A multiplexed real‐time PCR assay for simultaneous quantification of human immunodeficiency virus and Hepatitis B virus for low‐and‐middle‐ income countries

Djeneba Bocar Fofana; Tenin Aminatou Coulibaly; Mamoudou Maiga; Thuy Nguyen; Joël Gozlan; Zoumana Diarra; Amadou Koné; Yacouba Cissoko; Almoustapha Issiaka Maiga; Claudia A. Hawkins; Robert L. Murphy; Laurence Morand-Joubert; Mahamadou Diakité; Jane L. Holl; Sally M. McFall

doi:10.1016/j.jviromet.2024.115026

A multiplexed real‐time PCR assay for simultaneous quantification of human immunodeficiency virus and Hepatitis B virus for low‐and‐middle‐ income countries

Djeneba Bocar Fofana^*, Tenin Aminatou Coulibaly, Mamoudou Maiga, Thuy Nguyen, Joël Gozlan, Zoumana Diarra, Amadou Koné, Yacouba Cissoko, Almoustapha Issiaka Maiga, Claudia A. Hawkins, Robert L. Murphy, Laurence Morand-Joubert, Mahamadou Diakité, Jane L. Holl, Sally M. McFall

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Due to shared routes of transmission, including sexual contact and vertical transmission, HIV-HBV co-infection is common, particularly in sub-Saharan Africa. Measurement of viral load (VL), for both HIV and HBV, plays a critical role for determining their infectious phase and monitoring response to antiviral therapy. Implementation of viral load testing in clinical settings is a significant challenge in resource-limited countries, notably because of cost and availability issues. We designed HIV and HBV primers for conserved regions of the HIV and HBV genomes that were specifically adapted to viral strains circulating in West Africa that are HIV-1 subtype CRF02AG and HBV genotype E. We first validated two monoplex qPCR assays for individual quantification and, then developed a multiplex qPCR for simultaneous quantification of both viruses. HIV RNA and HBV DNA amplification was performed in a single tube using a one-step reverse transcription-PCR reaction with primers and probes targeting both viruses. Performance characteristics such as the quantification range, sensitivity, and specificity of this multiplex qPCR assay were compared to reference qPCR tests for both HIV and HBV viral load quantification. The multiplex assay was validated using clinical samples from co- or mono-infected patients and gave comparable viral load quantification to the HIV and HBV reference test respectively. The multiplex qPCR demonstrated an overall sensitivity of 71.25 % [68.16–74.3] for HBV and 82 % [78.09–85.90] for HIV and an overall specificity of 100 % [94.95–100] for both viruses. Although the overall sensitivities of the HIV and HBV assays were lower than the commercial comparator assays, the sensitivity in the clinical decision range of >1000 copies/mL for HIV was 80 % [71.26–88.73] and >1000 IU/mL for HBV was 100 % [95.51–100] which indicates the test results can be used to guide treatment decisions. This in-house developed multiplex qPCR assay represents a useful diagnostic tool as it can be performed on affordable “open” real-time PCR platforms currently used for HIV or SARS-Cov-2 infection surveillance in Mali.

Original language	English (US)
Article number	115026
Journal	Journal of Virological Methods
Volume	330
DOIs	https://doi.org/10.1016/j.jviromet.2024.115026
State	Published - Dec 2024

Funding

This research was supported by Fogarty International Center, grant number: K43TW011957 for DBF, the National Institute of Biomedical Imaging and Bioengineering of the National Institutes of Health under Award Number U54EB027049 and the Fogarty International Center of the National Institutes of Health under award number Building the Next Generation of Researchers in TB/HIV Diagnostics in Mali (B-NextGen) Mali, D43TW010350, Agence Nationale de la Recherche sur le SIDA et les Maladies Infectieuses Emergentes (ANRS MIE) ANRS-MIE22295. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. This research was supported by Fogarty International Center, grant number: K43TW011957 for DBF, the National Institute of Biomedical Imaging and Bioengineering of the National Institutes of Health under Award Number U54EB027049 and the Fogarty International Center of the National Institutes of Health under award number Building the Next Generation of Researchers in TB/HIV Diagnostics in Mali (B-NextGen) Mali, D43TW010350. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health.

