The present invention relates to a composition comprising ethyl vanillin or a pharmaceutically acceptable salt thereof as an effective ingredient for preventing or treating muscle disease or for improving a muscle function. Having the capability of upregulating the expression of a protein associated with muscle protein synthesis and muscle mass increase in myocytes and downregulating at an mRNA level the expression of an enzyme involved in muscle protein degradation, ethyl vanillin can exhibit effects of muscle differentiation, muscle regeneration, and muscle strengthening through an increase in muscle mass against muscle diseases attributed to muscle function decrease, muscle consumption, or muscle degradation and can suppress sarcopenia. Thus, ethyl vanillin can be used for preventing or treating muscle diseases or for promoting muscle differentiation, muscle regeneration and muscle strengthening, muscle mass increase, or muscle generation or for improving muscle function.

The present invention relates to a composition comprising ethyl vanillin or a pharmaceutically acceptable salt thereof as an effective ingredient for preventing or treating muscle disease or for improving a muscle function. Having the capability of upregulating the expression of a protein associated with muscle protein synthesis and muscle mass increase in myocytes and downregulating at an mRNA level the expression of an enzyme involved in muscle protein degradation, ethyl vanillin can exhibit effects of muscle differentiation, muscle regeneration, and muscle strengthening through an increase in muscle mass against muscle diseases attributed to muscle function decrease, muscle consumption, or muscle degradation and can suppress sarcopenia. Thus, ethyl vanillin can be used for preventing or treating muscle diseases or for promoting muscle differentiation, muscle regeneration and muscle strengthening, muscle mass increase, or muscle generation or for improving muscle function.

A composition for reducing damage associated with oxidative phosphorylation. The composition comprises an upregulating compound mixture configured to upregulate an endogenous antioxidant system, an exogenous antioxidant mixture configured to inhibit oxidation of biomolecules by reactive oxygen species, and a mineral mixture configured to provide one or more cofactors to a endogenous antioxidant enzyme. The endogenous antioxidant system includes a Nrf2 transcription factors that promotes transcription of antioxidant genes.

A composition for reducing damage associated with oxidative phosphorylation. The composition comprises an upregulating compound mixture configured to upregulate an endogenous antioxidant system, an exogenous antioxidant mixture configured to inhibit oxidation of biomolecules by reactive oxygen species, and a mineral mixture configured to provide one or more cofactors to a endogenous antioxidant enzyme. The endogenous antioxidant system includes a Nrf2 transcription factors that promotes transcription of antioxidant genes.

The present disclosure provides a nutritional formula comprising alpha-lactalbumin enriched whey protein concentrate; lactoferrin; oleic acid-palmitic acid-oleic acid triglyceride; lactose; lutein; docosahexanoic acid; arachidonic acid; galactooligosaccharides; and fructooligosaccharides. The provided nutritional formulas may be useful in providing nutrition and/or promoting postnatal development of a subject (e.g., promoting postnatal development of an infant's gastrointestinal tract, promoting proper gastrointestinal function, nutrient absorption, proper immune system development, etc.). Also provided are powder forms, reconstituted formulas, kits, methods, and uses that include or involve a nutritional formula described herein.

The present disclosure provides a nutritional formula comprising alpha-lactalbumin enriched whey protein concentrate; lactoferrin; oleic acid-palmitic acid-oleic acid triglyceride; lactose; lutein; docosahexanoic acid; arachidonic acid; galactooligosaccharides; and fructooligosaccharides. The provided nutritional formulas may be useful in providing nutrition and/or promoting postnatal development of a subject (e.g., promoting postnatal development of an infant's gastrointestinal tract, promoting proper gastrointestinal function, nutrient absorption, proper immune system development, etc.). Also provided are powder forms, reconstituted formulas, kits, methods, and uses that include or involve a nutritional formula described herein.

The invention relates to a process for the manufacture of a perchlorate depleted milk based on nanofiltration of dairy raw materials. The invention further relates to methods for the preparation of an infant formula base using said perchlorate depleted milk. The invention also envisages a perchlorate depleted retentate fraction used to produce a perchlorate depleted milk and infant formula, an assortment comprising said formula and a system for the manufacture of an infant formula comprising a nanofiltration module.

The invention relates to a process for the manufacture of a perchlorate depleted milk based on nanofiltration of dairy raw materials. The invention further relates to methods for the preparation of an infant formula base using said perchlorate depleted milk. The invention also envisages a perchlorate depleted retentate fraction used to produce a perchlorate depleted milk and infant formula, an assortment comprising said formula and a system for the manufacture of an infant formula comprising a nanofiltration module.

The present invention provides food products, nutritional programs, and methods for meeting nutritional needs of subjects with dementia and related cognitive disorders. In one embodiment, the invention provides a food product comprising a reversibly sealed container and a soup, wherein the soup is in the container and comprises a total volume of 200-2000 mls, a vegetable or meat component, 300 to 2500 calories, a macronutrient caloric distribution comprising: 20-80% fat, 10-45% protein, and 10-65% carbohydrate, about 2% to about 40% medium chain triglycerides, omega 3 fatty acids in an amount of 100 to 2000 mg and less than 20 solid food particles having a volume greater than about 20 cm.sup.3. Such food products, when administered to affected subjects, can positively impact (i) nutritional status; (ii) quality of life; (iii) disease course; (v) the demand for assistance from a care giver; (vi) subject compliance with a nutritional plan using the food product, and (vii) ease of monitoring compliance by the caregiver for verification.

The present invention provides food products, nutritional programs, and methods for meeting nutritional needs of subjects with dementia and related cognitive disorders. In one embodiment, the invention provides a food product comprising a reversibly sealed container and a soup, wherein the soup is in the container and comprises a total volume of 200-2000 mls, a vegetable or meat component, 300 to 2500 calories, a macronutrient caloric distribution comprising: 20-80% fat, 10-45% protein, and 10-65% carbohydrate, about 2% to about 40% medium chain triglycerides, omega 3 fatty acids in an amount of 100 to 2000 mg and less than 20 solid food particles having a volume greater than about 20 cm.sup.3. Such food products, when administered to affected subjects, can positively impact (i) nutritional status; (ii) quality of life; (iii) disease course; (v) the demand for assistance from a care giver; (vi) subject compliance with a nutritional plan using the food product, and (vii) ease of monitoring compliance by the caregiver for verification.