Development and Evaluation of a Real-time Method for Testing Human Enteroviruses and Coxsackievirus A16

Abstract Hand, foot, and mouth disease (HFMD) is a common infectious disease caused by a group of the human enteroviruses (HEV), including coxsackievirus A16 (CA16) and enterovirus 71 (EV71). In recent years, another HEV-A serotype, CA6 or CA10, has emerged to be one of the major etiologic agents that can induce HFMD worldwide. The objective of this study is to develop specific, sensitive, and rapid methods to help diagnose HEV and CA16 specifically by using simultaneous amplification testing (SAT) based on isothermal amplification of RNA and real-time detection of fluorescence technique, which were named as SAT-HEV and SAT-CA16, respectively (SAT-HEV/SAT-CA16). The specificity and sensitivity of SAT were tested here. SAT-HEV/SAT-CA16 could measure viral titers that were at least 10-fold lower than those measured by real-time PCR. Non–false cross-reactive amplification indicated that SAT-HEV/SAT-CA16 were highly specific with the addition of internal control (IC) RNA (5000 copies/reaction). A total of 198 clinical specimens were assayed by SAT comparing with real-time PCR. The statistically robust assessment of SAT-HEV and HEV-specific real-time PCR plus sequencing reached 99.0% (196/198), with a kappa value of 0.97, and 99.5% (197/198) and a kappa value of 0.99 for CA16, respectively. Additionally, IC prevented false-negative readings and assured the SAT-HEV/SAT-CA16 method's accuracy. Overall, SAT-HEV/SAT-CA16 method may serve as a platform for the simple and rapid detection of HEV/CA16 in time of HFMD outbreak.