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Key Clinical Message: In examining any scalp itch or skin lesions, especially in children with long hair, fungal lesions under the hair may not be diagnosed in a timely manner. Additionally, fungal infection of the scalp, known as tinea capitis, is considered a chronic condition and if left untreated, it can lead to alopecia (hair loss) and permanent scarring. Abstract: Tinea capitis (TC) is a common cutaneous fungal infection in childhood. In this report, we describe the case of an 8-year-old child presenting with erythematous scalp lesions accompanied by hair loss. Upon examination, palpation revealed a swollen and tender left parotid gland. Notably, the frontal region of the scalp exhibited erythematous lesions and scaly red plaques resembling yellowish paste-like dough. Subsequent clinical evaluation and culture analysis confirmed the diagnosis of TC. The patient received treatment with Terbinafine 125 mg for a duration of 8 weeks. Follow-up examinations conducted after 3 months showed no signs of recurrence. Accurate diagnosis and timely treatment, along with adherence to medication regimens, are crucial in cases of TC, and differential diagnoses should be considered. Treatment should commence promptly upon diagnosis to prevent complications such as scalp baldness and transmission to others. This case report underscores the significance of establishing a precise diagnosis and effective treatment for this dermatophytosis to mitigate the risk of recurrences or therapeutic shortcomings, particularly in infants.
RESUMEN
Aim: COVID-19 is a global health threat. Therapeutics are urgently needed to cure patients severely infected with COVID-19. Objective: to investigate potential candidates of nsp12 inhibitors by searching for druggable cavity pockets within the viral protein and drug discovery. Methods: A virtual screening of ZINC natural products on SARS-CoV-2 nsp12's druggable cavity was performed. A lead compound with the highest affinity to nsp12 was simulated dynamically for 10 ns. Results: ZINC03977803 was nominated as the lead compound. The results showed stable interaction between ZINC03977803 and nsp12 during 10 ns. Discussion: ZINC03977803 showed stable interaction with the catalytic subunit of SARS-CoV-2, nsp12. It could inhibit the SARS-CoV-2 life cycle by direct interaction with nsp12 and inhibit RdRp complex formation.