Embodiments of the disclosure relate to treatments for ringworm on biotic and abiotic surfaces. According to one aspect, a concentrated antimicrobial solution is provided. The concentrated solution includes an antimicrobial composition, a solubilizing agent, and an essential oil. The concentrated antimicrobial solution can be mixed with water, and the resulting solution can be used to disinfect abiotic surfaces from ringworm. According to another aspect, an antimicrobial cream is provided. The antimicrobial cream includes a carrier including a humectant and an antimicrobial composition dispersed in the carrier at 1% w/v or greater.

Embodiments of the disclosure relate to treatments for ringworm on biotic and abiotic surfaces. According to one aspect, a concentrated antimicrobial solution is provided. The concentrated solution includes an antimicrobial composition, a solubilizing agent, and an essential oil. The concentrated antimicrobial solution can be mixed with water, and the resulting solution can be used to disinfect abiotic surfaces from ringworm. According to another aspect, an antimicrobial cream is provided. The antimicrobial cream includes a carrier including a humectant and an antimicrobial composition dispersed in the carrier at 1% w/v or greater.

A trichome and pistil maturing bud finisher plant treatment formula to which plants, pollinators, and humans respond favorably but which deters insects and contagions. The formulas include a series of edible spices claimed in specific ratios. The spices comprise food grade products manufactured for human consumption and specifically comprise Garlic, Ginger, Cinnamon, Turmeric, Clove, Black Pepper, Powdered Ancho Chili, Coriander, Cayenne, Cumin, Fenugreek, Nutmeg, and Oregano. In the bud finisher formula, these spices are mixed with potassium bicarbonate in a first container in relative quantities. Meanwhile, the bud finisher formula requires mixing sesame oil with apple cider vinegar, also in a particular ratio. The bud finisher formula matures pistils and trichomes. An alternative bud shield formula excludes the potassium bicarbonate and apple cider vinegar to also mature trichomes but matures pistils at a slower rate. After dilution the plant treatment formula is applied to all surfaces of the plant.

A trichome and pistil maturing bud finisher plant treatment formula to which plants, pollinators, and humans respond favorably but which deters insects and contagions. The formulas include a series of edible spices claimed in specific ratios. The spices comprise food grade products manufactured for human consumption and specifically comprise Garlic, Ginger, Cinnamon, Turmeric, Clove, Black Pepper, Powdered Ancho Chili, Coriander, Cayenne, Cumin, Fenugreek, Nutmeg, and Oregano. In the bud finisher formula, these spices are mixed with potassium bicarbonate in a first container in relative quantities. Meanwhile, the bud finisher formula requires mixing sesame oil with apple cider vinegar, also in a particular ratio. The bud finisher formula matures pistils and trichomes. An alternative bud shield formula excludes the potassium bicarbonate and apple cider vinegar to also mature trichomes but matures pistils at a slower rate. After dilution the plant treatment formula is applied to all surfaces of the plant.

A trichome and pistil maturing bud finisher plant treatment formula to which plants, pollinators, and humans respond favorably but which deters insects and contagions. The formulas include a series of edible spices claimed in specific ratios. The spices comprise food grade products manufactured for human consumption and specifically comprise Garlic, Ginger, Cinnamon, Turmeric, Clove, Black Pepper, Powdered Ancho Chili, Coriander, Cayenne, Cumin, Fenugreek, Nutmeg, and Oregano. In the bud finisher formula, these spices are mixed with potassium bicarbonate in a first container in relative quantities. Meanwhile, the bud finisher formula requires mixing sesame oil with apple cider vinegar, also in a particular ratio. The bud finisher formula matures pistils and trichomes. An alternative bud shield formula excludes the potassium bicarbonate and apple cider vinegar to also mature trichomes but matures pistils at a slower rate. After dilution the plant treatment formula is applied to all surfaces of the plant.

The present invention relates to new, highly efficient anti-microbial compositions comprising essential oils, metal ions, organic acids and detergents. Bacteria-containing samples treated with the complete synergistic disinfecting composition according to the invention (A or B or C or D+O) do not show any living cell colonies, indicating that under these conditions all microorganisms were killed. Thus it is proven that the synergistic mixtures of the compounds according to the invention show a very effective antimicrobial effect.

The present invention relates to new, highly efficient anti-microbial compositions comprising essential oils, metal ions, organic acids and detergents. Bacteria-containing samples treated with the complete synergistic disinfecting composition according to the invention (A or B or C or D+O) do not show any living cell colonies, indicating that under these conditions all microorganisms were killed. Thus it is proven that the synergistic mixtures of the compounds according to the invention show a very effective antimicrobial effect.

The present invention relates to new, highly efficient anti-microbial compositions comprising essential oils, metal ions, organic acids and detergents. Bacteria-containing samples treated with the complete synergistic disinfecting composition according to the invention (A or B or C or D+O) do not show any living cell colonies, indicating that under these conditions all microorganisms were killed. Thus it is proven that the synergistic mixtures of the compounds according to the invention show a very effective antimicrobial effect.

A process for obtaining compositions constituted by propolis nanoparticles is disclosed. The nanoparticles are optionally associated to a substance of interest such as active ingredients, and, optionally, substances of secondary effect such as synergists and adjuvants. The process includes preparing a fraction A, which consists of propolis extract dissolved in an organic solvent, to which stabilizer and/or emulsifier may be added, and, optionally, substances of interest and/or of secondary effect; ii) preparing a fraction B, aqueous phase, constituted by: (ii.1) water; or (ii.2) an aqueous solution or dispersion, to which stabilizer and/or emulsifier may be added; (iii) dropping the fraction A onto the fraction B or vice versa; iv) homogenizing the mixture by stirring and spontaneous formation of nanoparticles with average size from 1 to 1000 nm in a dispersion; and v) optionally (v-1) removing organic solvent and/or (v-2) drying the nanodispersion.

A process for obtaining compositions constituted by propolis nanoparticles is disclosed. The nanoparticles are optionally associated to a substance of interest such as active ingredients, and, optionally, substances of secondary effect such as synergists and adjuvants. The process includes preparing a fraction A, which consists of propolis extract dissolved in an organic solvent, to which stabilizer and/or emulsifier may be added, and, optionally, substances of interest and/or of secondary effect; ii) preparing a fraction B, aqueous phase, constituted by: (ii.1) water; or (ii.2) an aqueous solution or dispersion, to which stabilizer and/or emulsifier may be added; (iii) dropping the fraction A onto the fraction B or vice versa; iv) homogenizing the mixture by stirring and spontaneous formation of nanoparticles with average size from 1 to 1000 nm in a dispersion; and v) optionally (v-1) removing organic solvent and/or (v-2) drying the nanodispersion.