No adverse effects reported

Sex-Specific Associations Between Prebiotic Supplement Intake and Sarcopenia Risk: Evidence From NHANES

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This study examined whether taking prebiotic supplements helps prevent sarcopenia (age-related muscle loss) differently in men versus women using health data from thousands of Americans. Researchers found that women who consumed prebiotics had significantly lower rates of sarcopenia, while this benefit was not observed in men. These findings suggest that prebiotic supplements may be particularly beneficial for women’s muscle health, though more research is needed to understand why this sex difference exists.

Synbiotic yogurt with nanoparticle entrapped rice straw hemicellulose for immediate probiotic support and prebiotic delivery

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Scientists created a new type of yogurt that contains beneficial bacteria and special prebiotics from rice straw. The innovation uses tiny nanoparticles to protect some of the prebiotics so they reach your gut intact, while free prebiotics immediately feed the beneficial bacteria in the yogurt during storage. This dual-delivery approach keeps the yogurt fresher longer while ensuring you get maximum health benefits for your digestive system.

In vitro compatibility screening of Bacillus pumilus and Bacillus altitudinis strains with selected candidate prebiotics for in ovo application of synergistic synbiotics

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Researchers tested different beneficial bacteria (Bacillus strains) and food additives (prebiotics) to create improved formulations for chicken embryos. They found that certain plant-based additives, especially protein hydrolysate, worked particularly well with specific bacterial strains. When they tested the best combination in developing chicken eggs, it was completely safe and didn’t affect hatching rates, suggesting this approach could be used to give chicks a healthier start in life.

Antifungal Volatile Organic Compounds from Talaromyces purpureogenus CEF642N: Insights from One Strain Many Compounds (OSMAC) Strategy for Controlling Verticillium dahliae in Cotton

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Scientists discovered that a beneficial fungus called Talaromyces purpureogenus produces natural antifungal compounds that effectively control cotton wilt disease caused by the harmful fungus Verticillium dahliae. The study identified two main compounds, 3-octanol and 2-octenal, that showed strong antifungal activity without synthetic chemicals. This research offers a promising green alternative for protecting cotton crops from one of agriculture’s major diseases while being environmentally friendly.

Anti-Therapeutic Action: No adverse effects reported

Sex-Specific Associations Between Prebiotic Supplement Intake and Sarcopenia Risk: Evidence From NHANES

Synbiotic yogurt with nanoparticle entrapped rice straw hemicellulose for immediate probiotic support and prebiotic delivery

In vitro compatibility screening of Bacillus pumilus and Bacillus altitudinis strains with selected candidate prebiotics for in ovo application of synergistic synbiotics

Antifungal Volatile Organic Compounds from Talaromyces purpureogenus CEF642N: Insights from One Strain Many Compounds (OSMAC) Strategy for Controlling Verticillium dahliae in Cotton