Estimating the timing of mother-to-child transmission of the human immunodeficiency virus type 1 using a viral molecular evolution model
Background: Mother-to-child transmission (MTCT) is responsible for most pediatric HIV-1 infections worldwide. It can occur during pregnancy, labor, or breastfeeding. Numerous studies have used coalescent and molecular clock methods to understand the epidemic history of HIV-1, but the timing of verti...
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th-cmuir.6653943832-450742018-01-24T06:05:01Z Estimating the timing of mother-to-child transmission of the human immunodeficiency virus type 1 using a viral molecular evolution model Antoine Chaillon Tanawan Samleerat Faustine Zoveda Sébastien Ballesteros Alain Moreau Nicole Ngo-Giang-Huong Gonzague Jourdain Sara Gianella Marc Lallemant Frantz Depaulis Francis Barin Background: Mother-to-child transmission (MTCT) is responsible for most pediatric HIV-1 infections worldwide. It can occur during pregnancy, labor, or breastfeeding. Numerous studies have used coalescent and molecular clock methods to understand the epidemic history of HIV-1, but the timing of vertical transmission has not been studied using these methods. Taking advantage of the constant accumulation of HIV genetic variation over time and using longitudinally sampled viral sequences, we used a coalescent approach to investigate the timing of MTCT. Materials and Methods: Six-hundred and twenty-two clonal env sequences from the RNA and DNA viral population were longitudinally sampled from nine HIV-1 infected mother-and-child pairs [range: 277-1034 days]. For each transmission pair, timing of MTCT was determined using a coalescent-based model within a Bayesian statistical framework. Results were compared with available estimates of MTCT timing obtained with the classic biomedical approach based on serial HIV DNA detection by PCR assays. Results: Four children were infected during pregnancy, whereas the remaining five children were infected at time of delivery. For eight out of nine pairs, results were consistent with the transmission periods assessed by standard PCR-based assay. The discordance in the remaining case was likely confused by co-infection, with simultaneous introduction of multiple maternal viral variants at the time of delivery. Conclusions: The study provided the opportunity to validate the Bayesian coalescent approach that determines the timing of MTCT of HIV-1. It illustrates the power of population genetics approaches to reliably estimate the timing of transmission events and deepens our knowledge about the dynamics of viral evolution in HIV-infected children, accounting for the complexity of multiple transmission events. © 2014 Chaillon et al. 2018-01-24T06:05:01Z 2018-01-24T06:05:01Z 2014-04-09 Journal 19326203 2-s2.0-84899580589 10.1371/journal.pone.0090421 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84899580589&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/45074 |
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Background: Mother-to-child transmission (MTCT) is responsible for most pediatric HIV-1 infections worldwide. It can occur during pregnancy, labor, or breastfeeding. Numerous studies have used coalescent and molecular clock methods to understand the epidemic history of HIV-1, but the timing of vertical transmission has not been studied using these methods. Taking advantage of the constant accumulation of HIV genetic variation over time and using longitudinally sampled viral sequences, we used a coalescent approach to investigate the timing of MTCT. Materials and Methods: Six-hundred and twenty-two clonal env sequences from the RNA and DNA viral population were longitudinally sampled from nine HIV-1 infected mother-and-child pairs [range: 277-1034 days]. For each transmission pair, timing of MTCT was determined using a coalescent-based model within a Bayesian statistical framework. Results were compared with available estimates of MTCT timing obtained with the classic biomedical approach based on serial HIV DNA detection by PCR assays. Results: Four children were infected during pregnancy, whereas the remaining five children were infected at time of delivery. For eight out of nine pairs, results were consistent with the transmission periods assessed by standard PCR-based assay. The discordance in the remaining case was likely confused by co-infection, with simultaneous introduction of multiple maternal viral variants at the time of delivery. Conclusions: The study provided the opportunity to validate the Bayesian coalescent approach that determines the timing of MTCT of HIV-1. It illustrates the power of population genetics approaches to reliably estimate the timing of transmission events and deepens our knowledge about the dynamics of viral evolution in HIV-infected children, accounting for the complexity of multiple transmission events. © 2014 Chaillon et al. |
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Antoine Chaillon Tanawan Samleerat Faustine Zoveda Sébastien Ballesteros Alain Moreau Nicole Ngo-Giang-Huong Gonzague Jourdain Sara Gianella Marc Lallemant Frantz Depaulis Francis Barin |
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Antoine Chaillon Tanawan Samleerat Faustine Zoveda Sébastien Ballesteros Alain Moreau Nicole Ngo-Giang-Huong Gonzague Jourdain Sara Gianella Marc Lallemant Frantz Depaulis Francis Barin Estimating the timing of mother-to-child transmission of the human immunodeficiency virus type 1 using a viral molecular evolution model |
author_facet |
Antoine Chaillon Tanawan Samleerat Faustine Zoveda Sébastien Ballesteros Alain Moreau Nicole Ngo-Giang-Huong Gonzague Jourdain Sara Gianella Marc Lallemant Frantz Depaulis Francis Barin |
author_sort |
Antoine Chaillon |
title |
Estimating the timing of mother-to-child transmission of the human immunodeficiency virus type 1 using a viral molecular evolution model |
title_short |
Estimating the timing of mother-to-child transmission of the human immunodeficiency virus type 1 using a viral molecular evolution model |
title_full |
Estimating the timing of mother-to-child transmission of the human immunodeficiency virus type 1 using a viral molecular evolution model |
title_fullStr |
Estimating the timing of mother-to-child transmission of the human immunodeficiency virus type 1 using a viral molecular evolution model |
title_full_unstemmed |
Estimating the timing of mother-to-child transmission of the human immunodeficiency virus type 1 using a viral molecular evolution model |
title_sort |
estimating the timing of mother-to-child transmission of the human immunodeficiency virus type 1 using a viral molecular evolution model |
publishDate |
2018 |
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https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84899580589&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/45074 |
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1681422677629206528 |