Detection of nine respiratory RNA viruses using three multiplex RT-PCR assays incorporating a novel RNA internal control transcript.

Real-time PCR is a significant improvement over viral isolation and immunofluorescence for routinely detecting respiratory viruses. We developed three real-time internally controlled multiplex RT-PCR assays for detecting nine respiratory viruses. An internal control transcript consisting of a chimeric plasmid was synthesised and incorporated into each multiplex to monitor amplification efficiency, including inhibition. Each multiplex assay was developed on the Rotor-Gene 3000 and evaluated using RNA extracts from 126 nasopharyngeal aspirates from 112 pre-term infants. All 44/126 (35%) samples positive by immunofluorescence were confirmed by multiplex RT-PCR. Additionally, respiratory syncytial virus RNA was detected in 5 samples, influenza A virus RNA in 2 samples and thirteen (10%) dual infections by multiplex RT-PCR were noted. Inclusion of the RNA internal control did not affect the amplification efficiency of the target sequences and only 2 of 1256 (0.2%) samples tested over a 12 month period were inhibitory. Together with the improved sensitivity of the internally controlled multiplex RT-PCR assays over the older technology and the ability to detect co-infections, the internal control monitored the efficiency of both the RT and PCR steps and indicated inhibition, saving time and costs on running duplicate samples with a "spiked" inhibition control.