Drug Resistance Patterns and Virus Re-suppression Among HIV-1 Subtype C Infected Patients Receiving Non-nucleoside Reverse Transcriptase Inhibitors in South Africa

Overview

Journal J AIDS Clin Res

Date 2011 Sep 20

PMID 21927716

Citations 17

Authors

Ziad El-Khatib

Allison K Delong

David Katzenstein

Anna Mia Ekstrom

Johanna Ledwaba

Lerato Mohapi

Fatima Laher

Max Petzold

Lynn Morris

Rami Kantor

Affiliations

Soon will be listed here.

Abstract

BACKGROUND: Emergence of HIV-1 drug resistance is at times an inevitable and anticipated consequence of antiretroviral therapy (ART) failure. We examined drug resistance patterns and virus re-suppression among subtype C-infected South African patients receiving first-line ART. METHODS: Treatment records of 431 patients on NNRTI-containing regimens for a median of 45 months were analyzed. Patients with viral load (VL) >400 copies/mL were followed and drug resistance mutations (DRM) were re-assessed. Associations between clinical/demographic measures and drug resistance/virologic outcomes were examined using Fisher exact and ordinal and logistic regression. RESULTS: Ten percent of patients (43/431) were viremic at enrollment (98% previously suppressed); sequences were obtained from 38/43. Of those, 82% had 1-7 DRM. In bivariate analysis remote exposure to single-dose nevirapine or prior ART; higher CD4 counts; lower VL; and >6 months of virologic failure were significantly associated with number of DRM. Of 25 viremic patients followed for a median of 8 months on a continued first-line regimen, 12 (48%) re-suppressed, six with K103N and three with M184V. Thirteen (52%) had continued virologic failure which was significantly associated with detectable VL>6 months prior to enrollment and number of DRM. CONCLUSION: Among these HIV-1 subtype C-infected patients, DRM numbers and patterns were associated with prior exposure to sub-optimal ART, adherence and duration of virologic failure. Viral re-suppression in the presence of K103N and M184V challenges assumptions about drug resistance. In resource-limited settings, where genotyping and alternative drug options are unavailable, continuing first-line treatment, reinforcing adherence and regular virologic monitoring may be effective even after virologic failure.

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