gut microbiota – Page 5

Attributes of Culture Bacteria as Influenced by Ingredients That Help Treat Leaky Gut

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Researchers tested whether eight natural ingredients commonly used to treat leaky gut would affect the beneficial bacteria used to make yogurt. They found that ingredients like marshmallow root, licorice root, and slippery elm bark not only didn’t harm the yogurt bacteria but actually made them more resistant to stomach acid and bile. This means these ingredients could be safely added to yogurt to boost both the probiotic bacteria and the gut-healing properties of the product.

Sustainable Innovations in Food Microbiology: Fermentation, Biocontrol, and Functional Foods

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This review explores how microorganisms can make food production more sustainable and healthier. It discusses traditional fermented foods like yogurt and sauerkraut, modern biotechnology techniques to reduce food waste and create natural preservatives, and special food ingredients with beneficial bacteria that support digestive and mental health. The paper shows how applying microbial science could help address global food challenges while meeting consumer demands for natural, safe, and healthy products.

Prebiotic property of tamarind seed kernel on Bifidobacterium animalis growth and biofilm formation

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This study shows that tamarind seed kernel powder acts as a prebiotic, which are foods that feed beneficial bacteria in your gut. The research found that this powder promotes the growth of Bifidobacterium animalis, a helpful probiotic bacteria, and helps it form protective biofilms that adhere to intestinal walls. The tamarind seed powder actually worked better than inulin, a commonly used prebiotic, particularly at higher concentrations.

From Microbes to Myocardium: A Comprehensive Review of the Impact of the Gut-Brain Axis on Cardiovascular Disease

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Your gut bacteria play a surprising role in heart health through a communication network called the gut-brain axis. When the balance of gut bacteria is disrupted (dysbiosis), it can lead to heart disease, high blood pressure, and clogged arteries. Beneficial bacteria produce helpful compounds like short-chain fatty acids that reduce inflammation and protect blood vessels, while harmful bacteria produce compounds that increase heart disease risk. Simple interventions like eating more fiber, taking probiotics, managing stress, and exercising can help maintain a healthy gut microbiome and improve heart health.

Glycosylation and sugar variations in tyrosol yield promising prebiotic-like effects

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This study tested whether chemically modified versions of tyrosol, a natural compound found in olives and red wine, could boost beneficial gut bacteria better than the original form. Researchers gave mice three different versions: plain tyrosol, natural salidroside (tyrosol with glucose attached), and a lab-created version with galactose attached instead. The galactose version worked best, promoting the most beneficial bacteria like Bifidobacteria and reducing harmful bacteria, potentially offering health benefits similar to prebiotic supplements.

Seagrass Enhalus acoroides extract mitigates obesity and diabetes via GLP-1, PPARγ, SREBP-1c modulation and gut microbiome restoration in diabetic zebrafish

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Researchers tested a seagrass extract called Enhalus acoroides on diabetic zebrafish and found it effectively reduced body weight and blood sugar levels, performing as well or better than metformin, a common diabetes medication. The extract worked by activating genes that promote glucose metabolism and reducing genes that promote fat storage. Importantly, the extract also restored healthy gut bacteria balance, which appears to play a key role in its therapeutic effects. These findings suggest that seagrass could be developed into a natural supplement or functional food to help treat obesity and diabetes.

Dietary Intake of Phytochemicals, Gut Microbiota, and Appetite Control

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This research editorial highlights how plant-based foods rich in phytochemicals can improve gut health by promoting beneficial bacteria growth and supporting communication between the gut and brain. These dietary interventions show promise in helping control appetite, improve metabolism, and reduce the risk of diseases like obesity and type 2 diabetes. The studies suggest that personalized nutrition approaches based on individual microbiome profiles could offer more effective disease prevention and health maintenance strategies.

In Vitro Prebiotic Potential of Opuntia humifusa Leaf Extract and Its Active Constituent

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Researchers studied a traditional Korean plant called Opuntia humifusa to determine if it could act as a prebiotic—a food component that promotes the growth of beneficial gut bacteria. They found that leaf extracts, particularly when prepared with 60% ethanol, effectively stimulated the growth of Lactobacillus bacteria. The active ingredient was identified as a compound called isorhamnetin glycoside, which could make this plant a natural ingredient for functional foods designed to support digestive and overall health.

Short-term effects of a synbiotic diet on thyroid and sex hormones in Sarabi Dogs

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Researchers tested whether a special dog food containing beneficial bacteria (L. acidophilus) and a type of fiber (inulin) would affect hormone levels in male Sarabi dogs. Over 24 days, dogs eating this special food showed no harmful changes in thyroid or sex hormones, and all hormone levels stayed normal. This suggests the synbiotic food could potentially be used long-term in dogs without worrying about negative hormonal effects.

Inonotus hispidus Protects against Hyperlipidemia by Inhibiting Oxidative Stress and Inflammation through Nrf2/NF-κB Signaling in High Fat Diet Fed Mice

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Inonotus hispidus is an edible mushroom that may help treat obesity and high cholesterol by reducing fat levels and inflammation in the body. In mice fed a high-fat diet, the mushroom improved cholesterol profiles, reduced liver damage, and promoted beneficial gut bacteria. The beneficial effects appear to work through activating the body’s natural antioxidant defenses and reducing inflammation-causing proteins.

Research Keyword: gut microbiota