nephrotoxicity from amphotericin B

Musculoskeletal Manifestations of Disseminated Fungal Infections

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Fungal infections can spread to bones and joints, causing serious complications especially in people with weakened immune systems. These infections are tricky to diagnose because their symptoms are similar to bacterial infections or other diseases. Treatment typically involves antifungal medications and sometimes surgery to remove infected tissue. Early detection and aggressive treatment are crucial for better patient outcomes.

Epidemiology of mucormycosis in COVID-19 patients in northwest Iran: Rhizopus arrhizus as the predominant species

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During the COVID-19 pandemic, a dangerous fungal infection called mucormycosis was found in 63 patients in northwestern Iran. The infection was caused mainly by a fungus called Rhizopus arrhizus and most commonly affected the sinuses and brain. Most patients had been given high-dose steroids to treat their COVID-19, which weakened their immune systems and increased their risk of this serious fungal infection, especially those with diabetes.

Breaking down biofilms across critical priority fungal pathogens: proteomics and computational innovation for mechanistic insights and new target discovery

mycolabadmin

This comprehensive review examines how scientists are fighting dangerous fungal infections that form protective biofilms resistant to current antifungal drugs. Researchers are using advanced protein analysis techniques (proteomics) and artificial intelligence-based computational tools to identify new targets for drug development against four critical fungal pathogens that cause life-threatening infections like meningitis and lung infections. By combining these technologies, scientists can better understand how these fungal biofilms form and develop more effective treatments.

Breaking down biofilms across critical priority fungal pathogens: proteomics and computational innovation for mechanistic insights and new target discovery

mycolabadmin

Fungal infections like cryptococcal meningitis and invasive aspergillosis are becoming increasingly difficult to treat because fungi form protective structures called biofilms that resist our current medications. Researchers are using advanced techniques like mass spectrometry to identify the proteins that help fungi build these biofilms, combined with artificial intelligence tools to design new drugs that could break down these protective shields. This combined approach offers hope for developing better antifungal treatments that could save millions of lives.

Anti-Therapeutic Action: nephrotoxicity from amphotericin B

Musculoskeletal Manifestations of Disseminated Fungal Infections

Epidemiology of mucormycosis in COVID-19 patients in northwest Iran: Rhizopus arrhizus as the predominant species

Breaking down biofilms across critical priority fungal pathogens: proteomics and computational innovation for mechanistic insights and new target discovery

Breaking down biofilms across critical priority fungal pathogens: proteomics and computational innovation for mechanistic insights and new target discovery