dermatophytosis – Page 5

Evaluation of the DendrisKIT®DP for the Diagnosis of Superficial Fungal Infections

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Researchers evaluated a new rapid test called DendrisKIT®DP that can identify skin, nail, and hair fungal infections much faster than traditional methods. The test uses PCR technology combined with artificial intelligence to detect 13 different fungal species directly from patient samples in less than 48 hours, compared to traditional cultures that take up to 4 weeks. The test showed good accuracy with 84% sensitivity and 89% specificity, and when combined with traditional methods, provides a better overall diagnostic strategy for fungal infections.

The Effect of Topical Ketoconazole and Topical Miconazole Nitrate in Modulating the Skin Microbiome and Mycobiome of Patients With Tinea Pedis

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This study examined how two common antifungal creams (ketoconazole and miconazole) affect the complex community of bacteria and fungi living on the skin of people with athlete’s foot. Both treatments effectively reduced the harmful fungus causing the infection and improved symptoms, with ketoconazole working slightly faster. However, the researchers found that while these treatments reduced the disease-causing fungus, the skin’s normal microbial community did not fully recover to a healthy state, particularly in the spaces between the toes.

Characterization of Biofilm Formation by the Dermatophyte Nannizzia gypsea

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This research studies how a fungus called Nannizzia gypsea forms protective biofilms on skin and hair, making infections harder to treat. Scientists grew the fungus in the lab and on real human hair, discovering it creates thick slime-like protective layers containing proteins, sugars, and DNA. The fungus also produces enzymes that break down keratin (the main protein in skin and hair) and activates drug-pumping proteins that help it resist antifungal medications. Understanding these defense mechanisms could help develop better treatments for fungal skin infections that are currently difficult to cure.

Emergence of resistant dermatophytosis caused by Trichophyton indotineae: First case series in Thailand

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Doctors in Thailand have identified a new drug-resistant fungal infection caused by Trichophyton indotineae, a fungus that doesn’t respond to common antifungal medication terbinafine. Five patients were diagnosed with this resistant skin infection that caused rashes on various body parts and failed to improve with standard treatments. The research shows that a simple urease test can help doctors quickly identify this resistant fungus, and a different drug called itraconazole appears to work better for treatment. This is the first time this resistant fungus has been confirmed in Thailand, suggesting it is spreading globally.

First Step on the Way to Identify Dermatophytes Using Odour Fingerprints

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Researchers have developed a new method to quickly identify fungal skin infections caused by dermatophytes by detecting the unique smells (volatile compounds) they produce. Instead of waiting days or weeks for culture-based tests, this approach uses advanced chemical analysis to create a fingerprint of the fungus based on its odor. The study analyzed 47 different dermatophyte strains and found that each species and even individual strains have distinctive chemical signatures, which could one day allow doctors to diagnose infections rapidly using portable devices similar to electronic noses.

Identification of Challenging Dermatophyte Species Using Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass Spectrometry

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This study shows that a specialized technique called MALDI-TOF mass spectrometry can accurately identify fungal skin infections by analyzing protein patterns. Researchers created a customized library of local fungal species that, when combined with commercial databases, improved identification accuracy from 16% to 91%. This advancement helps doctors quickly identify the exact type of fungal infection patients have, enabling faster and more appropriate treatment decisions.

Increasing postgraduate medical mycology research dissertations at Uganda’s higher institution of learning

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This study shows how providing research funding helped increase medical mycology studies at a Ugandan university. Over just two years, the percentage of graduate student research focused on fungal diseases jumped from 16% to 40%. Students studied important fungal infections like cryptococcal meningitis and candida, using modern laboratory techniques. The research group’s collaborative learning approach and financial support enabled students to complete their studies on time and advance understanding of fungal diseases that significantly impact public health.

Northwest Iranian dermatophyte isolates: anthropophilic and geophilic

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Researchers in northwestern Iran studied fungal infections of skin, hair, and nails by identifying different types of dermatophytes from patient samples and soil. They found that a fungus called Trichophyton mentagrophytes was the most common cause, but also discovered a rare fungus called Myriodontium keratinophilum causing nail infections. Using modern DNA testing methods, they identified seven different dermatophyte species and several other soil fungi, providing important information about fungal infections in this region.

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.

Antifungal effect of soil Bacillus bacteria on pathogenic species of the fungal genera Aspergillus and Trichophyton

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Researchers found that certain bacteria called Bacillus, naturally occurring in soil, can effectively kill dangerous fungi that cause infections in humans. These bacteria produce compounds that are as effective or more effective than standard antifungal medications. This discovery could lead to new treatments for fungal infections, especially as fungi increasingly develop resistance to current drugs.

Disease: dermatophytosis