ABSTRACT
Resumen Scedosporium sp. es un género de hongos filamentosos que de forma infrecuente se relaciona a infecciones localizadas o diseminadas en pacientes inmunocom prometidos, o inmunocompetentes con trauma penetrante contaminado. Reportamos el caso de un paciente masculino de 31 años con antecedente de trauma penetrante por arma de fuego requiriendo enucleación de su ojo izquierdo, quien 12 años posterior al trauma inicial presenta necrosis de la cavidad anoftálmica con extrusión del implante y lisis del párpado inferior, finalmente identificando Scedosporium sp. como germen causal, y un mucocele en el seno frontal como reservorio. El paciente recibió tratamiento médico con voriconazol sistémico, desbridamiento quirúrgico amplio, y resección endoscópica del quiste de retención mucoso, con una evolución satisfactoria. Las infecciones micóticas de la cavidad anoftálmica son infrecuentes, requiriendo una alta sospecha diagnóstica y trata miento agresivo para evitar consecuencias potencialmente devastadoras.
Abstract Scedosporium sp. is a genus of filamentous fungi that is infrequently related to localized or disseminated infections in either immunocompromised patients, or immunocompetent patients with penetrating contaminated trauma. We report the case of a 31-year-old patient with a history of penetrating gunshot wound that required enucleation of his left eye, who 12 years after initial trauma presents necrosis of the anophthalmic socket with implant extrusion and lysis of inferior eyelid, finally identifying the causal agent to be Scedosporium sp. The patient received medical treatment with systemic voriconazole, and wide surgical debridement, with a satisfactory evolution. Fungal infections of anophthalmic sockets are infrequent, requiring a high diagnostic suspicion and aggressive treatment to avoid potentially devastating consequences.
ABSTRACT
One of the important fields in nanotechnology is the development of an environment friendly method for the synthesis of nanoparticles. Many approaches show that microorganisms are the most reliable tools for biosynthesis of nanoparticles compared to physical and chemical methods. In our study, fungi have been exploited for extracellular production of metal nanoparticles. It was observed that in Scedosporium, silver ions are reduced to silver nanoparticles, which was confirmed by UV-visible spectrophotometry and AFM. Optimization studies showed that as the concentration of AgNO3 used for synthesis increased, particles' size also increased. Size of the particles at different concentrations of AgNO3 was observed to be 79-107 nm with particles being ellipsoidal to spherical in shape. Silver nanoparticles synthesized from 2.0 mM silver nitrate, showed maximum antimicrobial activity compared to all antibiotics tested including synergistic effects. In vitro cytotoxicity of silver nanoparticles against MCF 7 and PC 3 showed that as the concentration of silver nanoparticles increased, a decrease in the percentage cell viability was observed with IC50 values being 60.09 and 57.43 µg/ml respectively. Therefore, through this study, it could be said that extracellular synthesis of silver nanoparticles from Scedosporium was simple, ecofriendly, proving excellent antimicrobial and anticancer agents.