the consequent damages to the animal. This binding action includes the T-2 toxin, which can start their damaging action in the animal's mouth, hence, offering protection from oral lesions.

In some embodiments, a composition and/or method may include a toxin binding system formulated for safe and effective mixture into various feed rations which are fed to monogastric and ruminant animals such as poultry, swine, cows, cattle, and fish, among others. The toxin binding system includes novel combinations of one or more of an organoclay, an activated hydrated sodium calcium aluminosilicate clay, and a synthetic hectorite clay. In some embodiments, the binding composition may include organoclay, bentonite, hectorite, Leonardite, and/or any combination thereof. The toxin binding complex may effectively bind mycotoxins, endotoxins and some pesticides in the animal's digestive system, preventing their absorption and the consequent damages to the animal. This binding action includes the T-2 toxin, which can start their damaging action in the animal's mouth, hence, offering protection from oral lesions.

The present invention provides a stabilized hypohalous acid solution (or formulation thereof), which may be conveniently packaged for sale, or stored for later use on demand. The invention further provides methods of making the stabilized hypohalous acid solution, as well as methods of use for disinfecting mammalian tissue, including wounds and burns, disinfecting or cleansing surfaces, or treating and/or preserving food products and cut flowers, among other uses.

The present invention provides a stabilized hypohalous acid solution (or formulation thereof), which may be conveniently packaged for sale, or stored for later use on demand. The invention further provides methods of making the stabilized hypohalous acid solution, as well as methods of use for disinfecting mammalian tissue, including wounds and burns, disinfecting or cleansing surfaces, or treating and/or preserving food products and cut flowers, among other uses.

The present invention provides a stabilized hypohalous acid solution (or formulation thereof), which may be conveniently packaged for sale, or stored for later use on demand. The invention further provides methods of making the stabilized hypohalous acid solution, as well as methods of use for disinfecting mammalian tissue, including wounds and burns, disinfecting or cleansing surfaces, or treating and/or preserving food products and cut flowers, among other uses.

Some embodiments of the present disclosure include a cream for treating the skin. The cream may include gray clay kaolin; sodium lauryl ether sulfate; blue tartarzine; sodium chloride; menthol; metabisulfite sodium; gelatin; mineral oil; olive oil; oil of cloves; water; green tea; honey; and aloe vera. The cream may also include talc, apple perfume, vitamin E, vitamin D, vitamin C, vitamin B2, vitamin B5, vitamin H, vitamin B6, and vitamin D. The cream may also include fatty acids.

Some embodiments of the present disclosure include a cream for treating the skin. The cream may include gray clay kaolin; sodium lauryl ether sulfate; blue tartarzine; sodium chloride; menthol; metabisulfite sodium; gelatin; mineral oil; olive oil; oil of cloves; water; green tea; honey; and aloe vera. The cream may also include talc, apple perfume, vitamin E, vitamin D, vitamin C, vitamin B2, vitamin B5, vitamin H, vitamin B6, and vitamin D. The cream may also include fatty acids.

The present invention relates to a method of producing a direct compression tablet composition comprising the step of processing ibuprofen, a hydrophilic polymer, and an inorganic excipient by an extrusion process to produce an extruded composition in which the ibuprofen forms a solid dispersion/solution within the hydrophilic polymer. The invention is particularly useful in preparing oral dissolvable tablets. Also provided are composition comprising an inorganic excipient and ibuprofen within a hydrophilic polymer.

The present invention relates to a method of producing a direct compression tablet composition comprising the step of processing ibuprofen, a hydrophilic polymer, and an inorganic excipient by an extrusion process to produce an extruded composition in which the ibuprofen forms a solid dispersion/solution within the hydrophilic polymer. The invention is particularly useful in preparing oral dissolvable tablets. Also provided are composition comprising an inorganic excipient and ibuprofen within a hydrophilic polymer.