Topical cream or ointment medications formulated by blending admixtures of various concentrations of active ingredients with a plurality of inactive excipient ingredients for treating acne and a variety of other similar skin ailments including, folliculitis, rosacea, boil, skin-flaking, minor wounds, cuts, and adverse skin-issues related to use of covid-19 protective face-masks covered-area rashes, acne and non-lethal insect bites.

Topical cream or ointment medications formulated by blending admixtures of various concentrations of active ingredients with a plurality of inactive excipient ingredients for treating acne and a variety of other similar skin ailments including, folliculitis, rosacea, boil, skin-flaking, minor wounds, cuts, and adverse skin-issues related to use of covid-19 protective face-masks covered-area rashes, acne and non-lethal insect bites.

Topical cream or ointment medications formulated by blending admixtures of various concentrations of active ingredients with a plurality of inactive excipient ingredients for treating acne and a variety of other similar skin ailments including, folliculitis, rosacea, boil, skin-flaking, minor wounds, cuts, and adverse skin-issues related to use of covid-19 protective face-masks covered-area rashes, acne and non-lethal insect bites.

The present disclosure relates to a composition for preventing hair loss or promoting hair growth, which contains a mixture of cucumber, eggplant and snail extracts as an active ingredient. The composition according to the present disclosure, which contains a mixture of cucumber, eggplant and snail extracts as an active ingredient, has been confirmed to increase the expression of hepatocyte growth factor (HGF), keratinocyte growth factor (KGF) and insulin-like growth factor 1 (IGF-1) in dermal papilla cells which are known to play a critical role in the induction of new hair follicles and maintenance of hair growth, exhibit hair-growing effect comparable to that of minoxidil in a hair growth test for depilated 6-week-old C57BL/6 mice, and exhibit hair loss-improving effect in a clinical test for human. Accordingly, it can be usefully used as a cosmetic composition or a pharmaceutical composition for external application to skin for preventing hair loss or promoting hair growth.

A method for treating a person's skin is disclosed. The method includes topically applying to the skin a composition comprising from 0.001% to 20% by weight of an aqueous, alcoholic, or aqueous-alcoholic extract from a plant extract.

A method for treating a person's skin is disclosed. The method includes topically applying to the skin a composition comprising from 0.001% to 20% by weight of an aqueous, alcoholic, or aqueous-alcoholic extract from a plant extract.

A method for treating a person's skin is disclosed. The method includes topically applying to the skin a composition comprising from 0.001% to 20% by weight of an aqueous, alcoholic, or aqueous-alcoholic extract from a plant extract.

The cosmetic use of one or more absolute(s) obtained from magnolia, juniper or violet for depigmenting the skin.

The present invention pertains to quantum-scale biocidal particles and chemical reactions that disrupt and eviscerate microbial matter by combining aqueous and dry components. As halo-fullerene activation requires volatile excitation to mix, contact and collide so as to rupture microbial matter, atomic scale chemical reactions impart the requisite movement of engineered halo-fullerenes to destroy bacterial, fungal and viral matter upon contact. The present invention includes two primary mechanisms: an excitation chemistry and biocidal, hydrophobic halo-fullerenes. Upon aqueous exposure, the dry composition initiates a chemical reaction that activates biocidal halo-fullerenes to disrupt biologic surfaces in topical applications. The object of the present invention is a shelf stable, pre-packaged wiping material or dry packet for rehydration with broad spectrum antimicrobial activity. In one example, a matrix or wipe material would be comprised of densely packed and highly concentrated halo-fullerenes and a chemical reaction stimulant. When activated upon aqueous exposure, it would relax water molecules, alter hydrogen binding, and disrupt adhesion and cohesion forces that characterize surface tensions. These dynamics would then isolate sebaceous substances and free oxygen radicals, along with outgassing of carbon dioxide. The chemical reaction stimulant thus transfers energy and hyperactivates otherwise inert halo-fullerenes to form a biocidal composition. Broader utilities range from topical cleansing for personal hygiene, as well as various clinical and surgical procedures, as surgical and prophylactic lavage and rinse solutions, and enteral formulations as a hypertonic renal flush combined with short-acting diuresis. The halo-fullerene and hypertonic renal flush would cause osmotic cellular outflow, mitigate cellular microbial uptake and initial seroconversion and bloodborne events, while a botanical diuretic agent would facilitate systemic prophylaxis or treatment of UTIs.

The present invention pertains to quantum-scale biocidal particles and chemical reactions that disrupt and eviscerate microbial matter by combining aqueous and dry components. As halo-fullerene activation requires volatile excitation to mix, contact and collide so as to rupture microbial matter, atomic scale chemical reactions impart the requisite movement of engineered halo-fullerenes to destroy bacterial, fungal and viral matter upon contact. The present invention includes two primary mechanisms: an excitation chemistry and biocidal, hydrophobic halo-fullerenes. Upon aqueous exposure, the dry composition initiates a chemical reaction that activates biocidal halo-fullerenes to disrupt biologic surfaces in topical applications. The object of the present invention is a shelf stable, pre-packaged wiping material or dry packet for rehydration with broad spectrum antimicrobial activity. In one example, a matrix or wipe material would be comprised of densely packed and highly concentrated halo-fullerenes and a chemical reaction stimulant. When activated upon aqueous exposure, it would relax water molecules, alter hydrogen binding, and disrupt adhesion and cohesion forces that characterize surface tensions. These dynamics would then isolate sebaceous substances and free oxygen radicals, along with outgassing of carbon dioxide. The chemical reaction stimulant thus transfers energy and hyperactivates otherwise inert halo-fullerenes to form a biocidal composition. Broader utilities range from topical cleansing for personal hygiene, as well as various clinical and surgical procedures, as surgical and prophylactic lavage and rinse solutions, and enteral formulations as a hypertonic renal flush combined with short-acting diuresis. The halo-fullerene and hypertonic renal flush would cause osmotic cellular outflow, mitigate cellular microbial uptake and initial seroconversion and bloodborne events, while a botanical diuretic agent would facilitate systemic prophylaxis or treatment of UTIs.