Reliable and Scalable SARS-CoV-2 qPCR Testing at a High Sample Throughput: Lessons Learned from the Belgian Initiative

Steven Van Vooren; James Grayson; Marc Van Ranst; Elisabeth Dequeker; Lies Laenen; Reile Janssen; Laurent Gillet; Fabrice Bureau; Wouter Coppieters; Nathalie Devos; Benjamin Hengchen; Pierre Wattiau; Sibylle Méhauden; Yvan Verlinden; Kurt Van Baelen; Theresa Pattery; Jean Pierre Valentin; Kris Janssen; Martine Geraerts; John Smeraglia; Jan Hellemans; Pieter Wytynck; Pieter Mestdagh; Nienke Besbrugge; René Höfer; Friedel Nollet; Jo Vandesompele; Pieter De Smet; John Lebon; Emmanuel Vandewynckele; Steven Verstrepen; Wouter Uten; Arnaud Capron; Hugues Malonne; Jeroen Poels; Emmanuel André

doi:10.3390/life12020159

Reliable and Scalable SARS-CoV-2 qPCR Testing at a High Sample Throughput: Lessons Learned from the Belgian Initiative

Steven Van Vooren, James Grayson, Marc Van Ranst, Elisabeth Dequeker, Lies Laenen, Reile Janssen, Laurent Gillet, Fabrice Bureau, Wouter Coppieters, Nathalie Devos, Benjamin Hengchen, Pierre Wattiau, Sibylle Méhauden, Yvan Verlinden, Kurt Van Baelen, Theresa Pattery, Jean Pierre Valentin, Kris Janssen, Martine Geraerts, John SmeragliaJan Hellemans, Pieter Wytynck, Pieter Mestdagh, Nienke Besbrugge, René Höfer, Friedel Nollet, Jo Vandesompele, Pieter De Smet, John Lebon, Emmanuel Vandewynckele, Steven Verstrepen, Wouter Uten, Arnaud Capron, Hugues Malonne, Jeroen Poels, Emmanuel André

Namur Research Institute for Life Sciences

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

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Abstract

We present our approach to rapidly establishing a standardized, multi-site, nation-wide COVID-19 screening program in Belgium. Under auspices of a federal government Task Force responsible for upscaling the country’s testing capacity, we were able to set up a national testing initiative with readily available resources, putting in place a robust, validated, high-throughput, and decentralized qPCR molecular testing platform with embedded proficiency testing. We demonstrate how during an acute scarcity of equipment, kits, reagents, personnel, protective equipment, and sterile plastic supplies, we introduced an approach to rapidly build a reliable, validated, high-volume, highconfidence workflow based on heterogeneous instrumentation and diverse assays, assay components, and protocols. The workflow was set up with continuous quality control monitoring, tied together through a clinical-grade information management platform for automated data analysis, real-time result reporting across different participating sites, qc monitoring, and making result data available to the requesting physician and the patient. In this overview, we address challenges in optimizing high-throughput cross-laboratory workflows with minimal manual intervention through software, instrument and assay validation and standardization, and a process for harmonized result reporting and nation-level infection statistics monitoring across the disparate testing methodologies and workflows, necessitated by a rapid scale-up as a response to the pandemic.

Original language	English
Article number	159
Journal	Life
Volume	12
Issue number	2
DOIs	https://doi.org/10.3390/life12020159
Publication status	Published - Feb 2022

Keywords

Data analysis
High-throughput testing
Lab automation
Qc monitoring
QPCR
SARS-CoV-2

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10.3390/life12020159

life-12-00159-v2Final published version, 2.46 MBLicence: CC BY

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Van Vooren, S., Grayson, J., Van Ranst, M., Dequeker, E., Laenen, L., Janssen, R., Gillet, L., Bureau, F., Coppieters, W., Devos, N., Hengchen, B., Wattiau, P., Méhauden, S., Verlinden, Y., Van Baelen, K., Pattery, T., Valentin, J. P., Janssen, K., Geraerts, M., ... André, E. (2022). Reliable and Scalable SARS-CoV-2 qPCR Testing at a High Sample Throughput: Lessons Learned from the Belgian Initiative. Life, 12(2), Article 159. https://doi.org/10.3390/life12020159

