A gel composition comprising silicone crosspolymer and silicone oil wherein the composition when applied to the skin adheres to the skin with a work of adhesion of more than about 0.500 Newton.Math.sec when measured by TA.XT plus text analyzer using a mucoadhesive rig and forms a film with a coefficient of friction of less than 0.400 when measured by Automatic surface tester (method ASTM D 1894).

A gel composition comprising silicone crosspolymer and silicone oil wherein the composition when applied to the skin adheres to the skin with a work of adhesion of more than about 0.500 Newton.Math.sec when measured by TA.XT plus text analyzer using a mucoadhesive rig and forms a film with a coefficient of friction of less than 0.400 when measured by Automatic surface tester (method ASTM D 1894).

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.

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.

A cream formulation or topical use made of a mixture of naturally occurring biologically active phytochemical compounds that possess a variety of beneficial animal and human health effects. An extract from an aqueous extraction process or other active ingredients could be used in the cream formulation. The present invention generally provides for the preparation of cream formulations containing active ingredients that contain individually, or in combination, an analgesic, natural product extracts, or a protein or proteins from the tripartite motif family of proteins (TRIM). The analgesic will provide mitigation of pain during the healing process.

A method, product by process, and composition for aiding in pain relief. The user adds hot water to methylsulfonylmethane (MSM), then stirs the resulting mixture until the MSM is dissolved. The user then adds room temperature water, bromelain, aloe vera juice, and papain to the batch, and continues to stir. Coconut oil and palm kernel oil are stirred in, along with a sweet oil mixture. The sweet oil mixture is a mixture of natural, unconcentrated, oils such as lemon oil, sweet orange oil, arnica, sweet almond oil, peppermint oil, grape seed oil, comfrey oil, eucalyptus oil, grapefruit seed extract, and fragrance oils such as mango and kiwi. Finally, xanthan gum is stirred into the mixture, resulting in a batch of desired composition, which can be used topically for pain relief.

A method, product by process, and composition for aiding in pain relief. The user adds hot water to methylsulfonylmethane (MSM), then stirs the resulting mixture until the MSM is dissolved. The user then adds room temperature water, bromelain, aloe vera juice, and papain to the batch, and continues to stir. Coconut oil and palm kernel oil are stirred in, along with a sweet oil mixture. The sweet oil mixture is a mixture of natural, unconcentrated, oils such as lemon oil, sweet orange oil, arnica, sweet almond oil, peppermint oil, grape seed oil, comfrey oil, eucalyptus oil, grapefruit seed extract, and fragrance oils such as mango and kiwi. Finally, xanthan gum is stirred into the mixture, resulting in a batch of desired composition, which can be used topically for pain relief.

A method, product by process, and composition for aiding in pain relief. The user adds hot water to methylsulfonylmethane (MSM), then stirs the resulting mixture until the MSM is dissolved. The user then adds room temperature water, bromelain, aloe vera juice, and papain to the batch, and continues to stir. Coconut oil and palm kernel oil are stirred in, along with a sweet oil mixture. The sweet oil mixture is a mixture of natural, unconcentrated, oils such as lemon oil, sweet orange oil, arnica, sweet almond oil, peppermint oil, grape seed oil, comfrey oil, eucalyptus oil, grapefruit seed extract, and fragrance oils such as mango and kiwi. Finally, xanthan gum is stirred into the mixture, resulting in a batch of desired composition, which can be used topically for pain relief.

A composition for the treatment of acne. The composition works without drying out the skin and exacerbating the cycle of acne, while promoting healing and reducing inflammation. The composition includes a cannabidiol, terpenoids, an antimicrobial, a soothing agent, a healing agent, or an anti-inflammatory agent, a healthy skin promoter, an antioxidant, and a mild, naturally derived antimicrobial agent. The composition may also include emulsifiers, humectants, preservatives, chelating agents, stabilizers, colorants, and fragrances. The composition may also include oils and fatty acids such as medium chain triglycerides (caprylic/capric triglyceride), Cannabis Sativa (hemp seed) oil, and Nigella Sativa (black cumin) seed oil.