Research Keyword: precision medicine

Nutritional strategies in supporting immune checkpoint inhibitor, PI3K inhibitor, and tyrosine kinase inhibitor cancer therapies

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This review examines how nutrition and food-based interventions can improve cancer treatment outcomes for patients receiving targeted cancer therapies. A Mediterranean-style diet with plenty of fiber (30-50g daily) appears beneficial for patients on immune checkpoint inhibitor therapies by promoting healthy gut bacteria that support immune function. The review also discusses promising research on fermented foods, specific bacterial supplements, mushroom extracts, and fasting approaches as complementary strategies to enhance cancer treatment effectiveness while reducing side effects.

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Therapeutic Effects of Natural Products on Liver Cancer and Their Potential Mechanisms

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This review examines how natural products from plants, fungi, and marine organisms can help treat liver cancer more safely and effectively than current drugs. These natural compounds work through multiple pathways such as triggering cancer cell death, stopping cell growth, and boosting the immune system. The research found that seven categories of natural products show promise, with sources ranging from ginseng and turmeric to mushrooms and seaweed, offering potential new treatment options that could reduce side effects and drug resistance.

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Novel psychedelic interventions for post-traumatic stress disorder and their promise for precision medicine

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This review examines how psychedelic drugs like ketamine, MDMA, and psilocybin could offer new hope for people with PTSD by working on the brain differently than current medications. These compounds work quickly and help the brain form new neural connections that can help people process traumatic memories more effectively. When combined with therapy, these drugs show promise in reducing PTSD symptoms faster and more effectively than traditional antidepressants. The review also explains how doctors could use personalized medicine approaches using brain scans and genetic testing to determine which treatment would work best for each individual patient.

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The Gut Mycobiome for Precision Medicine

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This comprehensive review explores how fungi in our gut play important roles in our health and disease. While fungi make up only a tiny fraction of our gut microbiota, they have outsized effects on conditions like diabetes, inflammatory bowel disease, and even certain cancers. The review discusses how scientists study these fungi and how understanding individual fungal profiles could lead to personalized medical treatments tailored to each person’s unique microbial makeup.

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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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Methods for Overcoming Chemoresistance in Head and Neck Squamous Cell Carcinoma: Keeping the Focus on Cancer Stem Cells, a Systematic Review

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Head and neck cancer is often resistant to chemotherapy because of cancer stem cells that survive treatment and cause recurrence. This review examined 31 studies on methods to overcome this resistance, finding that natural products like mushrooms (Ganoderma lucidum), plants (sulforaphane from broccoli, curcumin from turmeric), and synthetic compounds can enhance chemotherapy effectiveness when combined with traditional drugs. These approaches work by targeting the specific pathways that allow cancer stem cells to survive, potentially improving treatment outcomes while reducing required drug doses and side effects.

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