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title = "Reliable and Scalable SARS-CoV-2 qPCR Testing at a High Sample Throughput: Lessons Learned from the Belgian Initiative",

abstract = "We present our approach to rapidly establishing a standardized, multi-site, nation-wide COVID-19 screening program in Belgium. Under auspices of a federal government Task Force responsible for upscaling the country{\textquoteright}s testing capacity, we were able to set up a national testing initiative with readily available resources, putting in place a robust, validated, high-throughput, and decentralized qPCR molecular testing platform with embedded proficiency testing. We demonstrate how during an acute scarcity of equipment, kits, reagents, personnel, protective equipment, and sterile plastic supplies, we introduced an approach to rapidly build a reliable, validated, high-volume, highconfidence workflow based on heterogeneous instrumentation and diverse assays, assay components, and protocols. The workflow was set up with continuous quality control monitoring, tied together through a clinical-grade information management platform for automated data analysis, real-time result reporting across different participating sites, qc monitoring, and making result data available to the requesting physician and the patient. In this overview, we address challenges in optimizing high-throughput cross-laboratory workflows with minimal manual intervention through software, instrument and assay validation and standardization, and a process for harmonized result reporting and nation-level infection statistics monitoring across the disparate testing methodologies and workflows, necessitated by a rapid scale-up as a response to the pandemic.",

keywords = "Data analysis, High-throughput testing, Lab automation, Qc monitoring, QPCR, SARS-CoV-2",

author = "{Van Vooren}, Steven and James Grayson and {Van Ranst}, Marc and Elisabeth Dequeker and Lies Laenen and Reile Janssen and Laurent Gillet and Fabrice Bureau and Wouter Coppieters and Nathalie Devos and Benjamin Hengchen and Pierre Wattiau and Sibylle M{\'e}hauden and Yvan Verlinden and {Van Baelen}, Kurt and Theresa Pattery and Valentin, {Jean Pierre} and Kris Janssen and Martine Geraerts and John Smeraglia and Jan Hellemans and Pieter Wytynck and Pieter Mestdagh and Nienke Besbrugge and Ren{\'e} H{\"o}fer and Friedel Nollet and Jo Vandesompele and {De Smet}, Pieter and John Lebon and Emmanuel Vandewynckele and Steven Verstrepen and Wouter Uten and Arnaud Capron and Hugues Malonne and Jeroen Poels and Emmanuel Andr{\'e}",

note = "Publisher Copyright: {\textcopyright} 2022 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2022",

month = feb,

doi = "10.3390/life12020159",

language = "English",

volume = "12",

journal = "Life",

issn = "2075-1729",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

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Van Vooren, S, Grayson, J, Van Ranst, M, Dequeker, E, Laenen, L, Janssen, R, Gillet, L, Bureau, F, Coppieters, W, Devos, N, Hengchen, B, Wattiau, P, Méhauden, S, Verlinden, Y, Van Baelen, K, Pattery, T, Valentin, JP, Janssen, K, Geraerts, M, Smeraglia, J, Hellemans, J, Wytynck, P, Mestdagh, P, Besbrugge, N, Höfer, R, Nollet, F, Vandesompele, J, De Smet, P, Lebon, J, Vandewynckele, E, Verstrepen, S, Uten, W, Capron, A, Malonne, H, Poels, J & André, E 2022, 'Reliable and Scalable SARS-CoV-2 qPCR Testing at a High Sample Throughput: Lessons Learned from the Belgian Initiative', Life, vol. 12, no. 2, 159. https://doi.org/10.3390/life12020159

