immunomodulatory effects

Antioxidant and Anti-Inflammatory Properties of Mushroom-Based Food Additives and Food Fortified with Them—Current Status and Future Perspectives

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Mushrooms are nutrient-rich foods containing compounds that protect our bodies from damage and reduce inflammation. When mushrooms are processed into powders, extracts, or specially designed capsules, they can be added to ordinary foods like bread, pasta, and yogurt to make them healthier. This review shows that these mushroom-enriched foods successfully boost the antioxidant power of products, though the best results depend on how the mushrooms are prepared and which type of food they’re added to.

Ganoderma lingzhi (Reishi Mushroom)-Induced Acute Liver Injury in the Setting of Alcohol Use: A Case Report and Review of the Literature

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A 47-year-old man developed severe liver inflammation after consuming Reishi mushroom powder while drinking large amounts of vodka over three days. Although Reishi mushrooms are commonly promoted as healthy supplements, in this case the combination with alcohol caused his liver enzymes to spike dangerously high. The patient recovered after hospital treatment, but the case highlights that even natural supplements can be harmful, especially when combined with alcohol. This raises concerns that more research is needed on how mushroom supplements interact with other substances people consume.

Effect of fiber-modified kombucha tea on gut microbiota in healthy population: A randomized controlled trial (RCT)

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Researchers studied a kombucha tea drink enriched with fiber from chicory root in healthy adults over six weeks. The study found that people who consumed the fiber-enriched kombucha had lower triglyceride levels (blood fats) and beneficial changes in their gut bacteria, particularly an increase in Bifidobacterium, a bacteria known to support digestive health. These results suggest that this type of kombucha could be beneficial for metabolic and gut health, though more research is needed to confirm these benefits.

Domestication Cultivation and Nutritional Analysis of Hericium coralloides

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Researchers successfully grew a rare medicinal mushroom called Hericium coralloides from a wild sample found on the Tibetan Plateau. The mushroom is nutrient-rich, containing good amounts of protein and fiber while being low in fat, making it a healthy food choice. The mushroom’s compounds showed strong antioxidant properties and the ability to slow the growth of certain cancer cells, particularly breast cancer cells, suggesting potential health benefits.

Whey—A Valuable Technological Resource for the Production of New Functional Products with Added Health-Promoting Properties

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Whey, the liquid left over from cheese-making, has been transformed from unwanted waste into a valuable ingredient for healthy foods and beverages. Instead of polluting the environment, modern technologies extract useful proteins, lactose, and other beneficial compounds from whey that can be used in sports drinks, infant formulas, and other nutritious products. By using whey effectively, dairy companies can reduce environmental pollution significantly while creating profitable, health-promoting products that benefit consumers.

Chaga mushroom triterpenoids as adjuncts to minimally invasive cancer therapies: A review

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Chaga mushroom, a fungus that grows on birch trees, contains special compounds called triterpenoids that can kill cancer cells in laboratory tests. Some of these compounds, particularly inotodiol and betulinic acid, show anti-cancer activity similar to or better than conventional chemotherapy drugs. While promising, researchers need to improve how these compounds are absorbed in the body and test them more thoroughly in animals and humans before they can be used clinically.

Valorization of Mushroom Residues for Functional Food Packaging

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Mushrooms produce large amounts of waste during growth and processing, but these leftovers contain valuable compounds that can protect food and extend shelf life. Scientists are developing ways to extract these beneficial compounds and add them to eco-friendly packaging films, creating materials that fight bacteria and oxidation naturally. This approach transforms mushroom waste into useful products while reducing environmental pollution, making food packaging safer and more sustainable for consumers.

In vitro fermentation characteristics and prebiotic activity of herbal polysaccharides: a review

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This review explores how plant-based polysaccharides from traditional herbs can benefit our health by feeding good bacteria in our gut. When these polysaccharides are fermented by our gut microbiota, they break down into smaller compounds that produce short-chain fatty acids, which have anti-inflammatory and immune-boosting effects. The research shows that different herbs have different structures that are recognized by specific beneficial bacteria, which suggests we can develop personalized functional foods tailored to promote specific health benefits.

Comparative Transcriptome Profiles of the Response of Mycelia of the Genus Morchella to Temperature Stress: An Examination of Potential Resistance Mechanisms

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Scientists studied how morel mushrooms respond to different temperatures to understand why cultivation can be unpredictable. By analyzing gene activity in mushroom mycelia (the underground filaments) at temperatures from 5°C to 30°C, they found that 15-20°C was ideal for growth. At higher temperatures, the mushrooms showed signs of stress similar to heat damage in other organisms, turning brownish and activating protective genes. This research helps mushroom farmers optimize growing conditions for better yields.

Feasibility of the use of Lentinula edodes mycelium in terbinafine remediation

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Scientists tested whether shiitake mushrooms (Lentinula edodes) could remove terbinafine, a common antifungal medication, from contaminated environments. The mushroom mycelium successfully accumulated and broke down the drug into harmless byproducts, with no trace remaining in the surrounding medium. This eco-friendly approach offers a promising alternative to expensive chemical cleanup methods for pharmaceutical pollution.

therapeutic action: immunomodulatory effects