Tinea capitis – Page 3

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.

Dermatophytes adaptation to the human host exemplified by Microsporum canis

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Researchers studied how fungi that normally infect cats and dogs are adapting to infect humans. By comparing the genes of zoophilic (animal-loving) and anthropophilic (human-loving) Microsporum species, they found that human-adapted strains have developed specific proteins that help them survive in the acidic environment of human skin. These fungi have evolved special enzymes for breaking down keratin and tolerating the lipid-rich, acidic conditions of human skin better than their animal-loving relatives.

Coexistence of Malassezia Species and Microsporum canis in the Lesions of Adult with Tinea Capitis

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A 60-year-old woman developed unusual hair loss and scalp inflammation that looked like dandruff but was actually a fungal infection caused by multiple fungi working together. Doctors found three different fungi in her scalp samples: one dermatophyte and two Malassezia species. Lab experiments showed that the Malassezia fungi actually helped the main disease-causing fungus grow better, which explains why the condition looked different from typical cases. After three months of antifungal medication, her symptoms cleared and her hair grew back.

Shifting etiological agents of dermatophytosis: a molecular epidemiological study from Iran

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Researchers in Iran studied fungal infections of the scalp and nails using modern DNA testing methods. They found that the main fungus causing scalp infections (T. tonsurans) remains the most common, but a new species (T. indotineae) is increasingly causing nail infections and is resistant to common antifungal medicines. The study shows that traditional identification methods often misidentify these fungi, highlighting the importance of molecular testing for accurate diagnosis and treatment.

A Case of Superficial Mycoses in a Patient with Systemic Lupus Erythematosus

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A 52-year-old woman with lupus developed severe fungal skin infections that were initially mistaken for worsening lupus symptoms. Her condition improved after 6 months of treatment with two antifungal medications (terbinafine and itraconazole). This case reminds doctors that patients taking immunosuppressive medications for lupus are at high risk for fungal infections, which can be misdiagnosed as lupus flares.

Antifungal susceptibility testing of Microsporum canis isolated from the skin of dermatologically healthy cats

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Researchers tested healthy cats in Chile and found that about 5% carried a fungus called Microsporum canis that can cause ringworm. This fungus was resistant to a common antifungal drug called fluconazole. Indoor cats were more likely to carry the fungus than outdoor cats. Because cats can spread this fungus to people, identifying carrier cats is important for preventing human infections.

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.

Superficial Fungal Infections in Children—What Do We Know?

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Fungal infections of the skin, hair, and nails are increasingly common in children worldwide, especially in warm, humid climates and in crowded living conditions. These infections are caused by germs that live on the skin and can spread through contact with infected people or animals. Children are particularly vulnerable due to their developing immune systems, but most infections are treatable with topical creams or oral medications, with terbinafine being the most effective option currently available.

Utility of MALDI-ToF MS for Recognition and Antifungal Susceptibility of Nannizzia, an Underestimated Group of Dermatophytes

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Nannizzia species are soil-dwelling fungi that increasingly cause stubborn skin, nail, and hair infections in humans and animals. This study tested two laboratory methods for identifying these fungi and measured their sensitivity to eight antifungal drugs. The faster liquid-based method was slightly more accurate (67%) than the traditional culture method (62%), though neither method could identify six very rare species. Terbinafine emerged as the most effective antifungal treatment in laboratory tests.

PCR enables rapid detection of dermatophytes in practice

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Researchers in Finland studied how a fast DNA test (PCR) can detect fungal skin infections better than traditional slow culture methods. The new test, called DermaGenius, gives results in just 16 hours instead of 19 days. By 2022, most fungal infection samples were tested using this faster method, which helps doctors treat patients quickly without unnecessary medications.

Disease: Tinea capitis