Abstract
Preparedness and response actions to mitigate Ebola virus disease (EVD) outbreaks rely on rapid diagnosis to be implemented locally to sort suspect patients attending health centers. Our aim was (i) to develop and evaluate an RT-qPCR assay combining primers and probes derived from two reference assays targeting different genomic regions; (ii) to study whether sensitivity and specificity of this dual-target assay were at least equal or better to the parental assays; (iii) to implement this dual-target assay onto the Cepheid GeneXpert open cartridge as a proof of principle for technological transfer aiming at bedsite testing locally. To do so, three home-made published RT-qPCR assays were selected to be compared with the RealStar® Filovirus Screen RT-PCR kit 1.0 (Altona Diagnostics, Hamburg, Germany), a technique that was largely deployed during the 2014–2015 West African EVD outbreak. Primers and probes sequences of the custom-made assays were analyzed in silico against a multiple sequence alignment, including >250 complete sequences corresponding to strains that have caused EVD epidemics in the past. Genomic RNA purified from the Mekambo strain of Zaire ebolavirus (EBOV) was used to study the sensitivity of the five methods. Based on these results, two in-house methods were selected and adapted to design the dual-target assay, which performances were compared to those of the parental assays using a synthetic RNA control. The dual-target assay showed better sensitivity and limit of detection (LoD95 at 0.4 copies/µL) than the parental methods (1.7 and 2.2 copies/µL). Ultimately, the dual-target assay was transferred onto the GeneXpert Flex-03 open cartridge, demonstrating a LoD95 at 0.75 copies/µL. Together these results indicate that EBOV dual-target assay has the potential to be used during EVD outbreak in the laboratory having performed molecular testing during the recent outbreaks.
Highlights
The genus Ebolavirus includes five species: Zaire ebolavirus (EBOV), Sudan ebolavirus, Taï Forest ebolavirus, Reston ebolavirus and Bundibugyo ebolavirus [1,2]
EBOV has been responsible for the vast majority of human cases (i) in Central Africa (Democratic Republic of Congo, 1976-1977-1995-2002-2003-2007; Gabon, 1994-1996-1997-2001-2002; Republic of Congo, 2002–2003), and (ii) recently in Western Africa (Liberia, Sierra Leone, and Guinea, 2014–2016), the latter being by far the largest EBOV outbreak [4]
Primers and probes sequences of the custom-made assays were analyzed in silico against a multiple sequence alignment, including >235 complete sequences corresponding to strains having caused Ebola virus disease (EVD) epidemics from the first DRC (Democratic Republic of Congo) strain in 1976 to the strains having caused the West African outbreak from 2014 to 2015
Summary
The genus Ebolavirus (family Filoviridae) includes five species: Zaire ebolavirus (EBOV), Sudan ebolavirus, Taï Forest ebolavirus, Reston ebolavirus and Bundibugyo ebolavirus [1,2]. The recent Western African EBOV outbreak has emphasized the need for reliable diagnostic tools amenable directly in the field. This is of conspicuous medical and public health importance since false-negative results are likely to leave contagious patients without containment measures, and because false-positive results will result in placing non-infected patients in premises together with highly contagious Ebola virus disease (EVD) patients. Molecular diagnosis has demonstrated their capacity to be deployed and implemented in mobile laboratories where their high sensitivity and specificity combined with the potential to provide results within few hours are pivotal for sorting suspect patients attending the health centers They remain, to date, the first-intention diagnostic techniques, but they still require development to be used by routine technical staff locally and merit to be sensitive and specific but prepared for easy read-out and for the possible occurrence of mutant strains during an on-going outbreak [5]
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