Real time PCR is one of the major tools for molecular diagnosis, however not always reaches the required sensitivity, especially in detecting early infectious disease. To overcome this problem, nested PCR is commonly performed, since it is highly sensitive, but it is time-consuming, prone to cross-contamination and difficult to standardize. Therefore, we developed a sensitive and specific single-tube nested real-time PCR (STN-real-time PCR) assay and evaluated its clinical utility on early infant HIV-1 diagnosis (EID). The STN-real-time PCR enables the simultaneous amplification of four HIV-1 specific amplicons by the use of an internal and external pair of primers targeting ltr/gag region, and another one corresponding to human albumin as an internal control. Thermocycling had different annealing temperatures to favor the sequential use of each pair of primers, and included an initial touchdown step to broaden specificity and increase sensitivity. Finally, HIV-1 was detected by melting curve analysis. A total of 234 samples collected retrospectively and prospectively from HIV-1 exposed infants aged <18 months were used to evaluate the performance of the assay and compare it with a routine diagnostic nested-multiplex PCR. The developed assay had a limit of detection of 3 copies of HIV-1 DNA per reaction and had a sensitivity of 31 % more than routine diagnostic nested-multiplex PCR when testing samples near delivery. In conclusion, we developed a new assay by turning a conventional nested-PCR into a faster, more sensitive and feasible STN-real-time PCR assay for EID and potentially useful for detection of pathogens with variable genomes and present in low copy numbers.
Keywords: Diagnostic assay; HIV-1; Infectious disease; STN-real-time PCR.
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