Disclosed is a method for evaluating the ability of a chemical substance or a chemical composition to prevent muscle fatigue and damage induced by physical exertion in humans; edible composition including at least one salt of a multivalent metal cation, at least one compound selected between vitamin E or vitamin E acetate, at least one edible polyphenol compound selected from compounds of the flavonol family, compounds of the anthocyanin family, compounds of the phenolic acid family and compounds of the flavonol family and/or the glucosylated derivatives thereof, in which the molar ratio/is of at least 0.50 and not more than 2.00; its use as a food supplement or for preparing a food supplement composition or as a drug for preventing muscle fatigue and/or muscle damage induced by physical exertion, in a method for the treatment of the human body by therapy.

Disclosed is a method for evaluating the ability of a chemical substance or a chemical composition to prevent muscle fatigue and damage induced by physical exertion in humans; edible composition including at least one salt of a multivalent metal cation, at least one compound selected between vitamin E or vitamin E acetate, at least one edible polyphenol compound selected from compounds of the flavonol family, compounds of the anthocyanin family, compounds of the phenolic acid family and compounds of the flavonol family and/or the glucosylated derivatives thereof, in which the molar ratio/is of at least 0.50 and not more than 2.00; its use as a food supplement or for preparing a food supplement composition or as a drug for preventing muscle fatigue and/or muscle damage induced by physical exertion, in a method for the treatment of the human body by therapy.

The invention disclosed herein related to novel synergistic nutritional compositions for treating neurocognitive disorders. Particularly, the invention provides stable nutritional composition for treating neurocognitive disorders comprising exogenous blend of magnesium L-threonate and homotaurine present in the weight ratio of 1:0.1 to 1:1, along with pharmaceutically acceptable excipients. Further, the present synergistic nutritional composition is useful for treating neurocognitive disorders such as Alzheimer's disease (AD); dementia; Attention-deficit/hyperactivity disorder and like thereof.

The present invention relates to a composition in powder form comprising probiotic bacteria and at least one iron-milk protein complex. Such iron-milk protein complex advantageously does not cause significant reduction in the viability of the bacteria and thus such iron source is advantageously used to fortify a composition in powder form comprising probiotic bacteria.

The present invention relates to a composition in powder form comprising probiotic bacteria and at least one iron-milk protein complex. Such iron-milk protein complex advantageously does not cause significant reduction in the viability of the bacteria and thus such iron source is advantageously used to fortify a composition in powder form comprising probiotic bacteria.

The nutraceutical composition includes a gelling component in a sufficient amount to provide a cohesive gelled product, and a peptide chelated mineral composition. In one embodiment, the peptide chelated mineral composition includes a collagen chelated mineral composition.

The nutraceutical composition includes a gelling component in a sufficient amount to provide a cohesive gelled product, and a peptide chelated mineral composition. In one embodiment, the peptide chelated mineral composition includes a collagen chelated mineral composition.

The application provides nutraceutical compositions supporting an active life style and helps with the post-exercise recover. In one embodiment, the nutraceutical composition includes a gelling component in a sufficient amount to provide a cohesive gelled product and an active component. The active component consists of a vitamin B composition, a carbohydrate composition, an amino acid composition, an antioxidant composition, and an anti-inflammatory.

The application provides nutraceutical compositions supporting an active life style and helps with the post-exercise recover. In one embodiment, the nutraceutical composition includes a gelling component in a sufficient amount to provide a cohesive gelled product and an active component. The active component consists of a vitamin B composition, a carbohydrate composition, an amino acid composition, an antioxidant composition, and an anti-inflammatory.

The invention relates to pharmaceutical compositions comprising calcium lactate as an active agent and a polysaccharide, polymer, lipid, or a combination thereof. The pharmaceutical compositions are useful treating cancer. The invention also relates to foods and nutrient compositions comprising calcium lactate.