anti-inflammatory effects – Page 8

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.

Marine-Derived Enterococcus faecalis HY0110 as a Next-Generation Functional Food Probiotic: Comprehensive In Vitro and In Vivo Bioactivity Evaluation and Synergistic Fermentation of Periplaneta americana Extract Powder

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Scientists discovered a beneficial bacteria called Enterococcus faecalis HY0110 from bluefin tuna that could help protect gut health and fight harmful pathogens better than current probiotics. This marine bacteria produces important compounds like acetic acid that kill disease-causing bacteria, reduce inflammation in inflammatory bowel disease, and even slows cancer cell growth. When fermented with cockroach powder, it creates powerful health-boosting compounds that could make functional foods more effective for managing digestive diseases and supporting overall wellness.

Valorisation of fish scales and bones: a sustainable source of bioactive proteins and collagen for nutraceuticals

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Fish scales and bones, usually thrown away as waste, contain valuable collagen and proteins that can improve skin, joints, and overall health. New extraction methods can recover these beneficial compounds efficiently while being environmentally friendly. Studies show that taking fish collagen supplements daily can improve skin appearance, reduce joint pain, and lower blood pressure, making them a sustainable and natural health solution.

Sporoderm-removed ganoderma lucidum spore powder (S-GLSP) alleviates neuroinflammation injury by regulating microglial polarization through inhibition of NLRP3 inflammasome activation

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Researchers found that sporoderm-removed Ganoderma lucidum spore powder (S-GLSP) protects against Alzheimer’s disease by reducing brain inflammation. The supplement works by shifting immune cells in the brain called microglia from a harmful pro-inflammatory state to a protective anti-inflammatory state. This is accomplished by blocking the NLRP3 inflammasome, a key trigger of brain inflammation. In animal and cell studies, S-GLSP improved memory, reduced neuronal damage, and decreased harmful tau protein accumulation.

The Molecular Mechanism of Polysaccharides from Polygonatum cyrtonema Hua in Improving Hyperuricemia by Regulating Key Targets of Uric Acid Metabolism in Mice

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This research demonstrates that a traditional Chinese medicinal plant called Polygonatum cyrtonema contains beneficial polysaccharides that can help lower high uric acid levels in the blood, which is a major cause of gout and kidney disease. The study found that these polysaccharides work by reducing the enzyme that produces uric acid and helping the kidneys excrete more of it, while also reducing inflammation. Importantly, this natural treatment protected kidney tissue better than the standard pharmaceutical drug allopurinol, suggesting it could be a safer long-term option for managing high uric acid levels.

Production of β-Glucans by Pleurotus ostreatus: Cultivation and Genetic Background

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Oyster mushrooms (Pleurotus ostreatus) are increasingly popular edible fungi that can grow on various waste materials like agricultural byproducts and food waste, making them both economical and environmentally friendly. These mushrooms produce valuable health-promoting compounds called β-glucans that have immune-boosting and antioxidant properties. Modern scientific techniques, including genetic analysis and artificial intelligence, are being used to optimize cultivation methods and increase production of these beneficial compounds. This sustainable approach to mushroom farming helps reduce waste while providing nutritious and medicinal food products.

Whole genome sequencing and annotations of Trametes sanguinea ZHSJ

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Scientists have completely mapped the genetic code of Trametes sanguinea, a medicinal mushroom used in traditional Chinese medicine. They identified over 10,000 genes and analyzed how this mushroom produces compounds that fight tumors, boost immunity, protect the heart, and fight viruses. This genetic map will help researchers understand how to produce these beneficial compounds and develop new medicines from this mushroom.

Soil microorganism colonization influenced the growth and secondary metabolite accumulation of Bletilla striata (Thunb.) Rchb. F.

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Chinese ground orchid (Bletilla striata) is a medicinal plant whose growth and medicinal compound production depend heavily on soil microorganisms. Researchers found that different soil types harbor different beneficial microbes: sandy loam soils boost plant growth, while sandy clay soils increase medicinal compound concentration. Specific microbes colonize different plant parts, with some promoting growth in roots and tubers, while others enhance the production of militarine, a compound with potential anti-aging and cognitive benefits.

Flammulina velutipes polysaccharides exhibit potent antioxidant and anti-pyroptotic properties in diabetes-associated periodontitis: A preliminary in vitro study

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Researchers studied a compound from the Flammulina velutipes mushroom (enoki mushroom) to see if it could help protect gum tissue in people with both diabetes and gum disease. Using human gum cell samples exposed to disease-simulating conditions, they found that the mushroom polysaccharides reduced cell damage, decreased inflammation, and prevented a harmful type of cell death called pyroptosis. The results suggest this mushroom compound could potentially be used as a supplementary treatment for people with diabetes-related gum disease.

Biopreservation of Hericium erinaceus By-Products via Lactic Acid Fermentation: Effects on Functional and Technological Properties

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This study shows how a natural fermentation process using beneficial bacteria can transform lion’s mane mushroom waste into a healthier food ingredient. The fermentation makes the mushrooms safer by eliminating spoilage organisms, increases their antioxidant power by up to 31%, and prevents the buildup of potentially harmful compounds. This approach offers a sustainable solution for mushroom producers to reduce waste while creating valuable functional food ingredients.

therapeutic action: anti-inflammatory effects