cardiovascular disease – Page 8

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.

Non-Targeted Metabolomics Analysis Reveals Metabolite Profiles Change During Whey Fermentation with Kluyveromyces marxianus

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Scientists fermented whey (a dairy byproduct) using a special yeast called Kluyveromyces marxianus to create a nutrient-rich food. Using advanced analysis, they found that fermentation breaks down large proteins and fats into smaller, more beneficial compounds including amino acids and omega-3 fatty acids. The fermented whey showed significant increases in health-promoting substances that could help reduce inflammation, prevent disease, and improve overall nutrition.

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.

Therapeutic and Preventive Potential of Plant-Derived Antioxidant Nutraceuticals

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This comprehensive review explores how compounds found in plants can protect our bodies from harmful damage caused by oxidative stress, which is linked to aging and various diseases. Plant-based foods rich in antioxidants like berries, leafy greens, and olive oil contain special molecules that can help prevent cancer, heart disease, diabetes, and other chronic conditions. The review highlights that these natural compounds work through multiple beneficial mechanisms beyond just antioxidant activity, making plant-based diets an effective strategy for maintaining health and preventing disease.

Olive mill solid waste induces beneficial mushroom-specialized metabolite diversity revealed by computational metabolomics strategies

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Researchers studied how adding olive mill waste to mushroom growing substrate affects the beneficial compounds in two edible mushrooms. They used advanced computer analysis of chemical data to find that this waste product increases healthy compounds like hericenones while reducing potentially harmful mycotoxins. This discovery could help make mushroom farming more sustainable and produce safer, healthier mushrooms for consumers.

Arsenic Stress Resistance in the Endophytic Fungus Cladosporium cladosporioides: Physiological and Transcriptomic Insights into Heavy Metal Detoxification

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A special fungus called Cladosporium cladosporioides, found living inside the roots of Gentiana yunnanensis (a traditional Chinese medicine herb), can tolerate extremely high levels of arsenic. Researchers discovered that this fungus protects itself from arsenic poisoning by storing arsenic mostly in its cell walls, converting toxic arsenic into less harmful forms, and activating its antioxidant defense systems. This discovery could help reduce arsenic contamination in medicinal herbs and lead to new methods for cleaning arsenic-polluted soil.

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.

Fungal β-Glucans: Biological Properties, Immunomodulatory Effects, Diagnostic and Therapeutic Applications

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β-glucans are beneficial compounds found in fungi and some plants that help your body in multiple ways. They boost your immune system, lower cholesterol and blood sugar, protect against oxidative stress, and may help fight cancer and infections. Recent research shows they could be useful as diagnostic markers for fungal infections and as vaccine boosters, especially for diseases like COVID-19.

Proteases from Pleurotus spp.: Properties, Production and Biotechnological Applications

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Oyster and king oyster mushrooms produce powerful enzymes called proteases that can break down proteins. These enzymes have multiple uses including fighting parasitic infections in animals and plants, making cheese, dissolving blood clots, and being used in detergents and cosmetics. The mushrooms can be grown on agricultural waste, making this a sustainable and cost-effective way to produce these valuable enzymes.

Harnessing the Nutritional Value, Therapeutic Applications, and Environmental Impact of Mushrooms

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Mushrooms are nutritious superfoods packed with protein, fiber, vitamins, and minerals that support overall health. They contain special compounds that can fight inflammation, boost immunity, and help prevent serious diseases like cancer and diabetes. Beyond eating them, mushrooms are being used to make medicines, cosmetics, and animal feed, while also helping clean up polluted environments. Regular consumption of mushrooms offers significant health benefits and can be a valuable addition to any healthy diet.

Disease: cardiovascular disease