Detection of minority drug resistant mutations in Malawian HIV-1 subtype C-positive patients initiating and on first-line antiretroviral therapy
African Journal of Laboratory Medicine
| Field | Value | |
| Title | Detection of minority drug resistant mutations in Malawian HIV-1 subtype C-positive patients initiating and on first-line antiretroviral therapy | |
| Creator | Zhou, Zhiyong Tang, Kevin Zhang, Guoqing Wadonda-Kabondo, Nellie Moyo, Kundai Rowe, Lori A. DeVos, Joshua R. Wagar, Nick Zheng, Du-Ping Guo, Hongxiong Nkengasong, John Frace, Mike Sammons, Scott Yang, Chunfu | |
| Description | Background: Minority drug resistance mutations (DRMs) that are often missed by Sanger sequencing are clinically significant, as they can cause virologic failure in individuals treated with antiretroviral therapy (ART) drugs.Objective: This study aimed to estimate the prevalence of minor DRMs among patients enrolled in a Malawi HIV drug resistance monitoring survey at baseline and at one year after initiation of ART.Methods: Forty-one plasma specimens collected from HIV-1 subtype C-positive patients and seven clonal control samples were analysed using ultra-deep sequencing technology.Results: Deep sequencing identified all 72 DRMs detected by Sanger sequencing at the level of ≥20% and 79 additional minority DRMs at the level of 20% from the 41 Malawian clinical specimens. Overall, DRMs were detected in 85% of pre-ART and 90.5% of virologic failure patients by deep sequencing. Among pre-ART patients, deep sequencing identified a statistically significant higher prevalence of DRMs to nucleoside reverse transcriptase inhibitors (NRTIs) compared with Sanger sequencing. The difference was mainly due to the high prevalence of minority K65R and M184I mutations. Most virologic failure patients harboured DRMs against both NRTIs and non-nucleoside reverse transcriptase inhibitors (NNRTIs). These minority DRMs contributed to the increased or enhanced virologic failures in these patients.Conclusion: The results revealed the presence of minority DRMs to NRTIs and NNRTIs in specimens collected at baseline and virologic failure time points. These minority DRMs not only increased resistance levels to NRTIs and NNRTIs for the prescribed ART, but also expanded resistance to additional major first-line ART drugs. This study suggested that drug resistance testing that uses more sensitive technologies, is needed in this setting. | |
| Publisher | AOSIS | |
| Date | 2018-05-30 | |
| Identifier | 10.4102/ajlm.v7i1.708 | |
| Source | African Journal of Laboratory Medicine; Vol 7, No 1 (2018); 9 pages 2225-2010 2225-2002 | |
| Language | eng | |
| Relation |
The following web links (URLs) may trigger a file download or direct you to an alternative webpage to gain access to a publication file format of the published article:
https://ajlmonline.org/index.php/ajlm/article/view/708/1005
https://ajlmonline.org/index.php/ajlm/article/view/708/1004
https://ajlmonline.org/index.php/ajlm/article/view/708/1006
https://ajlmonline.org/index.php/ajlm/article/view/708/1003
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