The present disclosure relates to a method of altering intestinal microbiome in a patient having cystic fibrosis comprising administering at least one of Bifidobacterium and/or Bacteroides to a patient and allowing the Bifidobacterium and/or Bacteroides to alter the intestinal microbiome.

A concentrated fruit juice powder obtained by a convection current vacuum freeze drying process that includes: selecting and preparing fruits by predetermined quality guideline; extracting fruit juice by inserting the fruits into a screw press juicing apparatus having a precutter and a screw press whose body surface varies non-linearly, which is configured to achieve a maximum extraction efficiency; adding probiotics into the extracted fruit juice; freezing the fruit juice mixed with the probiotics in molds using an individual quick freezer (IQF) to obtain frozen fruit juice blocks; and vacuum freezing the frozen fruit juice blocks using a convection current vacuum freeze drying apparatus.

The invention provides an improved method for lyophilising lactic bacteria of the coccus type, and freeze-dried bacterial compositions resulting from the method.

The invention provides an improved method for lyophilising lactic bacteria of the coccus type, and freeze-dried bacterial compositions resulting from the method.

The invention relates to a method for producing a solid transformation product of a substrate comprising the following steps: preparing a substrate of biomass comprising carbohydrates and proteinaceous matter that originates from soya bean, rape seed, or mixtures thereof, optionally in further mixture with carbohydrates and proteinaceous matter originating from fava beans, peas, sunflower seeds, lupine, cereals, and/or grasses, mixing said substrate with a live microorganism or a combination of live microorganisms, which live microorganism or mixture of live microorganisms is not live yeast, and adding water in an amount which provides an initial incubation mixture having a water content from 30 to 70% by weight, and a ratio of wet bulk density to dry bulk density from 0.60 to 1.45 in the resulting mixture; incubating said initial incubation mixture for 1-240 hours at a temperature of 15-70 C.; and thereafter recovering wet solid transformation product from the incubation mixture; further comprising that the incubating step is performed as a continuous plug-flow process in a vertical, non-agitated incubation tank with inlet means for said mixture and additives and outlet means for said solid transformation product.

A concentrated fruit juice powder obtained by a convection current vacuum freeze drying process that includes: selecting and preparing fruits by predetermined quality guideline; extracting fruit juice by inserting the fruits into a screw press juicing apparatus having a precutter and a screw press whose body surface varies non-linearly, which is configured to achieve a maximum extraction efficiency; adding probiotics into the extracted fruit juice; freezing the fruit juice mixed with the probiotics in molds using an individual quick freezer (IQF) to obtain frozen fruit juice blocks; and vacuum freezing the frozen fruit juice blocks using a convection current vacuum freeze drying apparatus.

The invention relates to a process for formulating an ice cream wherein a high percentage of the added sugars (from 0% to 20%) is substituted for complex sugar substances known as prebiotics which, after pasteurization, can be partly or totally fermented by probiotic bacteria of the genera Bifidobacterium, Lactobacillus and Streptococcus, or hydrolyzed by enzymes to obtain a partly fermented ice cream with a low sugar content and containing a high number (>10.sup.6/ml) of live probiotic bacteria. The different prebiotics are used as individual ingredients or in mixtures and in diverse concentrations. The invention also relates to an ice cream comprising a reduced content of added sugars such as sucrose, dextrose, glucose syrup, partly or totally substituted for prebiotics, optionally fermented by probiotics and/or hydrolyzed by enzymes.

A weight loss system is presented herein. In one embodiment, the weight loss system that accelerates weight loss in a subject eating a caloric restricted diet with a minimum daily protein intake of about 3 oz. and engaging in daily physical activity equivalent to about 5,000 steps per day is presented. The weight loss system can comprise an effective amount of: an antimicrobial component that includes berberine, cinnamon and curcumin; fish oil; a probiotic component that includes Lactobacillus spp., Bifidobacterium spp., and Streptococcus spp.; an antioxidant, phytochemical component that includes apple extract, grape extract, green tea extract, and olive extract; and a vitamin component that includes vitamins A, B, C, D, and E. The weight loss system can stimulate a weight loss of at least 3% more than if not administered to the subject. Further presented herein is a method of facilitating weight loss in a subject and a method of improving the health of a subject participating in a weight loss program.

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.

A method for producing a fermented food composition by fermenting a food having a class-2 food allergen, includes: adding lactic acid bacteria having leucine aminopeptidase activity of 75 or more and 720 or less units, to a food having a class-2 food allergen, and fermenting the food while adjusting a pH of a mixture including the food to 4.0 or more and less than 8.5; and enzymatically treating the resulting mixture with a metalloprotease.