Study of Preanalytic and Analytic Variables for Clinical Next-Generation Sequencing of Circulating Cell-Free Nucleic Acid

Meenakshi Mehrotra; Rajesh R. Singh; Wei Chen; Richard S.P. Huang; Alaa A. Almohammedsalim; Bedia A. Barkoh; Crystal M. Simien; Marcos Hernandez; Carmen Behrens; Keyur P. Patel; Mark J. Routbort; Russell R. Broaddus; L. Jeffrey Medeiros; Ignacio I. Wistuba; Scott Kopetz; Rajyalakshmi Luthra

doi:10.1016/j.jmoldx.2017.03.003

Study of Preanalytic and Analytic Variables for Clinical Next-Generation Sequencing of Circulating Cell-Free Nucleic Acid

Meenakshi Mehrotra, Rajesh R. Singh, Wei Chen, Richard S.P. Huang, Alaa A. Almohammedsalim, Bedia A. Barkoh, Crystal M. Simien, Marcos Hernandez, Carmen Behrens, Keyur P. Patel, Mark J. Routbort, Russell R. Broaddus, L. Jeffrey Medeiros, Ignacio I. Wistuba, Scott Kopetz, Rajyalakshmi Luthra

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

19 Scopus citations

Abstract

Detection of mutations in plasma circulating cell-free DNA (cfDNA) by next-generation sequencing (NGS) has opened up new possibilities for monitoring treatment response and disease progression in patients with solid tumors. However, implementation of cfDNA genotyping in diagnostic laboratories requires systematic assessment of preanalytical parameters and analytical performance of NGS platforms. We assessed the effects of peripheral blood collection tube and plasma separation time on cfDNA yield and integrity and performance of the Ion PGM, Proton, and MiSeq NGS platforms. cfDNA from 31 patients with diverse advanced cancers and known tumor mutation status was deep sequenced using targeted hotspot panels. Forty-five of 52 expected mutations and two additional mutations (KRAS p.Q61H and EZH2 p.Y646F) were detected in plasma through a custom bioinformatics pipeline. We observed comparable cfDNA concentration/integrity between collection tubes within 16 hours of plasma separation and equal analytical performance among NGS platforms, with 1% detection sensitivity for cfDNA genotyping.

Original language	English (US)
Pages (from-to)	514-524
Number of pages	11
Journal	Journal of Molecular Diagnostics
Volume	19
Issue number	4
DOIs	https://doi.org/10.1016/j.jmoldx.2017.03.003
State	Published - Jul 2017

ASJC Scopus subject areas

Pathology and Forensic Medicine
Molecular Medicine

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Mehrotra, M., Singh, R. R., Chen, W., Huang, R. S. P., Almohammedsalim, A. A., Barkoh, B. A., Simien, C. M., Hernandez, M., Behrens, C., Patel, K. P., Routbort, M. J., Broaddus, R. R., Medeiros, L. J., Wistuba, I. I., Kopetz, S., & Luthra, R. (2017). Study of Preanalytic and Analytic Variables for Clinical Next-Generation Sequencing of Circulating Cell-Free Nucleic Acid. Journal of Molecular Diagnostics, 19(4), 514-524. https://doi.org/10.1016/j.jmoldx.2017.03.003

Mehrotra, M, Singh, RR, Chen, W, Huang, RSP, Almohammedsalim, AA, Barkoh, BA, Simien, CM, Hernandez, M, Behrens, C , Patel, KP , Routbort, MJ, Broaddus, RR, Medeiros, LJ , Wistuba, II , Kopetz, S & Luthra, R 2017, 'Study of Preanalytic and Analytic Variables for Clinical Next-Generation Sequencing of Circulating Cell-Free Nucleic Acid', Journal of Molecular Diagnostics, vol. 19, no. 4, pp. 514-524. https://doi.org/10.1016/j.jmoldx.2017.03.003

