Author: Lee, Hong Kai; Loh, Tze Ping; Lee, Chun Kiat; Tang, Julian Weiâ€Tze; Chiu, Lily; Koay, Evelyn Siewâ€Chuan
Title: A Universal Influenza A and B Duplex Realâ€time RTâ€PCR Assay Cord-id: eke5pwe3 Document date: 2012_8_15
ID: eke5pwe3
Snippet: A high throughput universal influenza A and B duplex realâ€time RTâ€PCR was developed to meet effectively the heightened surveillance and diagnostic needs essential in managing influenza infections and outbreaks. Primers and probes, designed to target highly conserved regions of the matrix protein of influenza A and the nucleoprotein of influenza B, were optimized using the highâ€throughput LightCycler 480 II system. Analytical sensitivity and specificity were characterized using RNA transcri
Document: A high throughput universal influenza A and B duplex realâ€time RTâ€PCR was developed to meet effectively the heightened surveillance and diagnostic needs essential in managing influenza infections and outbreaks. Primers and probes, designed to target highly conserved regions of the matrix protein of influenza A and the nucleoprotein of influenza B, were optimized using the highâ€throughput LightCycler 480 II system. Analytical sensitivity and specificity were characterized using RNA transcripts diluted serially, archived nonâ€influenza respiratory viruses, and proficiency test samples. Eightyâ€nine clinical samples were tested in parallel against existing influenza A and B monoplex assays. Once validated, the duplex assay was applied prospectively on 2,458 clinical specimens that were later subtyped. In April 2011, the emergence of an influenza B variant necessitated the inclusion of an additional modified probe for influenza B and revalidation of the revised protocol. The lower detection limits of the assay were 50 copies/PCR. There was no crossâ€reactivity against any nonâ€influenza respiratory virus and all proficiency testing materials were identified correctly. The parallel testing revealed a 98.9% overall agreement. Routine application of the assay revealed high sensitivity and specificity for the detection of influenza A/H1N1/2009, A/H3N2 and influenza B. Assay C(q) values correlated well between the pre†and postâ€revision protocols for influenza A (r(2) = 0.998) and B (r(2) = 0.999). The revised protocol detected three additional novel influenza B variant cases in 200 specimens reported previously as influenza B negative. This inâ€house assay offers a highly sensitive and specific option for laboratories seeking to expand their influenza testing capacity. J. Med. Virol. 84:1646–1651, 2012. © 2012 Wiley Periodicals, Inc.
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