PLoS ONE (Jan 2020)

Comparison of Alere q whole blood viral load with DBS and plasma viral load in the classification of HIV virological failure.

  • Aabida Khan,
  • Lucia Hans,
  • Nei-Yuan Hsiao

DOI
https://doi.org/10.1371/journal.pone.0232345
Journal volume & issue
Vol. 15, no. 5
p. e0232345

Abstract

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BACKGROUND:In remote settings, timely plasma separation and transportation to testing laboratories is an impediment to the access of HIV viral load (VL) testing. Potential solutions are whole blood testing through point of care (POC) assays or dried blood spots (DBS). METHODS:We evaluated the performance of a prototype Alere q whole blood VL protocol and compared it against plasma (Abbott RealTime HIV-1) and DBS VL (Abbott RealTime HIV-1 DBS revised prototype protocol and Roche CAP/CTM HIV-1 v2.0 DBS free virus elution protocol). Virological failure (VF) was defined at >1000 copies/ml. RESULTS:Of 299 samples, Alere q correctly classified VF in 61% versus 87% by Abbott DBS and 76% by Roche FVE. Performance varied across plasma VL categories. Alere q showed 100% sensitivity. Below 1000 copies/ml of plasma, Alere q demonstrated over-quantification, with 19% specificity. Abbott DBS had 91% sensitivity and the best overall correlation with plasma (r2 = 0.72). Roche FVE had the best specificity of 99% but reduced sensitivity of 52%, especially between 1000-10,000 copies/ml of plasma. Correlation was best for all assays at >10,000 copies/ml. CONCLUSION:Variability was prominent between the assays. Each method requires optimization to facilitate the implementation of a cut-off with optimal sensitivity and specificity for VF. Although Alere q whole blood assay exhibited excellent sensitivity, the poor specificity of only 19% would lead to unnecessary switching of regimens. Thus any VF detected would need to be confirmed by a more specific assay. Both the Abbott DBS and Roche FVE protocols showed good specificity, however sensitivity was reduced when the plasma VL was 1000-10,000 copies/ml. This could result in delays in detecting VF and accumulation of drug resistance. Field evaluation in settings that have adopted these DBS protocols are necessary.