Analytical Validation and Application of a Targeted Next-Generation Sequencing Mutation-Detection Assay for Use in Treatment Assignment in the NCI-MPACT Trial

Chih Jian Lih; David J. Sims; Robin D. Harrington; Eric C. Polley; Yingdong Zhao; Michele G. Mehaffey; Thomas D. Forbes; Biswajit Das; William D. Walsh; Vivekananda Datta; Kneshay N. Harper; Courtney H. Bouk; Lawrence V. Rubinstein; Richard M. Simon; Barbara A. Conley; Alice P. Chen; Shivaani Kummar; James H. Doroshow; Paul M. Williams

doi:10.1016/j.jmoldx.2015.07.006

Analytical Validation and Application of a Targeted Next-Generation Sequencing Mutation-Detection Assay for Use in Treatment Assignment in the NCI-MPACT Trial

Chih Jian Lih, David J. Sims, Robin D. Harrington, Eric C. Polley, Yingdong Zhao, Michele G. Mehaffey, Thomas D. Forbes, Biswajit Das, William D. Walsh, Vivekananda Datta, Kneshay N. Harper, Courtney H. Bouk, Lawrence V. Rubinstein, Richard M. Simon, Barbara A. Conley, Alice P. Chen, Shivaani Kummar, James H. Doroshow, Paul M. Williams

Quantitative Health Sciences

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

31 Scopus citations

Abstract

Robust and analytically validated assays are essential for clinical studies. We outline an analytical validation study of a targeted next-generation sequencing mutation-detection assay used for patient selection in the National Cancer Institute Molecular Profiling-Based Assignment of Cancer Therapy (NCI-MPACT) trial (NCT01827384). Using DNA samples from normal or tumor cell lines and xenografts with known variants, we assessed the sensitivity, specificity, and reproducibility of the NCI-MPACT assay in five variant types: single-nucleotide variants (SNVs), SNVs at homopolymeric (HP) regions (≥3 identical bases), small insertions/deletions (indels), large indels (gap ≥4 bp), and indels at HP regions. The assay achieved sensitivities of 100% for 64 SNVs, nine SNVs at HP regions, and 11 large indels, 83.33% for six indels, and 93.33% for 15 indels at HP regions. Zero false positives (100% specificity) were found in 380 actionable mutation loci in 96 runs of haplotype map cells. Reproducibility analysis showed 96.3% to 100% intraoperator and 98.1% to 100% interoperator mean concordance in detected variants and 100% reproducibility in treatment selection. To date, 38 tumors have been screened, 34 passed preanalytical quality control, and 18 had actionable mutations for treatment assignment. The NCI-MPACT assay is well suited for its intended investigational use and can serve as a template for developing next-generation sequencing assays for other cancer clinical trial applications.

Original language	English (US)
Pages (from-to)	51-67
Number of pages	17
Journal	Journal of Molecular Diagnostics
Volume	18
Issue number	1
DOIs	https://doi.org/10.1016/j.jmoldx.2015.07.006
State	Published - Jan 1 2016

ASJC Scopus subject areas

Pathology and Forensic Medicine
Molecular Medicine

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Lih, C. J., Sims, D. J., Harrington, R. D., Polley, E. C., Zhao, Y., Mehaffey, M. G., Forbes, T. D., Das, B., Walsh, W. D., Datta, V., Harper, K. N., Bouk, C. H., Rubinstein, L. V., Simon, R. M., Conley, B. A., Chen, A. P., Kummar, S., Doroshow, J. H., & Williams, P. M. (2016). Analytical Validation and Application of a Targeted Next-Generation Sequencing Mutation-Detection Assay for Use in Treatment Assignment in the NCI-MPACT Trial. Journal of Molecular Diagnostics, 18(1), 51-67. https://doi.org/10.1016/j.jmoldx.2015.07.006

Lih, CJ, Sims, DJ, Harrington, RD, Polley, EC, Zhao, Y, Mehaffey, MG, Forbes, TD, Das, B, Walsh, WD, Datta, V, Harper, KN, Bouk, CH, Rubinstein, LV, Simon, RM, Conley, BA, Chen, AP, Kummar, S, Doroshow, JH & Williams, PM 2016, 'Analytical Validation and Application of a Targeted Next-Generation Sequencing Mutation-Detection Assay for Use in Treatment Assignment in the NCI-MPACT Trial', Journal of Molecular Diagnostics, vol. 18, no. 1, pp. 51-67. https://doi.org/10.1016/j.jmoldx.2015.07.006

