Disease: Dermatomycosis

Nannizziopsis arthrosporioides infection mimicking ophidiomycosis in ball pythons (Python regius)

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A wild-caught boa snake developed severe skin lesions caused by a fungus called Nannizziopsis arthrosporioides. Within a week, six ball pythons housed nearby developed similar skin infections. Using DNA testing and microscopy, researchers confirmed this was the first documented case of this fungus infecting snakes, demonstrating how quickly fungal infections can spread between animals in shared environments.

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Diagnostic Performance of a PCR-Based Approach for the Diagnosis of Dermatomycosis

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This study evaluated a new testing method combining DNA analysis (PCR) with traditional microscopy and culture to diagnose fungal skin, hair, and nail infections. The PCR method detects the infection quickly and accurately, identifying the specific fungus causing the problem within days rather than weeks. The study of over 4,400 samples found that Trichophyton rubrum was the most common cause of fungal infections, and the combined testing approach was 98.5% accurate while reducing unnecessary lab work.

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Superficial Fungal Infections in the Pediatric Dermatological Population of Northern Poland

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This study examined fungal skin infections in children and teens in Northern Poland over six years, finding that about 1 in 5 children tested had a fungal infection. Different types of fungal infections were more common at different ages—younger children more often had scalp infections, while teenagers more often had foot and nail infections. The study found that children living in rural areas had higher infection rates than those in cities, suggesting that environmental factors play an important role in fungal infection patterns.

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The in vitro Activity of Echinocandins Against Clinical Trichophyton rubrum Isolates and Review of the Susceptibility of T. rubrum to Echinocandins Worldwide

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Researchers tested how well three antifungal drugs (micafungin, anidulafungin, and caspofungin) work against a common fungus that causes skin infections. They found that two of these drugs were more effective than the third, suggesting they could be helpful alternatives when standard treatments fail due to drug-resistant fungal strains. The study also reviewed similar research worldwide and found consistent results across different testing methods.

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Gastrointestinal Parasites, Ectoparasites, and Fungi in Rabbits Attending Clinical Consultations and from Private Owners and Breeders in Portugal

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This study examined parasites, mites, and fungi found in Portuguese rabbits by testing samples from 72 animals at veterinary clinics and private homes. More than half of the rabbits carried intestinal parasites, most commonly coccidia and Cryptosporidium, though few showed obvious illness. Regular cleaning of rabbit housing and proper deworming with fenbendazole significantly reduced parasite infection rates, highlighting the importance of good hygiene practices.

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Dermatophyte Treatment Failure: A Rapid Global Response to an Emerging Global Health Issue

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Fungal skin infections affect nearly a billion people worldwide and are becoming increasingly difficult to treat due to growing resistance to common antifungal medications. A new species of fungus called T. indotineae, particularly resistant to the popular antifungal drug terbinafine, is spreading globally from India. To combat this emerging health crisis, doctors and health organizations are working together to create global registries and surveillance programs to track resistant infections and develop better treatment strategies.

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Five-Year Retrospective Analysis of Superficial Fungal Infections: Insights from Hospital Experience

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This study examined fungal skin infections in over 3,900 patients at a Serbian military hospital over five years. Researchers found that common fungi like Trichophyton mentagrophytes and T. rubrum caused most infections, with patterns varying by season, patient gender, and body location. Men were more likely to have foot infections while women showed more diverse fungal types. The findings suggest doctors should use more precise identification methods like MALDI-TOF testing to prescribe better treatments and help prevent recurring infections.

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