Abstract
Efficient and accurate diagnosis of Hendra virus (HeV), a biosafety level 4 (BSL-4) pathogen and zoonotic disease, is of primary importance for surveillance and outbreak control in the Australian equine industry. Sporadic HeV spillover events pose a serious public health concern and are predicted to expand geographically, aligning with the moving distribution of the main reservoir hosts, the flying-foxes. Here we describe the development of a low-resource rapid Hendra test. The test used a fast and simple sample processing protocol followed by reverse transcription isothermal recombinase polymerase amplification (RT-RPA) combined with lateral flow detection (LFD) technology. Results were obtained in 30 min and required only a heating block, ice, and pipettes for liquid handling. The one-step sample processing protocol inactivated HeV in 2 min, providing a simple protocol that could enable safe testing outside of a laboratory. Analytical sensitivity testing demonstrated a detection limit of 1000 copies/μL of synthetic HeV RNA, and analytical specificity testing indicated assays did not detect other pathogens. Gamma-irradiated HeV-spiked in viral transport medium was detected with high sensitivity, down to 10,000 TCID50/mL, the equivalent of 18 RNA copies per reaction. Collectively, our data suggests that our rapid Hendra test offers a potential first-line screening on-site alternative to gold-standard RT-PCR detection, which requires samples to be shipped to central containment laboratories, thermocyclers and labour-intensive viral RNA purification, with testing time of approximately four hours. Our rapid Hendra test provided performance and speed without compromising sensitivity and specificity, and could become a promising more accessible tool for testing under resource-limited conditions for the veterinary community and thoroughbred industry.