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Infection and Drug Resistance 2024Tinea capitis, primarily caused by dermatophytes such as and species, is a superficial fungal infection affecting the scalp and hair, commonly observed in prepubertal...
Tinea capitis, primarily caused by dermatophytes such as and species, is a superficial fungal infection affecting the scalp and hair, commonly observed in prepubertal children but rare in adults. Here we report a unique case of an adult female with tinea capitis presenting as diffused alopecia and erythema inflammation on the scalp's apex, mimicking seborrheic dermatitis. Examination of the hair and scalp using fluorescence microscopy and fungal culture identified the presence of hyphae from and . The patient underwent with oral antifungal treatment for 3 months, resulting in the resolution of the rash and subsequent hair regrowth, with no recurrence during 6-month follow-up. In vitro co-culture experiments of and (both and ) revealed that appears to facilitate growth, while the reverse was not observed. This data suggests that 's use of long-chain fatty acids by might reduce its antibacterial effect, potentially aiding adult tinea capitis development caused by .
PubMed: 38912215
DOI: 10.2147/IDR.S455485 -
Antibiotics (Basel, Switzerland) May 2024The essential oil of (Kunth) Mez (EOAC), an Amazon plant composed of a rare nitro compound, has shown scientific evidence of antifungal activity but is still unexplored...
The essential oil of (Kunth) Mez (EOAC), an Amazon plant composed of a rare nitro compound, has shown scientific evidence of antifungal activity but is still unexplored against dermatophytes. The antifungal susceptibility of EOAC and its main compound, 1-nitro-2-phenylethane (NP), was evaluated against dermatophytes (, and ), evidencing antifungal activity with an inhibitory concentration lower than 256 μg/mL. The mechanism of action was also evaluated, and it is suggested that EOAC and NP have fungicidal action in the fungal membrane, since the antifungal activity occurs through a modification of the shape of the conidial structures of the fungus, showing the permeability of the intracellular content due to the visually observed plasmolysis and cytosolic extravasation through an osmotic process. These results suggest the essential oil and its main compound are promising plant-derived alternatives for treating ungual dermatophytosis.
PubMed: 38927155
DOI: 10.3390/antibiotics13060488