neurodegenerative diseases – Page 2

Evaluation of Lipid Changes During the Drying Process of Cordyceps sinensis by Ultra Performance Liquid Chromatography–Tandem Mass Spectrometry (UPLC-MS/MS)-Based Lipidomics Technique

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This study examines how different drying methods affect the lipid content of Cordyceps sinensis, a valuable medicinal mushroom. Researchers compared three drying techniques—freeze-drying, oven-drying, and air-drying—and found that freeze-drying best preserves the mushroom’s beneficial lipids, while oven-drying causes significant degradation. The findings provide practical guidance for mushroom producers on selecting optimal drying methods to maintain the medicinal quality and nutritional value of this prized fungus.

Prebiotic and Functional Fibers from Micro- and Macroalgae: Gut Microbiota Modulation, Health Benefits, and Food Applications

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Seaweed and other algae contain special fibers called polysaccharides that act like fertilizer for beneficial bacteria in your gut. When these good bacteria ferment these algal fibers, they produce substances called short-chain fatty acids that support digestive health, boost immunity, and help control blood sugar and weight. These algae-based fibers are sustainable alternatives to synthetic prebiotics and can be added to foods and supplements.

Impact of Hericium erinaceus and Ganoderma lucidum metabolites on AhR activation in neuronal HT-22 cells

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This study examined how two medicinal mushrooms, lion’s mane and Reishi, affect nerve cells in the brain. The researchers found that metabolites from these mushrooms don’t harm brain cells and actually boost protective proteins that support cell health and survival. The mushrooms appear to work through a cellular receptor called AhR, which helps facilitate communication between the gut and the brain. These findings suggest that these mushrooms may help support brain function and protect against neurological problems.

A comprehensive overview of the effects of probiotics, prebiotics and synbiotics on the gut-brain axis

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This comprehensive review examines how probiotics (beneficial live bacteria), prebiotics (food for beneficial bacteria), and synbiotics (combinations of both) can influence communication between the gut and brain. These interventions can produce beneficial compounds like GABA and serotonin, strengthen the gut barrier, and reduce inflammation, potentially helping with mood, anxiety, cognition, and various digestive disorders. However, effects vary greatly depending on the specific strain used, dosage, and individual differences in gut bacteria, and more large-scale studies are needed to confirm long-term clinical benefits.

Neuroprotective Effect of Mixed Mushroom Mycelia Extract on Neurotoxicity and Neuroinflammation via Regulation of ROS-Induced Oxidative Stress in PC12 and BV2 Cells

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A mixture of three medicinal mushrooms (Phellinus linteus, Ganoderma lucidum, and Inonotus obliquus) was tested for its ability to protect nerve cells from damage. The extract successfully reduced cell death in laboratory models of neurodegeneration by reducing harmful molecules called reactive oxygen species and reducing inflammation. These results suggest the mushroom extract could potentially help prevent or slow neurological diseases like Alzheimer’s.

Therapeutic Prospects of Undaria pinnatifida Polysaccharides: Extraction, Purification, and Functional Activity

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This review examines how to extract and purify beneficial compounds called polysaccharides from wakame seaweed (Undaria pinnatifida), a popular food in East Asia. These polysaccharides have multiple health benefits including fighting oxidative damage, boosting immune function, fighting cancer cells, and promoting healthy gut bacteria. The review details various extraction methods and discusses how these compounds could be developed into functional foods and medicines.

Bioactive Potential of Balkan Fomes fomentarius Strains: Novel Insights into Comparative Mycochemical Composition and Antioxidant, Anti-Acetylcholinesterase, and Antiproliferative Activities

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This study examines three strains of Fomes fomentarius mushroom from the Balkan region, revealing they are rich sources of beneficial compounds including polyamines and phenolic compounds. These extracts demonstrated strong antioxidant properties and potential neuroprotective effects, suggesting they could help prevent diseases related to oxidative stress and aging. The research supports the traditional use of this mushroom in folk medicine and highlights its potential as a natural supplement for health promotion.

Investigating the Knowledge of Prebiotics, Probiotics, and Synbiotics That May Help to Improve the Gut-Organ Axis Function in Middle-Aged and Older Adults

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This study examined what middle-aged and older adults know about probiotics, prebiotics, and synbiotics—special food components that can improve gut health. Researchers found that many people had little knowledge about these products, even though they may help with various health conditions including heart disease and mental health. After giving people an educational information sheet about gut biotics, their knowledge significantly improved, suggesting that simple education can help people make better choices about their digestive health.

The Nearly Complete Genome of Grifola frondosa and Light-Induced Genes Screened Based on Transcriptomics Promote the Production of Triterpenoid Compounds

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Researchers sequenced the complete genetic code of maitake mushroom (Grifola frondosa) and discovered how light exposure influences the production of beneficial compounds called triterpenoids. The high-quality genome assembly revealed 12,526 genes and showed that light triggers specific genes involved in making these medicinal compounds. This breakthrough provides a scientific foundation for growing maitake mushrooms with optimized levels of health-promoting substances.

In vitro fermentation characteristics and prebiotic activity of herbal polysaccharides: a review

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This review explores how plant-based polysaccharides from traditional herbs can benefit our health by feeding good bacteria in our gut. When these polysaccharides are fermented by our gut microbiota, they break down into smaller compounds that produce short-chain fatty acids, which have anti-inflammatory and immune-boosting effects. The research shows that different herbs have different structures that are recognized by specific beneficial bacteria, which suggests we can develop personalized functional foods tailored to promote specific health benefits.

Disease: neurodegenerative diseases