The invention describes methods and agents for improving cosmetic appearance, for promoting, improving or restoring health of cells and tissues, preferably skin, and more preferably, for restoring aged or damaged skin to a healthy appearance. The agents include compositions of cells, eggs, cell extracts, egg extracts, and extract components such as purified nucleic acids, polypeptides, lipids, carbohydrates or other natural products.

The invention describes methods and agents for improving cosmetic appearance, for promoting, improving or restoring health of cells and tissues, preferably skin, and more preferably, for restoring aged or damaged skin to a healthy appearance. The agents include compositions of cells, eggs, cell extracts, egg extracts, and extract components such as purified nucleic acids, polypeptides, lipids, carbohydrates or other natural products.

The growth factor profile, connective tissue matrix constituents, and immunoprivileged status of urodele extracellular matrix (ECM) and accompanying cutaneous tissue, plus the presence of antimicrobial peptides there, render urodele-derived tissue an ideal source for biological scaffolds for xenotransplantation. In particular, a biological scaffold biomaterial can be obtained by a process that entails (A) obtaining a tissue sample from a urodele, where the tissue comprises ECM, inclusive of the basement membrane, and (B) subjecting the tissue sample to a decellularization process that maintains the structural and functional integrity of the extracellular matrix, by virtue of retaining its fibrous and non-fibrous proteins, glycoaminoglycans (GAGs) and proteoglycans, while removing sufficient cellular components of the sample to reduce or eliminate antigenicity and immunogenicity for xenograft purposes. The resultant urodele-derived biomaterial can be used to enhance restoration of skin homeostasis, to reduce the severity, duration and associated damage caused by post-surgical inflammation, and to promote progression of natural healing and regeneration processes. In addition, the biomaterial promotes the formation of remodeled tissue that is comparable in quality, function, and compliance to undamaged human tissue.

The growth factor profile, connective tissue matrix constituents, and immunoprivileged status of urodele extracellular matrix (ECM) and accompanying cutaneous tissue, plus the presence of antimicrobial peptides there, render urodele-derived tissue an ideal source for biological scaffolds for xenotransplantation. In particular, a biological scaffold biomaterial can be obtained by a process that entails (A) obtaining a tissue sample from a urodele, where the tissue comprises ECM, inclusive of the basement membrane, and (B) subjecting the tissue sample to a decellularization process that maintains the structural and functional integrity of the extracellular matrix, by virtue of retaining its fibrous and non-fibrous proteins, glycoaminoglycans (GAGs) and proteoglycans, while removing sufficient cellular components of the sample to reduce or eliminate antigenicity and immunogenicity for xenograft purposes. The resultant urodele-derived biomaterial can be used to enhance restoration of skin homeostasis, to reduce the severity, duration and associated damage caused by post-surgical inflammation, and to promote progression of natural healing and regeneration processes. In addition, the biomaterial promotes the formation of remodeled tissue that is comparable in quality, function, and compliance to undamaged human tissue.

A pharmaceutical composition for dissolving and eliminating wart and excrescence consisting of protein is disclosed in the present invention. The pharmaceutical composition comprises (in 100 weight parts) 1.0-60.0 parts of sodium hydroxide and/or potassium hydroxide. The pharmaceutical composition further comprises 0.25-1.0 parts of tetracaine, bufalin, venenum bufonis and/or menthol having local anesthetic effect. The pharmaceutical composition can dissolve and eliminate wart and excrescence consisting of protein immediately and has significant effect and low side effect.

A pharmaceutical composition for dissolving and eliminating wart and excrescence consisting of protein is disclosed in the present invention. The pharmaceutical composition comprises (in 100 weight parts) 1.0-60.0 parts of sodium hydroxide and/or potassium hydroxide. The pharmaceutical composition further comprises 0.25-1.0 parts of tetracaine, bufalin, venenum bufonis and/or menthol having local anesthetic effect. The pharmaceutical composition can dissolve and eliminate wart and excrescence consisting of protein immediately and has significant effect and low side effect.

A pharmaceutical composition for dissolving and eliminating wart and excrescence consisting of protein is disclosed in the present invention. The pharmaceutical composition comprises (in 100 weight parts) 1.0-60.0 parts of sodium hydroxide and/or potassium hydroxide. The pharmaceutical composition further comprises 0.25-1.0 parts of tetracaine, bufalin, venenum bufonis and/or menthol having local anesthetic effect. The pharmaceutical composition can dissolve and eliminate wart and excrescence consisting of protein immediately and has significant effect and low side effect.

The present invention is directed to a use of anti-fatigue probiotic bacteria for improving exercise performance, particularly the fatigue caused by exercise. The anti-fatigue probiotic bacteria increases muscle mass and endurance, decreases blood lactate, ammonia, and creatine kinase concentration, and changes body composition; the said bacteria can be used to improve exercise performance.

The present invention is directed to a use of anti-fatigue probiotic bacteria for improving exercise performance, particularly the fatigue caused by exercise. The anti-fatigue probiotic bacteria increases muscle mass and endurance, decreases blood lactate, ammonia, and creatine kinase concentration, and changes body composition; the said bacteria can be used to improve exercise performance.

The present invention is directed to a use of anti-fatigue probiotic bacteria for improving exercise performance, particularly the fatigue caused by exercise. The anti-fatigue probiotic bacteria increases muscle mass and endurance, decreases blood lactate, ammonia, and creatine kinase concentration, and changes body composition; the said bacteria can be used to improve exercise performance.