José Cláudio Faria Amorim scite author profile

Em dezembro de 2019, um surto de pneumonia começou na China e se espalhou por várias regiões geográficas, sendo causado pelo vírus que chamamos de Coronavírus, ou como muitos chamam, Covid -19. Os dados acerca do vírus relatam que o mesmo apresenta uma elevada capacidade de infecção. Levando em conta as características de um atendimento odontológico, que incluem uma proximidade face a face entre os cirurgiões-dentistas e pacientes, faz-se necessário um cuidado redobrado em relação ao manejo do paciente, limpeza do consultório e proteção dos profissionais. Essas medidas passam por uma boa orientação e um correto manejo do paciente; uma exímia limpeza do consultório; uma impecável esterilização do instrumental odontológico; uso de todos os equipamentos de proteção individual; assim como uma postura exemplar ao ser fiel a todos os tópicos citados anteriormente. No entanto, são medidas bastante necessárias e essenciais por se tratarem de condutas para conter e prevenir a contaminação pelo Covid-19 quanto mais aderirmos a essas medidas, mais rapidamente passaremos por essa Pandemia.

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Cryptococcus gattii: In Vitro Susceptibility to Photodynamic Inactivation

Soares

Alves

Ferreira

et al. 2010

Photochem & Photobiology

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Cryptococus gattii is an emergent primary human pathogen that causes meningismus, papilledema, high intracranial pressure and focal involvement of the central nervous system in immunocompetent hosts. Prolonged antifungal therapy is the conventional treatment, but it is highly toxic, selects for resistant strains, contributes to therapy failure and has a poor prognosis. Photodynamic inactivation (PDI) offers a promising possibility for the alternative treatment of cryptococcosis. The aim of this study was to test the effectiveness of toluidine blue O (TBO) and light-emitting diode (LED) against C. gattii strains with distinct susceptibility profile to antifungal drugs (amphotericin B: 0.015-1.0 μg mL(-1); itraconazole: 0.015-2 μg mL(-1); fluconazole: 4-64 μg mL(-1)). Using 25 μM (6.76 μg mL(-1)) TBO and LED energy density of 54 J cm(-2) these fungal isolates presented variable susceptibility to PDI. The production of reactive oxygen species (ROS)/peroxynitrite was determined, and the catalase and peroxidase activities were measured. After PDI, high amounts of ROS/peroxynitrite are produced and higher catalase and peroxidase activities could be correlated with a lower susceptibility of C. gattii isolates to PDI. These results indicate that PDI could be an alternative to C. gattii growth inhibition, even of isolates less susceptible to classical antifungal drugs, also pointing to mechanisms related to their variable susceptibility behavior.

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Phototoxic action of light emitting diode in the in vitro viability of Trichophyton rubrum

Amorim

Soares

Alves³

et al. 2012

An. Bras. Dermatol.

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BACKGROUND -Trichophyton rubrum is the most common agent of superficial mycosis of the skin and nails causing long lasting infections and high recurrence rates. Current treatment drawbacks involve topical medications not being able to reach the nail bed at therapeutic concentrations, systemic antifungal drugs failing to eradicate the fungus before the nails are renewed, severe side effects and selection of resistant fungal isolates. Photodynamic therapy (PDT) has been a promising alternative to conventional treatments. OBJECTIVES: This study evaluated the in vitro effectiveness of toluidine blue O (TBO) irradiated by Light emitting diode (LED) in the reduction of T. rubrum viability. METHODS: The fungal inoculums' was prepared and exposed to different TBO concentrations and energy densities of Light emitting diode for evaluate the T. rubrum sensibility to PDT and production effect fungicidal after photodynamic treatment. In addition, the profiles of the area and volume of the irradiated fungal suspensions were also investigated. RESULTS: A small reduction, in vitro, of fungal cells was observed after exposition to 100 μM toluidine blue O irradiated by 18 J/cm 2 Light emitting diode. Fungicidal effect occurred after 25 μM toluidine blue O irradiation by Light emitting diode with energy density of 72 J/cm 2 . The analysis showed that the area and volume irradiated by the Light emitting diode were 52.2 mm² and 413.70 mm³, respectively. CONCLUSIONS: The results allowed to conclude that Photodynamic therapy using Light emitting diode under these experimental conditions is a possible alternative approach to inhibit in vitro T. rubrum and may be a promising new treatment for dermatophytosis caused by this fungus. Keywords: Antifungal agents; Onychomycosis; Photochemotherapy Resumo: FUNDAMENTOS -Trichophyton rubrum é o agente mais comum das micoses superficiais de pele e unhas causando infecções de longa duração e altas taxas de recidiva. As desvantagens do tratamento atual envolvem medicações tópicas as quais não são capazes de alcançar o leito ungueal em concentrações terapêuticas, antifúngicos sistêmicos que não erradicam o fungo antes das unhas serem renovadas, efeitos colaterais graves e seleção de isolados fúngicos resistentes. A terapia fotodinâmica tem sido uma alternativa promissora aos tratamentos convencionais. OBJETIVOS -Este estudo avaliou a eficácia, in vitro, de azul de orto-toluidina irradiado por diodo emissor de luz na redução da viabilidade de T. rubrum. MÉTODOS: O inóculo fúngico foi preparado e exposto a diferentes concentrações de azul de orto-toluidina e densidades de energia do diodo emissor de luz, para avaliar a sensibilidade de T. rubrum e o efeito fungicida, após terapia fotodinâmica. Além disso, os perfis da área e volume das suspensões fúngicas irradiados também foram investigados. RESULTADOS: Uma pequena redução, in vitro, de células fúngicas foi observada após a exposição a 100 mM azul de orto-toluidina irradiados por diodo emissor de luz a 18 J/cm 2 . Efeito fungicida ocorreu a...

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