Disease: wound healing

Antimicrobial and prebiotic properties of Weissella confusa B4-2 exopolysaccharide and its effects on matrix metalloproteinase genes expression

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Researchers discovered that a bacterium called Weissella confusa produces a sticky substance (exopolysaccharide) that has multiple health benefits. This substance fights harmful bacteria, acts as an antioxidant, helps heal wounds, and may slow down skin aging by reducing proteins that break down collagen. Because this bacterium produces much more of this substance than other commonly studied bacteria, it could be used in food preservation, health supplements, and anti-aging skincare products.

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Sodium Alginate Modifications: A Critical Review of Current Strategies and Emerging Applications

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Sodium alginate is a natural substance from seaweed that is safe to eat and widely used in foods, medicines, and environmental cleanup. Scientists have developed various ways to modify sodium alginate to make it stronger, more stable, and better at specific jobs like delivering medicines or creating edible packaging. This review explains both the gentle, food-safe ways to modify alginate for food products and stronger chemical methods used for medical and environmental applications. The modifications allow alginate to work better in areas like wound healing, removing pollutants from water, and protecting food freshness.

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Functionalized Micellar Membranes from Medicinal Mushrooms as Promising Self-Growing Bioscaffolds

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Researchers created special membranes from medicinal mushrooms that could be used for wound healing and skin repairs. These membranes were grown in laboratory conditions and then treated with mango peel extract, which gave them antimicrobial properties to fight bacteria. The membranes are biodegradable, environmentally friendly, and work similar to the structure of skin tissue, making them promising for medical applications.

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Functionalized Micellar Membranes from Medicinal Mushrooms as Promising Self-Growing Bioscaffolds

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Scientists created special membranes from medicinal mushrooms that can help heal wounds and regenerate damaged skin. These membranes are grown naturally in liquid culture and enriched with extract from mango peels to fight bacteria and promote healing. The material is completely natural, biodegradable, and performs better than many conventional wound healing materials, making it an eco-friendly option for medical applications.

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Isolation, Characterization, and Wound-Healing Potential of β-D-Glucan from Lycoperdon pyriforme Schaeff

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Researchers isolated and studied a compound called β-D-glucan from puffball mushrooms (Lycoperdon pyriforme) that have been traditionally used to heal wounds and stop bleeding. Laboratory tests showed this compound safely promotes the movement and growth of skin cells that help wounds close without harming red blood cells, and it actually helps blood clot faster. These findings support the traditional use of this mushroom and suggest it could be developed into a new natural wound-healing treatment.

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Fungal and Microalgal Chitin: Structural Differences, Functional Properties, and Biomedical Applications

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Chitin is a natural fiber found in mushrooms, algae, and shellfish that has many medical and industrial uses. Traditional chitin from shellfish shells has environmental and contamination problems, so scientists are studying chitin from mushrooms and algae as cleaner alternatives. These sources produce chitin with different structures that can be better for certain medical applications, and can be extracted using environmentally friendly methods.

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