RÉSUMÉ
Objective: COVID-19 is presently the most serious public health concern and diagnosis is a principal tool for controlling and monitoring the spread of the disease. This study aimed to evaluate the efficiency of direct RT-PCR (dRT-PCR) for detection of SARS-CoV-2. Methods: Twenty-seven nasopharyngeal swabs from symptomatic individuals were evaluated. Standard RT-PCR was conducted, and for dRT-PCR the samples were preheated before amplification. Results: Positive agreement was 63.2% and negative agreement was 100%, being moderately in accord. Conclusion: dRT-PCR may be an alternative for screening symptomatic patients and a reliable option during an eventual shortage of viral RNA purification kits.
Objetivo: A COVID-19 é atualmente um sério problema de saúde pública e o diagnóstico é a principal ferramenta para controlar e monitorar a propagação da doença. Este estudo teve como objetivo avaliar a eficiência da RT-PCR direta (dRT-PCR) para detecção do SARS-CoV-2. Métodos: Vinte e sete amostras de swab nasofaríngeo de indivíduos sintomáticos foram avaliados. A RT-PCR padrão foi realizada e para a dRT-PCR as amostras foram pré-aquecidas antes da amplificação. Resultados: A concordância positiva foi de 63,2% e a concordância negativa foi de 100%, sendo moderadamente concordante. Conclusão: A dRT-PCR pode ser uma alternativa para a triagem de pacientes sintomáticos e uma opção confiável durante uma eventual escassez de kits de purificação de RNA viral.
Sujet(s)
Humains , Virologie , Réaction de polymérisation en chaîne , Triage , Techniques de diagnostic moléculaire , Détection de l'acide nucléique du virus de la COVID-19 , COVID-19RÉSUMÉ
Abstract: Background: epigenomes can be influenced by environmental factors leading to the development of diseases. Objective: To investigate the influence of sun exposure on global DNA methylation and hydroxymethylation status and at specific sites of the miR-9-1, miR-9-3 and MTHFR genes in skin samples of subjects with no history of skin diseases. Methods: Skin samples were obtained by punch on sun-exposed and sun-protected arm areas from 24 corpses of 16-89 years of age. Genomic DNA was extracted from skin samples that were ranked according to Fitzpatrick's criteria as light, moderate, and dark brown. Global DNA methylation and hydroxymethylation and DNA methylation analyses at specific sites were performed using ELISA and MSP, respectively. Results: No significant differences in global DNA methylation and hydroxymethylation levels were found among the skin areas, skin types, or age. However, gender-related differences were detected, where women showed higher methylation levels. Global DNA methylation levels were higher than hydroxymethylation levels, and the levels of these DNA modifications correlated in skin tissue. For specific sites, no differences among the areas were detected. Additional analyses showed no differences in the methylation status when age, gender, and skin type were considered; however, the methylation status of the miR-9-1 gene seems to be gender related. Study limitations: there was no separation of dermis and epidermis and low sample size. Conclusion: sun exposure does not induce changes in the DNA methylation and hydroxymethylation status or in miR-9-1, miR-9-3 and MTHFR genes for the studied skin types.