Abstract
Rabies is a generally fatal encephalitis caused by a negative-sense single-stranded RNA lyssavirus transmitted to humans mainly from dog bite. Despite the recommendation by WHO and OIE to use the direct immunofluorescence test as standard method, molecular diagnostic assays like reverse transcription quantitative polymerase chain reaction (RT-qPCR) are increasing as a confirmatory method. However, both technologies are inaccessible in resource-limited settings. Moreover, the available point-of-need molecular assay is of poor detection limit for African strains. Herein, we developed a reverse transcription recombinase polymerase amplification (RT-RPA) assay as potential point-of-need diagnostic tool for rapid detection of various strains of rabies virus including locally isolated African strains. The sensitivity and specificity of the method was evaluated using a molecular RNA standard and different Rabies-related viruses belonging to the Rhabdoviridea family, respectively. The RABV-RPA performances were evaluated on isolates representative of the existing diversity and viral dilutions spiked in non-neural clinical specimen. The results were compared with RT-qPCR as a gold standard. The RABV-RPA detected down to 4 RNA molecules per reaction in 95% of the cases in less than 10 min. The RABV-RPA assay is highly specific as various RABV isolates were identified, but no amplification was observed for other member of the Rhabdoviridea family. The sample background did not affect the performance of the RABV-RPA as down to 11 RNA molecules were identified, which is similar to the RT-qPCR results. Our developed assay is suitable for use in low-resource settings as a promising alternative tool for ante-mortem rabies diagnosis in humans for facilitating timely control decisions.
Highlights
Choice for the rapid, specific, and cost-effective identification of pathogens
reverse transcription RPA (RT-RPA) for the rapid detection of Rabies virus (RABV) was previously developed (Schlottau assay)[21], but we have discovered that it is not suitable for African RABV strains
A total of 4 forward primers (FPs), 4 reverse primers (RPs), and one exo probe targeting the conserved region of the nucleocapsid gene (N) were initially designed
Summary
Choice for the rapid, specific, and cost-effective identification of pathogens. RPA is integrated in point-of-care (POC) bioassays, suitcase lab and on handheld automated fluidic p latforms[26,27]. Because of its simplicity (few and easy hands-on steps), flexibility (large range of commercial kits available in dried formats), completely isothermal (i.e. no need to perform an enzyme pre-activation) and low-temperature profile (37–42 °C) and speed (results in 5–20 min), RPA technology has been successfully used for rapid detection of various pathogens without requirement of any sophisticated e quipment[25,39]. RT-RPA for the rapid detection of RABV was previously developed (Schlottau assay)[21], but we have discovered that it is not suitable for African RABV strains. A rapid and sensitive fluorescent probe-based RT-RPA assay was developed and evaluated for rapid and broad range detection of Rabies virus (RABV). Clinical performance was checked using cerebro-spinal fluid spiked with RABV
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