Keywords

HBV DNA
Hepatitis B virus
Real-time PCR
Viral load

ASJC Scopus subject areas

Virology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.jviromet.2024.115026

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Fofana, D. B., Coulibaly, T. A., Maiga, M., Nguyen, T., Gozlan, J., Diarra, Z., Koné, A., Cissoko, Y., Maiga, A. I., Hawkins, C. A., Murphy, R. L., Morand-Joubert, L., Diakité, M., Holl, J. L., & McFall, S. M. (2024). A multiplexed real‐time PCR assay for simultaneous quantification of human immunodeficiency virus and Hepatitis B virus for low‐and‐middle‐ income countries. Journal of Virological Methods, 330, Article 115026. https://doi.org/10.1016/j.jviromet.2024.115026

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title = "A multiplexed real‐time PCR assay for simultaneous quantification of human immunodeficiency virus and Hepatitis B virus for low‐and‐middle‐ income countries",

abstract = "Due to shared routes of transmission, including sexual contact and vertical transmission, HIV-HBV co-infection is common, particularly in sub-Saharan Africa. Measurement of viral load (VL), for both HIV and HBV, plays a critical role for determining their infectious phase and monitoring response to antiviral therapy. Implementation of viral load testing in clinical settings is a significant challenge in resource-limited countries, notably because of cost and availability issues. We designed HIV and HBV primers for conserved regions of the HIV and HBV genomes that were specifically adapted to viral strains circulating in West Africa that are HIV-1 subtype CRF02AG and HBV genotype E. We first validated two monoplex qPCR assays for individual quantification and, then developed a multiplex qPCR for simultaneous quantification of both viruses. HIV RNA and HBV DNA amplification was performed in a single tube using a one-step reverse transcription-PCR reaction with primers and probes targeting both viruses. Performance characteristics such as the quantification range, sensitivity, and specificity of this multiplex qPCR assay were compared to reference qPCR tests for both HIV and HBV viral load quantification. The multiplex assay was validated using clinical samples from co- or mono-infected patients and gave comparable viral load quantification to the HIV and HBV reference test respectively. The multiplex qPCR demonstrated an overall sensitivity of 71.25 % [68.16–74.3] for HBV and 82 % [78.09–85.90] for HIV and an overall specificity of 100 % [94.95–100] for both viruses. Although the overall sensitivities of the HIV and HBV assays were lower than the commercial comparator assays, the sensitivity in the clinical decision range of >1000 copies/mL for HIV was 80 % [71.26–88.73] and >1000 IU/mL for HBV was 100 % [95.51–100] which indicates the test results can be used to guide treatment decisions. This in-house developed multiplex qPCR assay represents a useful diagnostic tool as it can be performed on affordable “open” real-time PCR platforms currently used for HIV or SARS-Cov-2 infection surveillance in Mali.",

keywords = "HBV DNA, Hepatitis B virus, Real-time PCR, Viral load",

author = "Fofana, {Djeneba Bocar} and Coulibaly, {Tenin Aminatou} and Mamoudou Maiga and Thuy Nguyen and Jo{\"e}l Gozlan and Zoumana Diarra and Amadou Kon{\'e} and Yacouba Cissoko and Maiga, {Almoustapha Issiaka} and Hawkins, {Claudia A.} and Murphy, {Robert L.} and Laurence Morand-Joubert and Mahamadou Diakit{\'e} and Holl, {Jane L.} and McFall, {Sally M.}",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors",

year = "2024",

month = dec,

doi = "10.1016/j.jviromet.2024.115026",

language = "English (US)",

volume = "330",

journal = "Journal of Virological Methods",

issn = "0166-0934",

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Fofana, DB, Coulibaly, TA, Maiga, M, Nguyen, T, Gozlan, J, Diarra, Z, Koné, A, Cissoko, Y, Maiga, AI, Hawkins, CA , Murphy, RL, Morand-Joubert, L, Diakité, M, Holl, JL & McFall, SM 2024, 'A multiplexed real‐time PCR assay for simultaneous quantification of human immunodeficiency virus and Hepatitis B virus for low‐and‐middle‐ income countries', Journal of Virological Methods, vol. 330, 115026. https://doi.org/10.1016/j.jviromet.2024.115026

A multiplexed real‐time PCR assay for simultaneous quantification of human immunodeficiency virus and Hepatitis B virus for low‐and‐middle‐ income countries. / Fofana, Djeneba Bocar; Coulibaly, Tenin Aminatou; Maiga, Mamoudou et al.
In: Journal of Virological Methods, Vol. 330, 115026, 12.2024.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - A multiplexed real‐time PCR assay for simultaneous quantification of human immunodeficiency virus and Hepatitis B virus for low‐and‐middle‐ income countries

AU - Fofana, Djeneba Bocar

AU - Coulibaly, Tenin Aminatou

AU - Maiga, Mamoudou

AU - Nguyen, Thuy

AU - Gozlan, Joël

AU - Diarra, Zoumana

AU - Koné, Amadou

AU - Cissoko, Yacouba

AU - Maiga, Almoustapha Issiaka

AU - Hawkins, Claudia A.

