An International Collaboration to Standardize HIV-2 Viral Load Assays: Results from the 2009 ACHI(E)V(2E) Quality Control Study

Overview

Journal J Clin Microbiol

Specialty Microbiology

Date 2011 Aug 5

PMID 21813718

Citations 12

Authors

F Damond

A Benard

Claudia Balotta

Jurg Boni

Matthew Cotten

Vitor Duque

Bridget Ferns

Jeremy Garson

Perpetua Gomes

Fatima Goncalves

Geoffrey Gottlieb

Bernd Kupfer

Jean Ruelle

Berta Rodes

Vicente Soriano

Mark Wainberg

Audrey Taieb

Sophie Matheron

Genevieve Chene

Francoise Brun-Vezinet

Affiliations

Soon will be listed here.

Abstract

Accurate HIV-2 plasma viral load quantification is crucial for adequate HIV-2 patient management and for the proper conduct of clinical trials and international cohort collaborations. This study compared the homogeneity of HIV-2 RNA quantification when using HIV-2 assays from ACHI(E)V(2E) study sites and either in-house PCR calibration standards or common viral load standards supplied to all collaborators. Each of the 12 participating laboratories quantified blinded HIV-2 samples, using its own HIV-2 viral load assay and standard as well as centrally validated and distributed common HIV-2 group A and B standards (http://www.hiv.lanl.gov/content/sequence/HelpDocs/subtypes-more.html). Aliquots of HIV-2 group A and B strains, each at 2 theoretical concentrations (2.7 and 3.7 log(10) copies/ml), were tested. Intralaboratory, interlaboratory, and overall variances of quantification results obtained with both standards were compared using F tests. For HIV-2 group A quantifications, overall and interlaboratory and/or intralaboratory variances were significantly lower when using the common standard than when using in-house standards at the concentration levels of 2.7 log(10) copies/ml and 3.7 log(10) copies/ml, respectively. For HIV-2 group B, a high heterogeneity was observed and the variances did not differ according to the type of standard used. In this international collaboration, the use of a common standard improved the homogeneity of HIV-2 group A RNA quantification only. The diversity of HIV-2 group B, particularly in PCR primer-binding regions, may explain the heterogeneity in quantification of this strain. Development of a validated HIV-2 viral load assay that accurately quantifies distinct circulating strains is needed.

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