Research Keyword: candidiasis

Superficial Fungal Infections in the Pediatric Dermatological Population of Northern Poland

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This study examined fungal skin infections in children and teenagers in northern Poland from 2019 to 2024. Researchers tested over 1,200 young patients and found that about 1 in 5 had a fungal infection. The most common culprits were specific fungi that cause scalp infections in young children and foot/nail infections in teenagers. Interestingly, children living in rural areas were more likely to have these infections, even though more urban children were tested.

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Incidence And Risk Factors for Invasive Fungal Infections in Pre-Transplant and Transplant-Ineligible Multiple Myeloma in the U.S.: A Claims Analysis (2017-2021)

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This study examined fungal infections in patients with multiple myeloma who were not eligible for or preparing for stem cell transplants. Researchers found that 6% of these patients developed invasive fungal infections, with yeast infections being the most common type. The risk of these infections was significantly higher in patients taking dexamethasone (a steroid) or those with low white blood cell counts and those receiving multiple cancer therapies.

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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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Insights into the structure, function, and impact of Candida albicans UPC2 gene on azole resistance; a mini-review

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Candida albicans is a common fungal infection that doctors treat with azole medications, but the fungus is increasingly developing resistance to these drugs. Scientists have discovered that a gene called UPC2 plays a key role in this resistance by controlling the production of enzymes that help the fungus survive azole treatment. Understanding how UPC2 works could help develop new strategies to overcome drug-resistant fungal infections.

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