cardiovascular disease – Page 7

Biological Activities of Secondary Metabolites from the Edible-Medicinal Macrofungi

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This comprehensive review examines over 270 bioactive compounds from edible and medicinal mushrooms, showing they have remarkable potential to treat various diseases. These mushroom-derived substances demonstrate effectiveness against cancer, diabetes, inflammation, and infections while having fewer side effects than conventional drugs. Families like reishi and shiitake mushrooms are particularly rich sources of these healing compounds. The research suggests mushrooms are valuable natural resources for developing new therapeutic treatments.

Ergothioneine: An Antioxidative, Neuroprotective and Anti-Inflammatory Compound from Mushroom Residuals

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Ergothioneine is a powerful antioxidant found mainly in mushrooms that protects brain health and reduces inflammation. Mushroom processing creates large amounts of waste like stems and leftover substrate that actually contain high levels of this beneficial compound. Scientists have developed sustainable methods to extract ergothioneine from this waste, creating opportunities for new health supplements and functional foods while reducing waste and supporting environmental sustainability.

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.

Dietary Phytochemicals in Cardiovascular Disease Prevention and Management: A Comprehensive Review

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This review examines how plant-based compounds called phytochemicals can help prevent and manage heart disease. These compounds, found in foods like berries, nuts, tea, garlic, and whole grains, work through multiple mechanisms including reducing inflammation, lowering cholesterol, and improving blood vessel function. The review highlights that while pharmaceutical treatments exist, dietary approaches using phytochemical-rich foods offer a cost-effective and sustainable way to support heart health.

Polysaccharides from fungi: A review on their extraction, purification, structural features, and biological activities

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Mushrooms contain special compounds called polysaccharides that have powerful health benefits. Scientists have found these polysaccharides can help fight cancer, boost immunity, reduce inflammation, and manage diabetes. This review explains different ways to extract and purify these beneficial compounds from mushrooms and describes how they work in the body to provide these health benefits.

Dynamic changes of nutrients, isoflavone composition and antioxidant activities during liquid-state fermentation of soybean embryo homogenate by Ganoderma lucidum

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Researchers fermented soybean embryo using Ganoderma lucidum mushroom to create a more nutritious and better-tasting food product. During fermentation, the mushroom’s enzymes broke down hard-to-digest compounds and converted isoflavones into more absorbable forms while dramatically increasing antioxidant activity. The fermented product showed 8-fold higher antioxidant power and reduced unpleasant flavors, making soybean embryo a viable functional food ingredient.

Anti-Hyperlipidemic and Anti-Atherogenic Effect of Citrus Peel Pectin Against Cholesterol and Cholic Acid Induced Hyperlipidemia in Sprague Dawley Rats

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Researchers tested whether pectin extracted from citrus peels could help treat high cholesterol and fat levels in the blood using rats. When rats were given different amounts of citrus peel pectin mixed into their food, their cholesterol and triglyceride levels decreased significantly while their good cholesterol (HDL) increased. The treatment also protected their heart, liver, and kidney tissues from damage. This suggests citrus peel pectin, usually thrown away by juice companies, could become a useful and natural remedy for managing high cholesterol.

Exploring the Potential of Haematococcus pluvialis as a Source of Bioactives for Food Applications: A Review

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Haematococcus pluvialis is a tiny green algae that produces astaxanthin, a powerful natural antioxidant that gives it a bright red color when stressed. Beyond astaxanthin, this microalga is rich in proteins, healthy fats, and vitamins, making it useful for creating functional foods and supplements. Researchers are developing better ways to grow this algae and extract its beneficial compounds using environmentally friendly methods, with potential applications in foods ranging from beverages to meat alternatives.

Bioactive Potential of Tocosh Supplemented with Selenium-Enriched Saccharomyces Cerevisiae Biomass

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Researchers enhanced a traditional Peruvian fermented potato food called tocosh by adding selenium-enriched yeast. This combination reduced inflammation markers in immune cells without affecting its blood sugar impact or antioxidant properties. The resulting product shows promise as a functional food that could help people manage inflammatory conditions while improving nutritional content.

Valorization and Environmental Impacts of Pecan Waste: A Critical Review

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Pecan shells, which make up about half of the pecan nut and are usually discarded, contain valuable compounds with health-promoting properties like antioxidants and anti-inflammatory agents. These shells can be transformed into useful products including ingredients for food supplements and medicines, activated carbon for cleaning water, materials for making eco-friendly plastics, and energy sources. By converting pecan waste into valuable products instead of throwing it away, communities can reduce environmental pollution, improve public health, and create economic opportunities while supporting sustainable farming practices.

Disease: cardiovascular disease