A sweetener composition comprising xylose, a sugar alcohol and brown seaweed extract in solid form, preferably powdered or crystalline form. The sugar alcohol is preferably an erythritol and the brown seaweed extract is preferably obtained from Laminaria japonica. The sweetener composition can further comprise one or a combination of additional vitamins, minerals, probiotic cultures, and other plant-based extracts.

The present invention relates to a composition comprising a substrate capable of being evenly coated with a microbial biomass, wherein said biomass represents from 10% to 30% by dry matter of the total dry matter of the coated substrate. It also relates to a method for preparing said composition and to a starter fermentation activator and to a probiotic comprising said composition.

The present invention provides a method and composition for ameliorating or reducing the symptoms and signs and for the treatment of obesity, diabetes, and related conditions in a mammal in need thereof, said method comprising administering effective amounts of a pharmaceutically acceptable composition comprising a mixture of probiotic microorganisms with distinct but complementary pathways of carbohydrate metabolism, for a time sufficient to ameliorate, reduce or treat at least one sign or symptom of obesity, diabetes or cardiovascular disease. Compositions having the desired properties, and methods for their use in pharmaceutical and nutritional formulations, are provided.

The present invention provides a method and composition for ameliorating or reducing the symptoms and signs and for the treatment of obesity, diabetes, and related conditions in a mammal in need thereof, said method comprising administering effective amounts of a pharmaceutically acceptable composition comprising a mixture of probiotic microorganisms with distinct but complementary pathways of carbohydrate metabolism, for a time sufficient to ameliorate, reduce or treat at least one sign or symptom of obesity, diabetes or cardiovascular disease. Compositions having the desired properties, and methods for their use in pharmaceutical and nutritional formulations, are provided.

The present invention relates to a method of producing a fermented milk product comprising adding lactic acid bacteria to milk, wherein the bacteria comprise Lactobacillus casei and at least one further strain of lactic acid bacteria of a species other than Lactobacillus casei, wherein the further strain has a deficiency in lactose metabolism but is capable of metabolizing one or several carbohydrates other than lactose present in the milk.

The application discloses Lactobacillus strains having a beneficial effect on the metabolic health on a mammalian subject. Further disclosed is compositions comprising such strains and the use thereof for improving the metabolic health or for lowering the blood glucose level in a mammalian subject.

The application discloses Lactobacillus strains having a beneficial effect on the metabolic health on a mammalian subject. Further disclosed is compositions comprising such strains and the use thereof for improving the metabolic health or for lowering the blood glucose level in a mammalian subject.

The inventions described herein relate generally to digestive healthcare, and more particularly, to the feeding of mammals, particularly human infants, who are making a transition from a microbiome with lower diversity to a microbiome with higher diversity. These inventions relate to certain foods comprising a fermentable nutritional component and a probiotic component, where the probiotic component is selected, based on genetic and/or metabolic criteria, to specifically metabolize any Free Sugar Monomers (FSMs) and Free Amino Acids (FAAs) or peptides that accumulate as a result of the fermentable nutritional component in the lower intestine, where they otherwise might be left in the environment to be fermented and metabolized by less adapted/opportunistic bacteria, creating blooms of deleterious intestinal bacteria and shifting the microbiome to a potentially dysbiotic state. The present inventions provide combinations of foods and probiotic bacteria that can protect the mammalian gut from blooms of pathogenic bacteria under the circumstances where the mammalian gut is starting out with a low microbial diversity, such as in weaning infants, or individuals who are post-antibiotic treatment and/or post-chemotherapeutic treatment and transitioning to a higher diversity adapted/stable microbiome.

A composition comprising combination of salt, sugar and lactic acid bacteria as an active ingredient to treat vaginosis. The composition showed potent antibacterial activity through various experiments, for example, (1) the indirect inhibitory activity test from the growth of vaginosis causing bacteria by determining the change of pH and lactic acid level; (2) the direct inhibitory activity test from the growth of vaginosis causing bacteria by determining the susceptibility of test sample; (3) brief clinical tests, and finally confirmed that the combination showed potent antibacterial activity in the test. Accordingly, the combination may be useful to alleviate and treat vaginosis in the form of a pharmaceutical composition, health functional food, food additive, topical composition, and detergent composition.

An object is to provide a method for producing dried microbial cells with a high viable cell survival rate after long-term storage at a high temperature. A method for producing dried microbial cells that achieves the above-mentioned object is characterized in that microbial cells are suspended in a dispersion medium containing a protective agent, an antioxidant, and a chelating agent, followed by drying.