The Fungal PCR Initiative's evaluation of in-house and commercial Pneumocystis jirovecii qPCR assays: Toward a standard for a diagnostics assay

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TitreThe Fungal PCR Initiative's evaluation of in-house and commercial Pneumocystis jirovecii qPCR assays: Toward a standard for a diagnostics assay
Type de publicationJournal Article
Year of Publication2020
AuteursGits-Muselli M, P. White L, Mengoli C, Chen S, Crowley B, Dingemans G, Frealle E, Gorton RL, Guiver M, Hagen F, Halliday C, Johnson G, Lagrou K, Lengerova M, Melchers WJG, Novak-Frazer L, Rautemaa-Richardson R, Scherer E, Steinmann J, Cruciani M, Barnes R, J. Donnelly P, Loeffler J, Bretagne S, Alanio A
JournalMEDICAL MYCOLOGY
Volume58
Pagination779-788
Date PublishedAUG
Type of ArticleArticle
ISSN1369-3786
Mots-clésCq, Diagnosis, DNA, Efficiency, panel specimens, PCP, pneumocystis jirovecii, pneumocystosis, qPCR, quantification, quantification cycles, standardization, threshold, whole nucleic acids
Résumé

Quantitative real-time PCR (qPCR) is increasingly used to detect Pneumocystis jirovecii for the diagnosis of Pneumocystis pneumonia (PCP), but there are differences in the nucleic acids targeted, DNA only versus whole nucleic acid (WNA), and also the target genes for amplification. Through the Fungal PCR Initiative, a working group of the International Society for Human and Animal Mycology, a multicenter and monocenter evaluation of PCP qPCR assays was performed. For the multicenter study, 16 reference laboratories from eight different countries, performing 20 assays analyzed a panel consisting of two negative and three PCP positive samples. Aliquots were prepared by pooling residual material from 20 negative or positive-P. jirovecii bronchoalveolar lavage fluids (BALFs). The positive pool was diluted to obtain three concentrations (pure 1:1; 1:100; and 1:1000 to mimic high, medium, and low fungal loads, respectively). The monocenter study compared five in-house and five commercial qPCR assays testing 19 individual BALFs on the same amplification platform. Across both evaluations and for all fungal loads, targeting WNA and the mitochondria! small sub-unit (mtSSU) provided the earliest Cq values, compared to only targeting DNA and the mitochondria! large subunit, the major surface glycoprotein or the beta-tubulin genes. Thus, reverse transcriptase-qPCR targeting the mtSSU gene could serve as a basis for standardizing the P. jirovecii load, which is essential if qPCR is to be incorporated into clinical care pathways as the reference method, accepting that additional parameters such as amplification platforms still need evaluation.

DOI10.1093/mmy/myz115