Research Keyword: probiotic fermentation

Fermented Rice Bran: A Promising Therapeutic Agent Against High-Fat Diet-Induced Metabolic Disorders

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Fermented rice bran, created by fermenting rice byproduct with beneficial bacteria, shows promise in helping manage weight and blood sugar levels in studies using rats on high-fat diets. The fermentation process increases the nutritional value of rice bran by boosting protein, fiber, and antioxidant content. Animals supplemented with fermented rice bran for 8 weeks showed improved cognitive function, better liver health, and improved lipid profiles compared to those on high-fat diets alone.

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Amelioration of Ulcerative Colitis in BALB/c Mice by Probiotic-Fermented Aegle marmelos Juice

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Researchers tested a fermented bael fruit juice with probiotics as a treatment for ulcerative colitis in mice. The mice treated with this juice showed significant improvement in weight recovery, reduced inflammation markers, and increased antioxidant protection compared to untreated diseased mice. The fermentation process increased the beneficial compounds in the juice. These results suggest that probiotic-fermented bael fruit juice could be a natural and effective treatment option for people with ulcerative colitis.

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Effects of fermented rice husk powder on growth performance, rumen fermentation, and rumen microbial communities in fattening Hu sheep

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Researchers tested whether fermented rice husk powder could improve the health and growth of sheep when used as feed. They found that sheep fed fermented rice husk grew faster and gained more weight than sheep fed unfermented rice husk. The fermented version also improved digestion and changed the beneficial bacteria in the sheep’s stomach in positive ways. This discovery could help farmers use agricultural waste more effectively as animal feed.

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Reduction of Beany Flavor and Improvement of Nutritional Quality in Fermented Pea Milk: Based on Novel Bifidobacterium animalis subsp. lactis 80

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Researchers used a beneficial bacteria strain (Bifidobacterium animalis subsp. lactis 80) to ferment pea milk, reducing the unpleasant ‘beany’ taste that limits pea milk popularity. Fermentation broke down flavor compounds responsible for grassy and fatty odors while creating new fruity and floral aromas. The process also improved the milk’s texture and consistency while maintaining nutritional benefits, making pea-based beverages more appealing to consumers.

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