Research Keyword: multidrug-resistant fungi

Past, present and future of antifungals: Advancements in mechanisms of action and resistance

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Fungal infections are a growing global health threat, especially for people with weakened immune systems, causing millions of deaths annually. Currently available antifungal drugs are limited and increasingly face resistance, making them less effective over time. This special collection of research papers explores new approaches to treating fungal infections, including novel drugs, combination therapies, and alternative treatments to overcome resistance. Scientists and doctors hope these advances will help save more lives by providing better options for treating serious fungal diseases.

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A zinc-chelating cyclic alkyl polyamine compound is efficient and safe in a murine model of multidrug-resistant Candida auris infection

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Researchers tested a new drug called APC6 that works by trapping zinc, which fungi need to survive. In mouse studies of a dangerous resistant fungus called Candida auris, APC6 saved all treated mice while most untreated mice died. The drug also reduced fungal infections in organs without causing serious side effects, suggesting it could become a new treatment option for serious fungal infections resistant to current medicines.

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Successful management of Lomentospora prolificans septic arthritis and osteomyelitis in an immunocompetent child: A case report

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A 3-year-old healthy child developed a serious fungal bone and joint infection in the elbow after surgery to repair a broken arm bone. The fungus, called Lomentospora prolificans, is extremely resistant to most medications and can lead to limb amputation. Doctors saved the child’s arm by combining multiple approaches: repeated surgeries to clean out infected tissue, three different antifungal medications taken together, special antibiotic-loaded bone cement placed in the elbow, and antiseptic wound washing. After six months of treatment, the infection was cured and the child could use their arm again.

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