Abstract

The human adenovirus (HAdV) has shown greater environmental persistence, more water treatment resistance than bacteria, and cause infection even at low concentrations. HAdV causes gastrointestinal illnesses and is abundant in various environmental samples such as groundwater, surface water, recreational water, and drinking water. The detection of these pathogens calls for a more practical and affordable approach. A recent technology based on the quenching of unincorporated amplification signal reporters (QUASR) was adapted for the detection of human adenoviruses. This technology allows for non-inhibitory, single-step DNA detection in a closed tube. The QUASR-(loop-mediated isothermal amplification (LAMP) assay was previously optimized and was tested for its applicability to detect enteric HAdV in two areas where people can unintentionally be exposed to contaminated water. A total of 203 water samples were collected and tested using both real-time PCR and QUASR-LAMP assays. Results showed a higher positivity rate of 78.82 % (160/203) for QUASR-LAMP compared to qPCR with only 58.62 % (119/203). The sensitivity and specificity rates for QUASR-LAMP were calculated at 86.55 % and 32.14 %, respectively, when compared to qPCR. The QUASR-LAMP assay's ability to detect target analytes even at low concentrations can be attributed to its increased diagnostic sensitivity but lower specificity since there were samples that were positive in PCR but negative in the QUASR-LAMP assay. However, this characteristic does not diminish its utility as a valuable tool for the detection of HAdV. In fact, this attribute enhances its advantages in situations with constrained space and instrumentation requirements, making it suitable for rapid surveillance of important viruses. Finally, the capacity of the QUASR-LAMP assay to differentiate between positive and negative samples at a defined endpoint is highly beneficial for laboratory technicians who possess limited molecular biology expertise or experience. The QUASR-LAMP platform has demonstrated its usefulness as a diagnostic tool for surveillance of enteric adenoviruses in water sources.

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