Using NS1 Flavivirus Protein Microarray to Infer Past Infecting Dengue Virus Serotype and Number of Past Dengue Virus Infections in Vietnamese Individuals

Abstract Background In recent years, researchers have had an increased focus on multiplex microarray assays, in which antibodies are measured against multiple related antigens, for use in seroepidemiological studies to infer past transmission. Methods We assess the performance of a flavivirus microa...

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Published inThe Journal of infectious diseases Vol. 223; no. 12; pp. 2053 - 2061
Main Authors Thao, Tran Thi Nhu, de Bruin, Erwin, Phuong, Huynh Thi, Thao Vy, Nguyen Ha, van den Ham, Henk-Jan, Wills, Bridget A, Tien, Nguyen Thi Hanh, Le Duyen, Huynh Thi, Trung, Dinh The, Whitehead, Stephen S, Boni, Maciej F, Koopmans, Marion, Clapham, Hannah E
Format Journal Article
LanguageEnglish
Published US Oxford University Press 15.06.2021
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Summary:Abstract Background In recent years, researchers have had an increased focus on multiplex microarray assays, in which antibodies are measured against multiple related antigens, for use in seroepidemiological studies to infer past transmission. Methods We assess the performance of a flavivirus microarray assay for determining past dengue virus (DENV) infection history in a dengue-endemic setting, Vietnam. We tested the microarray on samples from 1 and 6 months postinfection from DENV-infected patients (infecting serotype was determined using reverse-transcription polymerase chain reaction during acute, past primary, and secondary infection assessed using plaque reduction neutralization tests 6 months postinfection). Results Binomial models developed to discriminate past primary from secondary infection using the protein microarray (PMA) titers had high area under the curve (0.90–0.97) and accuracy (0.84–0.86). Multinomial models developed to identify most recent past infecting serotype using PMA titers performed well in those with past primary infection (average test set: κ = 0.85, accuracy of 0.92) but not those with past secondary infection (κ = 0.24, accuracy of 0.45). Conclusions Our results suggest that the microarray will be useful in seroepidemiological studies aimed at classifying the past infection history of individuals (past primary vs secondary and serotype of past primary infections) and thus inferring past transmission intensity of DENV in dengue-endemic settings. Future work to validate these models should be undertaken in different transmission settings and with samples later after infection. The results of testing serological samples from an endemic setting with flavivirus protein microarray assays can be used to infer whether individuals have had 1 or 2 past dengue infections and what the infecting serotype was after 1 infection.
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ISSN:0022-1899
1537-6613
DOI:10.1093/infdis/jiaa018