Research Keyword: infection prevention

Electrospinning Enables Opportunity for Green and Effective Antibacterial Coatings of Medical Devices

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Scientists have developed a greener way to coat medical devices like wound dressings and catheters with antibacterial materials using electrospun fibers. These tiny fibers are made from natural, renewable materials and release antimicrobial agents slowly and effectively to prevent infections. Unlike traditional antibiotics that can create resistance, these coatings use multiple attack methods against bacteria, making them harder for microbes to develop resistance against.

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The Effect of Supplementing Mushroom Growing Substrates on the Bioactive Compounds, Antimicrobial Activity, and Antioxidant Activity of Pleurotus ostreatus

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This study investigated how adding wheat bran to mushroom growing substrates affects oyster mushroom quality and medicinal properties. The researchers found that wheat bran supplementation increased mushroom yield but slightly decreased antioxidant power, while the mushrooms produced antimicrobial compounds effective against various bacteria and fungi. The mushrooms contained beneficial compounds like vitamin E and phenols, suggesting they could be developed as natural alternatives to synthetic antibiotics.

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Potential relationship between gut microbiota and animal diarrhea: a systematic review

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This review explains how the trillions of microorganisms living in animal intestines are crucial for health and digestion. When these microbial communities become imbalanced, animals develop diarrhea, which is a major problem in farming causing economic losses and animal suffering. The review shows that adding beneficial bacteria (probiotics) and their food sources (prebiotics) to animal diets can restore balance and prevent diarrhea, offering practical solutions to reduce the need for antibiotics.

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Prevalence of Tinea pedis in military personnel: a systematic review and meta-analysis

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Athlete’s foot is a common fungal infection affecting military personnel at rates around 17% globally. Military environments create perfect conditions for this infection through close living quarters, humidity from sweat and boots, and shared facilities. The study found that regions with hot, humid climates have higher infection rates, and proper diagnosis using both microscopy and culture tests is important for accurate detection. Improved hygiene, better-designed footwear, and access to antifungal treatments can significantly reduce infection rates in military settings.

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