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title = "Analytical Validation and Application of a Targeted Next-Generation Sequencing Mutation-Detection Assay for Use in Treatment Assignment in the NCI-MPACT Trial",

abstract = "Robust and analytically validated assays are essential for clinical studies. We outline an analytical validation study of a targeted next-generation sequencing mutation-detection assay used for patient selection in the National Cancer Institute Molecular Profiling-Based Assignment of Cancer Therapy (NCI-MPACT) trial (NCT01827384). Using DNA samples from normal or tumor cell lines and xenografts with known variants, we assessed the sensitivity, specificity, and reproducibility of the NCI-MPACT assay in five variant types: single-nucleotide variants (SNVs), SNVs at homopolymeric (HP) regions (≥3 identical bases), small insertions/deletions (indels), large indels (gap ≥4 bp), and indels at HP regions. The assay achieved sensitivities of 100% for 64 SNVs, nine SNVs at HP regions, and 11 large indels, 83.33% for six indels, and 93.33% for 15 indels at HP regions. Zero false positives (100% specificity) were found in 380 actionable mutation loci in 96 runs of haplotype map cells. Reproducibility analysis showed 96.3% to 100% intraoperator and 98.1% to 100% interoperator mean concordance in detected variants and 100% reproducibility in treatment selection. To date, 38 tumors have been screened, 34 passed preanalytical quality control, and 18 had actionable mutations for treatment assignment. The NCI-MPACT assay is well suited for its intended investigational use and can serve as a template for developing next-generation sequencing assays for other cancer clinical trial applications.",

author = "Lih, {Chih Jian} and Sims, {David J.} and Harrington, {Robin D.} and Polley, {Eric C.} and Yingdong Zhao and Mehaffey, {Michele G.} and Forbes, {Thomas D.} and Biswajit Das and Walsh, {William D.} and Vivekananda Datta and Harper, {Kneshay N.} and Bouk, {Courtney H.} and Rubinstein, {Lawrence V.} and Simon, {Richard M.} and Conley, {Barbara A.} and Chen, {Alice P.} and Shivaani Kummar and Doroshow, {James H.} and Williams, {Paul M.}",

note = "Funding Information: Supported by federal funds from the National Cancer Institute , NIH , under contracts no. HHSN261200800001E and NO1-CO-2008-00001 (P.M.W.). Publisher Copyright: {\textcopyright} 2016 American Society for Investigative Pathology and the Association for Molecular Pathology.",

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doi = "10.1016/j.jmoldx.2015.07.006",

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T1 - Analytical Validation and Application of a Targeted Next-Generation Sequencing Mutation-Detection Assay for Use in Treatment Assignment in the NCI-MPACT Trial

AU - Lih, Chih Jian

AU - Sims, David J.

AU - Harrington, Robin D.

AU - Polley, Eric C.

AU - Zhao, Yingdong

AU - Mehaffey, Michele G.

AU - Forbes, Thomas D.

AU - Das, Biswajit

AU - Walsh, William D.

AU - Datta, Vivekananda

AU - Harper, Kneshay N.

AU - Bouk, Courtney H.

AU - Rubinstein, Lawrence V.

AU - Simon, Richard M.

AU - Conley, Barbara A.

AU - Chen, Alice P.

AU - Kummar, Shivaani

AU - Doroshow, James H.

AU - Williams, Paul M.

N1 - Funding Information: Supported by federal funds from the National Cancer Institute , NIH , under contracts no. HHSN261200800001E and NO1-CO-2008-00001 (P.M.W.). Publisher Copyright: © 2016 American Society for Investigative Pathology and the Association for Molecular Pathology.

PY - 2016/1/1

Y1 - 2016/1/1

N2 - Robust and analytically validated assays are essential for clinical studies. We outline an analytical validation study of a targeted next-generation sequencing mutation-detection assay used for patient selection in the National Cancer Institute Molecular Profiling-Based Assignment of Cancer Therapy (NCI-MPACT) trial (NCT01827384). Using DNA samples from normal or tumor cell lines and xenografts with known variants, we assessed the sensitivity, specificity, and reproducibility of the NCI-MPACT assay in five variant types: single-nucleotide variants (SNVs), SNVs at homopolymeric (HP) regions (≥3 identical bases), small insertions/deletions (indels), large indels (gap ≥4 bp), and indels at HP regions. The assay achieved sensitivities of 100% for 64 SNVs, nine SNVs at HP regions, and 11 large indels, 83.33% for six indels, and 93.33% for 15 indels at HP regions. Zero false positives (100% specificity) were found in 380 actionable mutation loci in 96 runs of haplotype map cells. Reproducibility analysis showed 96.3% to 100% intraoperator and 98.1% to 100% interoperator mean concordance in detected variants and 100% reproducibility in treatment selection. To date, 38 tumors have been screened, 34 passed preanalytical quality control, and 18 had actionable mutations for treatment assignment. The NCI-MPACT assay is well suited for its intended investigational use and can serve as a template for developing next-generation sequencing assays for other cancer clinical trial applications.

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Analytical Validation and Application of a Targeted Next-Generation Sequencing Mutation-Detection Assay for Use in Treatment Assignment in the NCI-MPACT Trial

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