Research Keyword: nanomedicine

Production of Myco-Nanomaterial Products from Pleurotus ostreatus (Agaricomycetes) Mushroom via Pyrolysis

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Scientists have discovered a new way to create tiny fluorescent particles called carbon nanodots from oyster mushrooms using heat treatment. These particles glow under certain light conditions and show promising ability to fight bacteria like E. coli. The process is environmentally friendly, uses waste mushroom material, and could lead to new ways to treat infections and reduce dependence on antibiotics.

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Green-Synthesized Nanomaterials from Edible and Medicinal Mushrooms: A Sustainable Strategy Against Antimicrobial Resistance

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Scientists are developing a new weapon against antibiotic-resistant bacteria using mushrooms. These special nanoparticles derived from edible and medicinal mushrooms can kill harmful bacteria in multiple ways without the toxic chemicals used in traditional manufacturing. The nanoparticles work by disrupting bacterial membranes, creating harmful molecules called free radicals, and even boosting your body’s natural immune response. This environmentally friendly approach could become an important tool in fighting dangerous infections that don’t respond to current antibiotics.

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Fungus-targeted nanomicelles enable microRNA delivery for suppression of virulence in Aspergillus fumigatus as a novel antifungal approach

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Researchers developed a new way to fight dangerous fungal infections caused by Aspergillus fumigatus by using tiny particles called nanomicelles to deliver genetic material (microRNAs) directly into fungal cells. These microRNAs target and reduce the production of melanin, a protective pigment that helps the fungus resist immune attacks. By weakening this defense, the fungal cells become more vulnerable to the body’s immune system and to stress, offering a novel approach to treat serious fungal infections that have become resistant to standard antifungal drugs.

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Fungus-targeted nanomicelles enable microRNA delivery for suppression of virulence in Aspergillus fumigatus as a novel antifungal approach

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Researchers developed a new way to fight dangerous fungal infections caused by Aspergillus fumigatus, which increasingly resists standard antifungal drugs. They used tiny molecules called microRNAs packaged in even tinier delivery vehicles to turn off genes that help the fungus survive. When these microRNAs were introduced, the fungus became much more vulnerable to the body’s immune system and to stress. This novel approach could eventually help treat infections that are otherwise difficult to cure.

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Comparative Study and Transcriptomic Analysis on the Antifungal Mechanism of Ag Nanoparticles and Nanowires Against Trichosporon asahii

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Researchers compared two types of tiny silver particles (nanoparticles and nanowires) as potential treatments for a dangerous fungal infection caused by Trichosporon asahii. Silver nanowires were found to be more effective than nanoparticles at killing the fungus by damaging its cell membranes and disrupting its energy production. The study identified 15 key genes involved in how silver nanowires attack the fungus, suggesting these nanomaterials could become useful alternatives to traditional antifungal drugs.

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Mitigation of radiation-induced esophageal fibrosis by macrophage-targeted phosphatidylserine-containing liposomes with partial PEGylation

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Radiation therapy used to treat esophageal cancer often causes scarring and tissue damage that makes swallowing difficult. Researchers developed special fatty particles called PEGylated phosphatidylserine-containing liposomes that can reduce this scarring by calming down immune cells called macrophages. In studies using animal models and laboratory tests, these particles successfully reduced fibrosis, preserved normal tissue structure, and promoted muscle healing, offering hope for better management of radiation therapy side effects.

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Graphene nanomaterials: A new frontier in preventing respiratory fungal infections

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Scientists are exploring nano-graphene oxide, a microscopic material made from graphene, as a new treatment for serious lung fungal infections. These tiny particles can kill fungal cells through multiple mechanisms and deliver antifungal drugs directly to infection sites while reducing harmful side effects. Researchers found that graphene oxide can be combined with existing antifungal medications to make them work better and even help overcome drug-resistant fungal infections.

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