environmental toxins

Silk-based microparticles for the adsorption of methylene blue: formulations, characterization, adsorption study, in silico molecular docking, and molecular dynamics simulation

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This research demonstrates that microparticles made from silk fibroin, a protein derived from silkworm cocoons, are exceptionally effective at removing methylene blue dye from water. The silk-based particles work about 32 times better than other forms of silk and can absorb large amounts of the toxic dye. Scientists used computer simulations to understand exactly how the silk protein attracts and binds the dye molecules, providing insights for creating even better eco-friendly water treatment materials.

Enhancing Environmental and Human Health Management Through the Integration of Advanced Revitalization Technologies Utilizing Artificial Intelligence

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This paper describes how combining artificial intelligence with environmental monitoring can help us better understand how pollution harms our health. The authors propose a seven-step system that collects data on pollution levels in air, water, and soil alongside health information from communities. By using AI to analyze these massive datasets together, scientists and doctors can more quickly identify which pollutants are causing specific health problems and design better treatments for affected people and environments.

Inonotus obliquus aqueous extract prevents histopathological alterations in liver induced by environmental toxicant Microcystin

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This research shows that Chaga mushroom extract can protect the liver from damage caused by microcystin, a toxic chemical produced by cyanobacteria in water. When mice were exposed to microcystin, their livers became damaged, but treating them with Chaga mushroom extract restored normal liver function and prevented cell death. The study suggests Chaga mushroom could be used as a natural supplement to prevent liver toxicity from environmental pollutants.

Research Keyword: environmental toxins

Silk-based microparticles for the adsorption of methylene blue: formulations, characterization, adsorption study, in silico molecular docking, and molecular dynamics simulation

Enhancing Environmental and Human Health Management Through the Integration of Advanced Revitalization Technologies Utilizing Artificial Intelligence

Inonotus obliquus aqueous extract prevents histopathological alterations in liver induced by environmental toxicant Microcystin