BACKGROUND: Dried blood spots (DBS) could be an excellent alternative for HCV diagnosis, since it is less invasive and can be stored and transported without refrigeration. OBJECTIVES: The aim of this study was to optimize quantitative and qualitative methods for HCV detection in DBS. STUDY DESIGN: DBS and serum samples were collected from 99 subjects (59 anti-HCV/HCV RNA positive and 40 seronegative samples). Seven extraction methods and different PCR parameters were evaluated in DBS samples in the quantitative RT-PCR (qRT-PCR) developed to amplify the 5' noncoding region of HCV. A qualitative PCR for amplification of NS5B region of HCV was also valued and the nested-PCR sequenced. RESULTS: The qRT-PCR showed good correlation to commercial assay for HCV viral measurement in serum. To quantify HCV RNA in DBS, it was necessary to increase reverse transcriptase and cDNA concentration. HCV RNA quantification in DBS demonstrated sensitivity of 65.9%, 100% of specificity and kappa statistic of 0.65. The median viral load of DBS samples was 5.38 log10 copies/ml (minimum value=1.76 and maximum value=10.48 log10 copies/ml). HCV RNA was detected in NS5B regions and nucleotide sequences obtained in 43 serum and 11 DBS samples. The presence of the same subtype was observed in paired serum and DBS samples. CONCLUSIONS: In this study, it was possible to demonstrate that, despite the low sensitivity, the optimized protocol was able to determine the viral load, as well as, the infecting HCV genotype, validating the usefulness of DBS for viral load determination and molecular epidemiology studies of HCV.
BACKGROUND: Dried blood spots (DBS) could be an excellent alternative for HCV diagnosis, since it is less invasive and can be stored and transported without refrigeration. OBJECTIVES: The aim of this study was to optimize quantitative and qualitative methods for HCV detection in DBS. STUDY DESIGN:DBS and serum samples were collected from 99 subjects (59 anti-HCV/HCV RNA positive and 40 seronegative samples). Seven extraction methods and different PCR parameters were evaluated in DBS samples in the quantitative RT-PCR (qRT-PCR) developed to amplify the 5' noncoding region of HCV. A qualitative PCR for amplification of NS5B region of HCV was also valued and the nested-PCR sequenced. RESULTS: The qRT-PCR showed good correlation to commercial assay for HCV viral measurement in serum. To quantify HCV RNA in DBS, it was necessary to increase reverse transcriptase and cDNA concentration. HCV RNA quantification in DBS demonstrated sensitivity of 65.9%, 100% of specificity and kappa statistic of 0.65. The median viral load of DBS samples was 5.38 log10 copies/ml (minimum value=1.76 and maximum value=10.48 log10 copies/ml). HCV RNA was detected in NS5B regions and nucleotide sequences obtained in 43 serum and 11 DBS samples. The presence of the same subtype was observed in paired serum and DBS samples. CONCLUSIONS: In this study, it was possible to demonstrate that, despite the low sensitivity, the optimized protocol was able to determine the viral load, as well as, the infecting HCV genotype, validating the usefulness of DBS for viral load determination and molecular epidemiology studies of HCV.
Authors: Kazeem Adeboyejo; Victória Riquena Grosche; Diego Pandeló José; Giulia Magalhães Ferreira; Jacqueline Farinha Shimizu; Barnabas J King; Alexander W Tarr; Márcia Maria Costa Nunes Soares; Jonathan K Ball; C Patrick McClure; Ana Carolina Gomes Jardim Journal: Access Microbiol Date: 2022-03-02
Authors: Berit Lange; Teri Roberts; Jennifer Cohn; Jamie Greenman; Johannes Camp; Azumi Ishizaki; Luke Messac; Edouard Tuaillon; Philippe van de Perre; Christine Pichler; Claudia M Denkinger; Philippa Easterbrook Journal: BMC Infect Dis Date: 2017-11-01 Impact factor: 3.090
Authors: Sonia Vázquez-Morón; Beatriz Ardizone Jiménez; María A Jiménez-Sousa; José M Bellón; Pablo Ryan; Salvador Resino Journal: Sci Rep Date: 2019-05-13 Impact factor: 4.379
Authors: Sonia Vázquez-Morón; Pablo Ryan; Beatriz Ardizone-Jiménez; Dolores Martín; Jesus Troya; Guillermo Cuevas; Jorge Valencia; María A Jimenez-Sousa; Ana Avellón; Salvador Resino Journal: Sci Rep Date: 2018-01-30 Impact factor: 4.379