AU - Murphy, Robert L.

AU - Morand-Joubert, Laurence

AU - Diakité, Mahamadou

AU - Holl, Jane L.

AU - McFall, Sally M.

PY - 2024/12

Y1 - 2024/12

N2 - Due to shared routes of transmission, including sexual contact and vertical transmission, HIV-HBV co-infection is common, particularly in sub-Saharan Africa. Measurement of viral load (VL), for both HIV and HBV, plays a critical role for determining their infectious phase and monitoring response to antiviral therapy. Implementation of viral load testing in clinical settings is a significant challenge in resource-limited countries, notably because of cost and availability issues. We designed HIV and HBV primers for conserved regions of the HIV and HBV genomes that were specifically adapted to viral strains circulating in West Africa that are HIV-1 subtype CRF02AG and HBV genotype E. We first validated two monoplex qPCR assays for individual quantification and, then developed a multiplex qPCR for simultaneous quantification of both viruses. HIV RNA and HBV DNA amplification was performed in a single tube using a one-step reverse transcription-PCR reaction with primers and probes targeting both viruses. Performance characteristics such as the quantification range, sensitivity, and specificity of this multiplex qPCR assay were compared to reference qPCR tests for both HIV and HBV viral load quantification. The multiplex assay was validated using clinical samples from co- or mono-infected patients and gave comparable viral load quantification to the HIV and HBV reference test respectively. The multiplex qPCR demonstrated an overall sensitivity of 71.25 % [68.16–74.3] for HBV and 82 % [78.09–85.90] for HIV and an overall specificity of 100 % [94.95–100] for both viruses. Although the overall sensitivities of the HIV and HBV assays were lower than the commercial comparator assays, the sensitivity in the clinical decision range of >1000 copies/mL for HIV was 80 % [71.26–88.73] and >1000 IU/mL for HBV was 100 % [95.51–100] which indicates the test results can be used to guide treatment decisions. This in-house developed multiplex qPCR assay represents a useful diagnostic tool as it can be performed on affordable “open” real-time PCR platforms currently used for HIV or SARS-Cov-2 infection surveillance in Mali.

AB - Due to shared routes of transmission, including sexual contact and vertical transmission, HIV-HBV co-infection is common, particularly in sub-Saharan Africa. Measurement of viral load (VL), for both HIV and HBV, plays a critical role for determining their infectious phase and monitoring response to antiviral therapy. Implementation of viral load testing in clinical settings is a significant challenge in resource-limited countries, notably because of cost and availability issues. We designed HIV and HBV primers for conserved regions of the HIV and HBV genomes that were specifically adapted to viral strains circulating in West Africa that are HIV-1 subtype CRF02AG and HBV genotype E. We first validated two monoplex qPCR assays for individual quantification and, then developed a multiplex qPCR for simultaneous quantification of both viruses. HIV RNA and HBV DNA amplification was performed in a single tube using a one-step reverse transcription-PCR reaction with primers and probes targeting both viruses. Performance characteristics such as the quantification range, sensitivity, and specificity of this multiplex qPCR assay were compared to reference qPCR tests for both HIV and HBV viral load quantification. The multiplex assay was validated using clinical samples from co- or mono-infected patients and gave comparable viral load quantification to the HIV and HBV reference test respectively. The multiplex qPCR demonstrated an overall sensitivity of 71.25 % [68.16–74.3] for HBV and 82 % [78.09–85.90] for HIV and an overall specificity of 100 % [94.95–100] for both viruses. Although the overall sensitivities of the HIV and HBV assays were lower than the commercial comparator assays, the sensitivity in the clinical decision range of >1000 copies/mL for HIV was 80 % [71.26–88.73] and >1000 IU/mL for HBV was 100 % [95.51–100] which indicates the test results can be used to guide treatment decisions. This in-house developed multiplex qPCR assay represents a useful diagnostic tool as it can be performed on affordable “open” real-time PCR platforms currently used for HIV or SARS-Cov-2 infection surveillance in Mali.

KW - HBV DNA

KW - Hepatitis B virus

KW - Real-time PCR

KW - Viral load

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U2 - 10.1016/j.jviromet.2024.115026

DO - 10.1016/j.jviromet.2024.115026

M3 - Article

C2 - 39233060

AN - SCOPUS:85203415920

SN - 0166-0934

VL - 330

JO - Journal of Virological Methods

JF - Journal of Virological Methods

M1 - 115026

ER -

A multiplexed real‐time PCR assay for simultaneous quantification of human immunodeficiency virus and Hepatitis B virus for low‐and‐middle‐ income countries

Abstract

Funding

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

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