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Hepatitis B virus is a highly infectious blood borne microbial pathogen that causes several hepatic complications like liver cirrhosis and hepatocellular carcinoma. Several methods are available for the detection of HBV, but every method has their own merits and demerits, which restrict their use in clinical laboratories. The aim of this present study is the development of rapid, inexpensive, sensitive, and specific loop-mediated isothermal amplification followed by lateral flow device (LFD) for detection of HBV in blood specimens. METHODS: HBV standard plasma panels and donor plasma specimens were used to evaluate the assay. HBV DNA was extracted by using QiAamp DNA Blood Mini Kit. Amplification was carried out at constant temperature 63 °C for 60 min. LAMP end products were analyzed by using ESE LAMP tube scanner, gel electrophoresis, UV-lamp, and lateral flow device. RESULTS: HBV-LAMP-LFD assay revealed sensitivity of 92% (138/150) of HBV positive plasma specimens. Specificity of HBV-LAMP-LFD was calculated 100%. CONCLUSION: Our study concludes that HBV-LAMP-LFD is rapid, easy to use, sensitive, and specific point-of-care diagnostic assay for the detection of hepatitis B virus in blood samples. This assay can be used in resource-limited settings as well as in HBV endemic areas.

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The Mycobacterium avium subspecies paratuberculosis (MAP) causes paratuberculosis (Johne's disease), a systemic and chronic inflammation of intestine that affects bovine, small ruminants like goat and sheep. The disease has a greater economic importance in cattle and in small ruminants. But its effective control is impeded due to lack of rapid and accurate diagnostics. The present study is aimed at developing a LAMP-coupled lateral flow device (LFD) for rapid detection of paratuberculosis in livestock animal species such as cattle and in small ruminants at resource-limited areas. LAMP primers with biotin and FITC end tags were designed for IS900 gene specific for MAP. To determine sensitivity of LAMP assay, 10-fold serial dilutions were made from 10 ng/µl MAP stock DNA and were compared with PCR. The detection limits of LAMP-coupled LFD were defined and reactions were repeated for reproducibility. The specificity was evaluated using other infectious bacteria such as M. bovis, M. tuberculosis, Brucella abortus, Leptospira interrogan, Yersinia enterocolitica, Salmonella typhimurium, Listeria monocytogens, and Staphylococcus aureus. A total of 95 samples turned positive for LAMP-coupled LFD out of 389 fecal samples. All the cultural-positive and PCR-positive samples showed positive in LAMP-coupled LFD. Nine samples with negative cultures turned positive in LAMP assay. The overall sensitivity and specificity of the LAMP-coupled LFD assays were 100% and 97.02% respectively in comparison with the culture as the gold standard method. The sensitivity detection limit of developed assay was 10 fg/µl and specificity was 100%. This assay successfully detected MAP not only by using bacterial DNA but also in clinical fecal samples. The clear band formation at control and test positions was observed on LAMP-coupled LFD. The developed assay is a simple, rapid, easy to perform, and is very useful in early diagnosis of Mycobacterium avium subsp. paratuberculosis at point of care resource-limited areas.

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Resumen Introducción: El diagnóstico de aspergilosis invasora (AI) se realiza mediante criterios clínicos y microbiológicos los que incluyen marcadores séricos. Recientemente, el test inmunocromatográfico Aspergillus lateral flow device (LFD), ha sido evaluado como método para diagnóstico de AI. Objetivo: Evaluar el desempeño de este test para el diagnóstico de AI. Material y Método: Estudio transversal en que se evaluaron muestras de suero y lavado bronco-alveolar (LBA) procesadas para galactomanano provenientes de pacientes adultos con sospecha de AI, atendidos en el Hospital Clínico de Red de Salud UCCHRISTUS. Resultados: Se procesó un total de 142 muestras de 98 pacientes, correspondientes a AI probada 5,6%, AI probable 41,5%, AI posible 12,7% y ausencia de AI 40,1%. Al confrontar los resultados con las categorías diagnósticas según criterios EORTC/MSG se obtuvo una sensibilidad y especificidad de LFD para diagnóstico de AI de 70,9 y 53,5% para muestras de suero y 83,3 y 38,5% para muestras de LBA. La concordancia entre galactomanano y LFD fue de 62,4% (54,1-69,9) con un índice Kappa de 0,202 (0,03682-0,3669). Conclusiones: Aspergillus LFD presentó una adecuada sensibilidad; sin embargo, la especificidad fue baja por lo que un resultado positivo requiere ser confirmado.

Background: The incidence of invasive aspergillosis is increasing. Its diagnosis is based on clinical and microbiological criteria which include the determination of serological markers such as galactomannan. Recently, the Aspergillus lateral flow device, an inmunocromatograph assay has been described for its diagnosis. Aim: To evaluate the performance of the lateral flow device for the diagnosis of invasive aspergillosis (IA) in adult patients. Material and Method: In this cross-sectional study, frozen samples that had been previously evaluated for galactomannan from patients classified with proven/probable/possible or no AI according to the EORTC/MSG criteria were selected. Results: A total of 142 samples from 98 patients were processed, corresponding to proven AI 5.6%, probable IA 41.5%, possible IA 12.7% and no-IA 40.1%. The sensitivity and specificity of the Aspergillus lateral flow was 70.9% and 53.5% for serum samples and 83.3% and 38.5% for BAL samples. The concordance between the galactomannan and Aspergillus lateral flow was 62.4% (54.1 - 69.9) with a Kappa index of 0.202 (0.03682 - 0.3669). Conclusions: We observed a good sensitivity but low specificity, a positive result need a confirmatory test.

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