Viral load detection and management on first line ART in rural Rwanda

BACKGROUND: To achieve the ambitious 90–90-90 UNAIDS targets, access to routine viral load (VL) is critical. To measure VL, Rwanda has relied on a national reference laboratory for years. In 2014, a VL testing platform was implemented in a rural District in the Northern Province. Here we analyze the...

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Autores principales: Ndagijimana Ntwali, Jean de Dieu, Decroo, Tom, Ribakare, Muhayimpundu, Kiromera, Athanase, Mugwaneza, Placidie, Nsanzimana, Sabin, Lynen, Lutgarde
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2019
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6318862/
https://www.ncbi.nlm.nih.gov/pubmed/30606128
http://dx.doi.org/10.1186/s12879-018-3639-y
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author Ndagijimana Ntwali, Jean de Dieu
Decroo, Tom
Ribakare, Muhayimpundu
Kiromera, Athanase
Mugwaneza, Placidie
Nsanzimana, Sabin
Lynen, Lutgarde
author_facet Ndagijimana Ntwali, Jean de Dieu
Decroo, Tom
Ribakare, Muhayimpundu
Kiromera, Athanase
Mugwaneza, Placidie
Nsanzimana, Sabin
Lynen, Lutgarde
author_sort Ndagijimana Ntwali, Jean de Dieu
collection PubMed
description BACKGROUND: To achieve the ambitious 90–90-90 UNAIDS targets, access to routine viral load (VL) is critical. To measure VL, Rwanda has relied on a national reference laboratory for years. In 2014, a VL testing platform was implemented in a rural District in the Northern Province. Here we analyze the uptake of VL testing, identification of risks for detectable VL (≥1000 copies/ml), and the management of patients with a detectable VL. METHODS: A retrospective cohort study of patients who started ART between July 2012 and June 2015 and followed until end December 2016. Using descriptive statistics, we describe the VL cascade, from VL uptake to the start of second-line ART in patients diagnosed with virological failure. We estimate predictors of having a detectable VL using logistic regression. RESULTS: The uptake of VL testing increased progressively between 2013 and 2016, raising from 25.6% (39/152) in 2013 up to 93.2% (510/547) in 2016.In 2016, 88.5% (n = 451) of patients tested, had a suppressed VL. Predictors of having a detectable VL included being male (aOR 2.1; 95%CI 1.12–4.02; p = 0.02), being a sex worker (aOR 6.4; 95%CI 1.1–36.0; p = 0.04), having a WHO clinical stage IV when starting ART (aOR 8.8; 95%CI 1.8–43.0; p < 0.001), having had a previous detectable VL (aOR 7.2; 95%CI 3.5–14.5; p < 0.001), and having had no VL before 2016 (aOR 3.1; 95%CI 1.2–8.1; p = 0.02). Among patients with initial detectable VL between 2013 and 2016, 88% (n = 103) had a follow-up VL, of whom 60.2% (n = 62) suppressed their VL below 1000 copies/ml. The median time between the initial and follow-up VL was of 12.5 months (IQR: 8.7–19.0). Among patients with confirmed treatment failure, 63.4% (n = 26) started second-line ART within the study period. CONCLUSION: VL uptake increased after decentralizing VL testing in rural Rwanda. Virological suppression was high. An individualized follow up of patients at risk of non-suppression and a prompt management of patients with detectable VL may help to achieve and sustain the third global UNAIDS target: virological suppression in 90% of patients on ART.
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spelling pubmed-63188622019-01-08 Viral load detection and management on first line ART in rural Rwanda Ndagijimana Ntwali, Jean de Dieu Decroo, Tom Ribakare, Muhayimpundu Kiromera, Athanase Mugwaneza, Placidie Nsanzimana, Sabin Lynen, Lutgarde BMC Infect Dis Research Article BACKGROUND: To achieve the ambitious 90–90-90 UNAIDS targets, access to routine viral load (VL) is critical. To measure VL, Rwanda has relied on a national reference laboratory for years. In 2014, a VL testing platform was implemented in a rural District in the Northern Province. Here we analyze the uptake of VL testing, identification of risks for detectable VL (≥1000 copies/ml), and the management of patients with a detectable VL. METHODS: A retrospective cohort study of patients who started ART between July 2012 and June 2015 and followed until end December 2016. Using descriptive statistics, we describe the VL cascade, from VL uptake to the start of second-line ART in patients diagnosed with virological failure. We estimate predictors of having a detectable VL using logistic regression. RESULTS: The uptake of VL testing increased progressively between 2013 and 2016, raising from 25.6% (39/152) in 2013 up to 93.2% (510/547) in 2016.In 2016, 88.5% (n = 451) of patients tested, had a suppressed VL. Predictors of having a detectable VL included being male (aOR 2.1; 95%CI 1.12–4.02; p = 0.02), being a sex worker (aOR 6.4; 95%CI 1.1–36.0; p = 0.04), having a WHO clinical stage IV when starting ART (aOR 8.8; 95%CI 1.8–43.0; p < 0.001), having had a previous detectable VL (aOR 7.2; 95%CI 3.5–14.5; p < 0.001), and having had no VL before 2016 (aOR 3.1; 95%CI 1.2–8.1; p = 0.02). Among patients with initial detectable VL between 2013 and 2016, 88% (n = 103) had a follow-up VL, of whom 60.2% (n = 62) suppressed their VL below 1000 copies/ml. The median time between the initial and follow-up VL was of 12.5 months (IQR: 8.7–19.0). Among patients with confirmed treatment failure, 63.4% (n = 26) started second-line ART within the study period. CONCLUSION: VL uptake increased after decentralizing VL testing in rural Rwanda. Virological suppression was high. An individualized follow up of patients at risk of non-suppression and a prompt management of patients with detectable VL may help to achieve and sustain the third global UNAIDS target: virological suppression in 90% of patients on ART. BioMed Central 2019-01-03 /pmc/articles/PMC6318862/ /pubmed/30606128 http://dx.doi.org/10.1186/s12879-018-3639-y Text en © The Author(s). 2019 Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
spellingShingle Research Article
Ndagijimana Ntwali, Jean de Dieu
Decroo, Tom
Ribakare, Muhayimpundu
Kiromera, Athanase
Mugwaneza, Placidie
Nsanzimana, Sabin
Lynen, Lutgarde
Viral load detection and management on first line ART in rural Rwanda
title Viral load detection and management on first line ART in rural Rwanda
title_full Viral load detection and management on first line ART in rural Rwanda
title_fullStr Viral load detection and management on first line ART in rural Rwanda
title_full_unstemmed Viral load detection and management on first line ART in rural Rwanda
title_short Viral load detection and management on first line ART in rural Rwanda
title_sort viral load detection and management on first line art in rural rwanda
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6318862/
https://www.ncbi.nlm.nih.gov/pubmed/30606128
http://dx.doi.org/10.1186/s12879-018-3639-y
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