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title = "Study of Preanalytic and Analytic Variables for Clinical Next-Generation Sequencing of Circulating Cell-Free Nucleic Acid",

abstract = "Detection of mutations in plasma circulating cell-free DNA (cfDNA) by next-generation sequencing (NGS) has opened up new possibilities for monitoring treatment response and disease progression in patients with solid tumors. However, implementation of cfDNA genotyping in diagnostic laboratories requires systematic assessment of preanalytical parameters and analytical performance of NGS platforms. We assessed the effects of peripheral blood collection tube and plasma separation time on cfDNA yield and integrity and performance of the Ion PGM, Proton, and MiSeq NGS platforms. cfDNA from 31 patients with diverse advanced cancers and known tumor mutation status was deep sequenced using targeted hotspot panels. Forty-five of 52 expected mutations and two additional mutations (KRAS p.Q61H and EZH2 p.Y646F) were detected in plasma through a custom bioinformatics pipeline. We observed comparable cfDNA concentration/integrity between collection tubes within 16 hours of plasma separation and equal analytical performance among NGS platforms, with 1% detection sensitivity for cfDNA genotyping.",

author = "Meenakshi Mehrotra and Singh, {Rajesh R.} and Wei Chen and Huang, {Richard S.P.} and Almohammedsalim, {Alaa A.} and Barkoh, {Bedia A.} and Simien, {Crystal M.} and Marcos Hernandez and Carmen Behrens and Patel, {Keyur P.} and Routbort, {Mark J.} and Broaddus, {Russell R.} and Medeiros, {L. Jeffrey} and Wistuba, {Ignacio I.} and Scott Kopetz and Rajyalakshmi Luthra",

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doi = "10.1016/j.jmoldx.2017.03.003",

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AU - Mehrotra, Meenakshi

AU - Singh, Rajesh R.

AU - Chen, Wei

AU - Huang, Richard S.P.

AU - Almohammedsalim, Alaa A.

AU - Barkoh, Bedia A.

AU - Simien, Crystal M.

AU - Hernandez, Marcos

AU - Behrens, Carmen

AU - Patel, Keyur P.

AU - Routbort, Mark J.

AU - Broaddus, Russell R.

AU - Medeiros, L. Jeffrey

AU - Wistuba, Ignacio I.

AU - Kopetz, Scott

AU - Luthra, Rajyalakshmi

PY - 2017/7

Y1 - 2017/7

N2 - Detection of mutations in plasma circulating cell-free DNA (cfDNA) by next-generation sequencing (NGS) has opened up new possibilities for monitoring treatment response and disease progression in patients with solid tumors. However, implementation of cfDNA genotyping in diagnostic laboratories requires systematic assessment of preanalytical parameters and analytical performance of NGS platforms. We assessed the effects of peripheral blood collection tube and plasma separation time on cfDNA yield and integrity and performance of the Ion PGM, Proton, and MiSeq NGS platforms. cfDNA from 31 patients with diverse advanced cancers and known tumor mutation status was deep sequenced using targeted hotspot panels. Forty-five of 52 expected mutations and two additional mutations (KRAS p.Q61H and EZH2 p.Y646F) were detected in plasma through a custom bioinformatics pipeline. We observed comparable cfDNA concentration/integrity between collection tubes within 16 hours of plasma separation and equal analytical performance among NGS platforms, with 1% detection sensitivity for cfDNA genotyping.

AB - Detection of mutations in plasma circulating cell-free DNA (cfDNA) by next-generation sequencing (NGS) has opened up new possibilities for monitoring treatment response and disease progression in patients with solid tumors. However, implementation of cfDNA genotyping in diagnostic laboratories requires systematic assessment of preanalytical parameters and analytical performance of NGS platforms. We assessed the effects of peripheral blood collection tube and plasma separation time on cfDNA yield and integrity and performance of the Ion PGM, Proton, and MiSeq NGS platforms. cfDNA from 31 patients with diverse advanced cancers and known tumor mutation status was deep sequenced using targeted hotspot panels. Forty-five of 52 expected mutations and two additional mutations (KRAS p.Q61H and EZH2 p.Y646F) were detected in plasma through a custom bioinformatics pipeline. We observed comparable cfDNA concentration/integrity between collection tubes within 16 hours of plasma separation and equal analytical performance among NGS platforms, with 1% detection sensitivity for cfDNA genotyping.

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Study of Preanalytic and Analytic Variables for Clinical Next-Generation Sequencing of Circulating Cell-Free Nucleic Acid

Abstract

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