therapeutic action: antithrombotic

Special Issue: Marine-Derived Compounds Applied in Cardiovascular Disease

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This collection of studies explores how compounds from ocean sources like seaweed, fish, shrimp, and microalgae can help protect heart health and prevent cardiovascular diseases. Researchers examined various marine ingredients and found they can reduce inflammation, lower cholesterol, reduce blood pressure, and prevent blood clots. The findings suggest that marine-derived products could become safer, more affordable alternatives or complements to current heart disease medications while supporting sustainable ocean resource use.

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Whey Proteins and Bioactive Peptides: Advances in Production, Selection and Bioactivity Profiling

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Whey, a liquid byproduct from cheese-making that was once considered waste, contains valuable proteins that can be broken down into smaller bioactive peptides. These peptides have numerous health benefits including antimicrobial, anti-inflammatory, and antioxidant properties, and can be used in functional foods and medicines. Researchers are developing advanced techniques to extract and produce these peptides more efficiently, and using computer models to predict which peptides will have specific health benefits.

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Grape Pomace: A Review of Its Bioactive Phenolic Compounds, Health Benefits, and Applications

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Grape pomace is the leftover material from making wine, typically discarded as waste. This review shows that grape pomace is actually packed with beneficial plant compounds called phenolics that have powerful health effects. These compounds can fight bacteria, reduce inflammation, help control blood sugar, and protect heart health, making grape pomace waste valuable for creating new health products in food, cosmetics, and medicine.

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Comparative Metabolite Profiling Between Cordyceps sinensis and Other Cordyceps by Untargeted UHPLC-MS/MS

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This research compares the chemical compounds found in authentic Cordyceps sinensis with four similar but different Cordyceps species to identify which ones are real. Using advanced laboratory techniques, scientists detected thousands of chemical differences between the species. They found that genuine C. sinensis contains higher levels of specific beneficial compounds like nucleosides and certain fatty acids. These findings help consumers and merchants distinguish authentic Cordyceps from counterfeit products and lower-quality substitutes.

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Bioactive Steroids Bearing Oxirane Ring

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This research reviews special types of steroids that contain oxirane rings, which are highly reactive chemical structures found in marine organisms, fungi, and plants. These compounds have shown promise in treating various diseases including cancer, inflammation, and high cholesterol. Scientists used computer software to predict and analyze the biological activities of over 150 different epoxy steroids, categorizing them by the position of their oxirane ring. The findings suggest these natural compounds could be valuable for developing new medicines and understanding how chemicals interact with our bodies.

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The Genus Cordyceps Sensu Lato: Their Chemical Constituents, Biological Activities, and Therapeutic Effects on Air Pollutants Related to Lung and Vascular Diseases

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Cordyceps mushrooms have been used in traditional Chinese medicine for centuries and are now being studied scientifically for their potential health benefits. These mushrooms contain powerful compounds that may help protect our lungs from air pollution effects and support heart health. Recent clinical studies show promising results for treating conditions like COPD, asthma, and even improving athletic performance in healthy people.

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