HIV Virologic Response, Patterns of Drug Resistance Mutations and Correlates Among Adolescents and Young Adults: A Cross-sectional Study in Tanzania

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2023 Feb 23

PMID 36821538

Authors

Joan Rugemalila

Doreen Kamori

Peter Kunambi

Mucho Mizinduko

Amon Sabasaba

Salim Masoud

Frank Msafiri

Sabina Mugusi

Rita Mutagonda

Linda Mlunde

Davis Amani

Erick Mboya

Macdonald Mahiti

George Ruhago

Jeremiah Mushi

Veryeh Sambu

George Mgomella

Boniface Jullu

Werner Maokola

Prosper Njau

Beatrice Mutayoba

Godfrey Barabona

Takamasa Ueno

Andrea Pembe

Tumaini Nagu

Bruno Sunguya

Said Aboud

Affiliations

Soon will be listed here.

Abstract

Background: The emergence of HIV drug resistance mutations (DRMs) is of significant threat to achieving viral suppression (VS) in the quest to achieve global elimination targets. We hereby report virologic outcomes and patterns of acquired DRMs and its associated factors among adolescents and young adults (AYA) from a broader HIV drug resistance surveillance conducted in Tanzania.

Methods: Data of AYA was extracted from a cross-sectional study conducted in 36 selected facilities using a two-stage cluster sampling design. Dried blood spot (DBS) samples were collected and samples with a viral load (VL) ≥1000 copies/mL underwent genotyping for the HIV-1 pol gene. Stanford HIV database algorithm predicted acquired DRMs, Fisher's exact test and multivariable logistic regression assessed factors associated with DRMs and VS, respectively.

Findings: We analyzed data of 578 AYA on antiretroviral therapy (ART) for 9-15 and ≥ 36 months; among them, 91.5% and 88.2% had VS (VL<1000copies/mL) at early and late time points, respectively. Genotyping of 64 participants (11.2%) who had VL ≥1000 copies/ml detected 71.9% of any DRM. Clinically relevant DRMs were K103N, M184V, M41L, T215Y/F, L210W/L, K70R, D67N, L89V/T, G118R, E138K, T66A, T97A and unexpectedly absent K65R. Participants on a protease inhibitor (PI) based regimen were twice as likely to not achieve VS compared to those on integrase strand transfer inhibitors (INSTI). The initial VL done 6 months after ART initiation of ≥1000copies/mL was the primary factor associated with detecting DRMs (p = .019).

Conclusions: VS amongst AYA is lower than the third UNAIDs target. Additionally, a high prevalence of ADR and high levels of circulating clinically relevant DRMs may compromise the long-term VS in AYA. Furthermore, the first VL result of ≥1000copies/ml after ART initiation is a significant risk factor for developing DRMs. Thus, strict VL monitoring for early identification of treatment failure and genotypic testing during any ART switch is recommended to improve treatment outcomes for AYA.

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