Research Topic: cardiovascular disease

Lysergic Acid Diethylamide (LSD) and the Heart: Exploring the Potential Impacts of LSD on Cardiovascular Function

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This review examines how LSD affects the heart and blood vessels. While some evidence suggests LSD might protect against heart disease by reducing inflammation and blood clots, acute use can dangerously raise heart rate and blood pressure, and cause blood vessel constriction. Regular low-dose use raises concerns about potential valve damage. More research is needed to understand the full cardiovascular safety of LSD before it can be considered for medical use.

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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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Environmental pollution and its impact on hypertension: a review

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This review explains how environmental pollution from cars, factories, and industrial processes contributes to high blood pressure. Various pollutants like fine dust particles, heavy metals, and chemical vapors damage blood vessels and trigger inflammation in the body, leading to hypertension. Women after menopause and older adults are particularly vulnerable to these effects. The review emphasizes the importance of government policies, public education, and personal awareness in reducing pollution exposure and protecting heart health.

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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.

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Gut fungi are associated with human genetic variation and disease risk

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Researchers discovered for the first time how human genes influence the fungi living in our gut and how this connection affects heart disease risk. They found that a yeast called Kazachstania is regulated by a gene called CDH13, and people with certain genetic variants have less of this beneficial yeast and higher risk of heart disease. This groundbreaking study shows that our genetics don’t just affect bacteria in our gut—they also shape our fungal community, which has real implications for heart health.

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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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