Analytical validation of a real-time hydrolysis probe PCR assay for quantifying Plasmodium falciparum parasites in experimentally infected human adults

Analytical validation of a real-time hydrolysis probe PCR assay for quantifying Plasmodium falciparum parasites in experimentally infected human adults

Abstract Background Volunteer infection studies have become a standard model for evaluating drug efficacy against Plasmodium infections. Molecular techniques such as qPCR are used in these studies due to their ability to provide robust and accurate estimates of parasitaemia at increased sensitivity...

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Main Authors: Claire Y. T. Wang, Emma L. Ballard, Zuleima Pava, Louise Marquart, Jane Gaydon, Sean C. Murphy, David Whiley, Peter O’Rourke, James S. McCarthy
Format: Article
Language:English
Published: BMC 2021-04-01
Series:Malaria Journal
Subjects:
Plasmodium falciparum
Hydrolysis probe
Quantitative PCR
Validation
Volunteer infection studies
MIQE
Online Access:https://doi.org/10.1186/s12936-021-03717-y
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spelling doaj-e66949e0fc4a4ec68884977a53f789342021-04-11T11:41:01ZengBMCMalaria Journal1475-28752021-04-012011810.1186/s12936-021-03717-yAnalytical validation of a real-time hydrolysis probe PCR assay for quantifying Plasmodium falciparum parasites in experimentally infected human adultsClaire Y. T. Wang0Emma L. Ballard1Zuleima Pava2Louise Marquart3Jane Gaydon4Sean C. Murphy5David Whiley6Peter O’Rourke7James S. McCarthy8Centre for Children’s Health Research, Children’s Health QueenslandQIMR Berghofer Medical Research InstituteQIMR Berghofer Medical Research InstituteQIMR Berghofer Medical Research InstituteCentre for Children’s Health Research, Children’s Health QueenslandDepartments of Laboratory Medicine and Microbiology, University of WashingtonCentre for Children’s Health Research, Children’s Health QueenslandQIMR Berghofer Medical Research InstituteQIMR Berghofer Medical Research InstituteAbstract Background Volunteer infection studies have become a standard model for evaluating drug efficacy against Plasmodium infections. Molecular techniques such as qPCR are used in these studies due to their ability to provide robust and accurate estimates of parasitaemia at increased sensitivity compared to microscopy. The validity and reliability of assays need to be ensured when used to evaluate the efficacy of candidate drugs in clinical trials. Methods A previously described 18S rRNA gene qPCR assay for quantifying Plasmodium falciparum in blood samples was evaluated. Assay performance characteristics including analytical sensitivity, reportable range, precision, accuracy and specificity were assessed using experimental data and data compiled from phase 1 volunteer infection studies conducted between 2013 and 2019. Guidelines for validation of laboratory-developed molecular assays were followed. Results The reportable range was 1.50 to 6.50 log10 parasites/mL with a limit of detection of 2.045 log10 parasites/mL of whole blood based on a parasite diluted standard series over this range. The assay was highly reproducible with minimal intra-assay (SD = 0.456 quantification cycle (Cq) units [0.137 log10 parasites/mL] over 21 replicates) and inter-assay (SD = 0.604 Cq units [0.182 log10 parasites/mL] over 786 qPCR runs) variability. Through an external quality assurance program, the QIMR assay was shown to generate accurate results (quantitative bias + 0.019 log10 parasites/mL against nominal values). Specificity was 100% after assessing 164 parasite-free human blood samples. Conclusions The 18S rRNA gene qPCR assay is specific and highly reproducible and can provide reliable and accurate parasite quantification. The assay is considered fit for use in evaluating drug efficacy in malaria clinical trials.https://doi.org/10.1186/s12936-021-03717-yPlasmodium falciparumHydrolysis probeQuantitative PCRValidationVolunteer infection studiesMIQE
collection DOAJ
language English
format Article
sources DOAJ
author Claire Y. T. Wang
Emma L. Ballard
Zuleima Pava
Louise Marquart
Jane Gaydon
Sean C. Murphy
David Whiley
Peter O’Rourke
James S. McCarthy
spellingShingle Claire Y. T. Wang
Emma L. Ballard
Zuleima Pava
Louise Marquart
Jane Gaydon
Sean C. Murphy
David Whiley
Peter O’Rourke
James S. McCarthy
Analytical validation of a real-time hydrolysis probe PCR assay for quantifying Plasmodium falciparum parasites in experimentally infected human adults
Malaria Journal
Plasmodium falciparum
Hydrolysis probe
Quantitative PCR
Validation
Volunteer infection studies
MIQE
author_facet Claire Y. T. Wang
Emma L. Ballard
Zuleima Pava
Louise Marquart
Jane Gaydon
Sean C. Murphy
David Whiley
Peter O’Rourke
James S. McCarthy
author_sort Claire Y. T. Wang
title Analytical validation of a real-time hydrolysis probe PCR assay for quantifying Plasmodium falciparum parasites in experimentally infected human adults
title_short Analytical validation of a real-time hydrolysis probe PCR assay for quantifying Plasmodium falciparum parasites in experimentally infected human adults
title_full Analytical validation of a real-time hydrolysis probe PCR assay for quantifying Plasmodium falciparum parasites in experimentally infected human adults
title_fullStr Analytical validation of a real-time hydrolysis probe PCR assay for quantifying Plasmodium falciparum parasites in experimentally infected human adults
title_full_unstemmed Analytical validation of a real-time hydrolysis probe PCR assay for quantifying Plasmodium falciparum parasites in experimentally infected human adults
title_sort analytical validation of a real-time hydrolysis probe pcr assay for quantifying plasmodium falciparum parasites in experimentally infected human adults
publisher BMC
series Malaria Journal
issn 1475-2875
publishDate 2021-04-01
description Abstract Background Volunteer infection studies have become a standard model for evaluating drug efficacy against Plasmodium infections. Molecular techniques such as qPCR are used in these studies due to their ability to provide robust and accurate estimates of parasitaemia at increased sensitivity compared to microscopy. The validity and reliability of assays need to be ensured when used to evaluate the efficacy of candidate drugs in clinical trials. Methods A previously described 18S rRNA gene qPCR assay for quantifying Plasmodium falciparum in blood samples was evaluated. Assay performance characteristics including analytical sensitivity, reportable range, precision, accuracy and specificity were assessed using experimental data and data compiled from phase 1 volunteer infection studies conducted between 2013 and 2019. Guidelines for validation of laboratory-developed molecular assays were followed. Results The reportable range was 1.50 to 6.50 log10 parasites/mL with a limit of detection of 2.045 log10 parasites/mL of whole blood based on a parasite diluted standard series over this range. The assay was highly reproducible with minimal intra-assay (SD = 0.456 quantification cycle (Cq) units [0.137 log10 parasites/mL] over 21 replicates) and inter-assay (SD = 0.604 Cq units [0.182 log10 parasites/mL] over 786 qPCR runs) variability. Through an external quality assurance program, the QIMR assay was shown to generate accurate results (quantitative bias + 0.019 log10 parasites/mL against nominal values). Specificity was 100% after assessing 164 parasite-free human blood samples. Conclusions The 18S rRNA gene qPCR assay is specific and highly reproducible and can provide reliable and accurate parasite quantification. The assay is considered fit for use in evaluating drug efficacy in malaria clinical trials.
topic Plasmodium falciparum
Hydrolysis probe
Quantitative PCR
Validation
Volunteer infection studies
MIQE
url https://doi.org/10.1186/s12936-021-03717-y
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