| Literature DB >> 28346838 |
Mi Young Ahn1, Joel O Wertheim2, Woo Joo Kim3, Shin-Woo Kim4, Jin Soo Lee5, Hea Won Ann1, Yongduk Jeon1, Jin Young Ahn1, Je Eun Song1, Dong Hyun Oh1, Yong Chan Kim1, Eun Jin Kim1, In Young Jung1, Moo Hyun Kim1, Wooyoung Jeong1, Su Jin Jeong1, Nam Su Ku1,6, June Myung Kim1,6, Davey M Smith2, Jun Yong Choi1,6.
Abstract
Molecular epidemiology can help clarify the properties and dynamics of HIV-1 transmission networks in both global and regional scales. We studied 143 HIV-1-infected individuals recruited from four medical centers of three cities in South Korea between April 2013 and May 2014. HIV-1 env V3 sequence data were generated (337-793 bp) and analyzed using a pairwise distance-based clustering approach to infer putative transmission networks. Participants whose viruses were ≤2.0% divergent according to Tamura-Nei 93 genetic distance were defined as clustering. We collected demographic, risk, and clinical data and analyzed these data in relation to clustering. Among 143 participants, we identified nine putative transmission clusters of different sizes (range 2-4 participants). The reported risk factor of participants were concordant in only one network involving two participants, that is, both individuals reported homosexual sex as their risk factor. The participants in the other eight networks did not report concordant risk factors, although they were phylogenetically linked. About half of the participants refused to report their risk factor. Overall, molecular epidemiology provides more information to understand local transmission networks and the risks associated with these networks.Entities:
Keywords: HIV transmission network; HIV-1 env V3 sequence; South Korea
Mesh:
Year: 2017 PMID: 28346838 PMCID: PMC5564048 DOI: 10.1089/aid.2016.0212
Source DB: PubMed Journal: AIDS Res Hum Retroviruses ISSN: 0889-2229 Impact factor: 2.205