TY - JOUR

T1 - Reliable and Scalable SARS-CoV-2 qPCR Testing at a High Sample Throughput

T2 - Lessons Learned from the Belgian Initiative

AU - Van Vooren, Steven

AU - Grayson, James

AU - Van Ranst, Marc

AU - Dequeker, Elisabeth

AU - Laenen, Lies

AU - Janssen, Reile

AU - Gillet, Laurent

AU - Bureau, Fabrice

AU - Coppieters, Wouter

AU - Devos, Nathalie

AU - Hengchen, Benjamin

AU - Wattiau, Pierre

AU - Méhauden, Sibylle

AU - Verlinden, Yvan

AU - Van Baelen, Kurt

AU - Pattery, Theresa

AU - Valentin, Jean Pierre

AU - Janssen, Kris

AU - Geraerts, Martine

AU - Smeraglia, John

AU - Hellemans, Jan

AU - Wytynck, Pieter

AU - Mestdagh, Pieter

AU - Besbrugge, Nienke

AU - Höfer, René

AU - Nollet, Friedel

AU - Vandesompele, Jo

AU - De Smet, Pieter

AU - Lebon, John

AU - Vandewynckele, Emmanuel

AU - Verstrepen, Steven

AU - Uten, Wouter

AU - Capron, Arnaud

AU - Malonne, Hugues

AU - Poels, Jeroen

AU - André, Emmanuel

PY - 2022/2

Y1 - 2022/2

N2 - We present our approach to rapidly establishing a standardized, multi-site, nation-wide COVID-19 screening program in Belgium. Under auspices of a federal government Task Force responsible for upscaling the country’s testing capacity, we were able to set up a national testing initiative with readily available resources, putting in place a robust, validated, high-throughput, and decentralized qPCR molecular testing platform with embedded proficiency testing. We demonstrate how during an acute scarcity of equipment, kits, reagents, personnel, protective equipment, and sterile plastic supplies, we introduced an approach to rapidly build a reliable, validated, high-volume, highconfidence workflow based on heterogeneous instrumentation and diverse assays, assay components, and protocols. The workflow was set up with continuous quality control monitoring, tied together through a clinical-grade information management platform for automated data analysis, real-time result reporting across different participating sites, qc monitoring, and making result data available to the requesting physician and the patient. In this overview, we address challenges in optimizing high-throughput cross-laboratory workflows with minimal manual intervention through software, instrument and assay validation and standardization, and a process for harmonized result reporting and nation-level infection statistics monitoring across the disparate testing methodologies and workflows, necessitated by a rapid scale-up as a response to the pandemic.

AB - We present our approach to rapidly establishing a standardized, multi-site, nation-wide COVID-19 screening program in Belgium. Under auspices of a federal government Task Force responsible for upscaling the country’s testing capacity, we were able to set up a national testing initiative with readily available resources, putting in place a robust, validated, high-throughput, and decentralized qPCR molecular testing platform with embedded proficiency testing. We demonstrate how during an acute scarcity of equipment, kits, reagents, personnel, protective equipment, and sterile plastic supplies, we introduced an approach to rapidly build a reliable, validated, high-volume, highconfidence workflow based on heterogeneous instrumentation and diverse assays, assay components, and protocols. The workflow was set up with continuous quality control monitoring, tied together through a clinical-grade information management platform for automated data analysis, real-time result reporting across different participating sites, qc monitoring, and making result data available to the requesting physician and the patient. In this overview, we address challenges in optimizing high-throughput cross-laboratory workflows with minimal manual intervention through software, instrument and assay validation and standardization, and a process for harmonized result reporting and nation-level infection statistics monitoring across the disparate testing methodologies and workflows, necessitated by a rapid scale-up as a response to the pandemic.

KW - Data analysis

KW - High-throughput testing

KW - Lab automation

KW - Qc monitoring

KW - QPCR

KW - SARS-CoV-2

UR - http://www.scopus.com/inward/record.url?scp=85123982672&partnerID=8YFLogxK

U2 - 10.3390/life12020159

DO - 10.3390/life12020159

M3 - Article

AN - SCOPUS:85123982672

SN - 2075-1729

VL - 12

JO - Life

JF - Life

IS - 2

M1 - 159

ER -

Reliable and Scalable SARS-CoV-2 qPCR Testing at a High Sample Throughput: Lessons Learned from the Belgian Initiative

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Keywords

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