Diagnostic utility of exome sequencing in the evaluation of neuromuscular disorders

Gloria T. Haskell; Michael C. Adams; Zheng Fan; Krunal Amin; Roberto J.Guzman Badillo; Linran Zhou; Christopher Bizon; Nizar Chahin; Robert S. Greenwood; Laura V. Milko; Yael Shiloh-Malawsky; Kristy R. Crooks; Natasha Strande; Michael Tennison; Christian R. Tilley; Alicia Brandt; Kirk C. Wilhelmsen; Karen Weck; James P. Evans; Jonathan S. Berg

doi:10.1212/NXG.0000000000000212

Diagnostic utility of exome sequencing in the evaluation of neuromuscular disorders

Gloria T. Haskell, Michael C. Adams, Zheng Fan, Krunal Amin, Roberto J.Guzman Badillo, Linran Zhou, Christopher Bizon, Nizar Chahin, Robert S. Greenwood, Laura V. Milko, Yael Shiloh-Malawsky, Kristy R. Crooks, Natasha Strande, Michael Tennison, Christian R. Tilley, Alicia Brandt, Kirk C. Wilhelmsen, Karen Weck, James P. Evans, Jonathan S. Berg

Neurology

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

38 Scopus citations

Abstract

Objective: To evaluate the diagnostic yield and workflow of genome-scale sequencing in patients with neuromuscular disorders (NMDs). Methods: We performed exome sequencing in 93 undiagnosed patients with various NMDs for whom a molecular diagnosis was not yet established. Variants on both targeted and broad diagnostic gene lists were identified. Prior diagnostic tests were extracted from the patient's medical record to evaluate the use of exome sequencing in the context of their prior diagnostic workup. Results: The overall diagnostic yield of exome sequencing in our cohort was 12.9%, with one or more pathogenic or likely pathogenic variants identified in a causative gene associated with the patient's disorder. Targeted gene lists had the same diagnostic yield as a broad NMD gene list in patients with clear neuropathy or myopathy phenotypes, but evaluation of a broader set of disease genes was needed for patients with complex NMD phenotypes. Most patients with NMD had undergone prior testing, but only 10/16 (63%) of these procedures, such as muscle biopsy, were informative in pointing to a final molecular diagnosis. Conclusions: Genome-scale sequencing or analysis of a panel of relevant genes used early in the evaluation of patients with NMDs can provide or clarify a diagnosis and minimize invasive testing in many cases.

Original language	English (US)
Article number	e212
Journal	Neurology: Genetics
Volume	4
Issue number	1
DOIs	https://doi.org/10.1212/NXG.0000000000000212
State	Published - Feb 1 2018

ASJC Scopus subject areas

Clinical Neurology
Genetics(clinical)

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Haskell, G. T., Adams, M. C., Fan, Z., Amin, K., Badillo, R. J. G., Zhou, L., Bizon, C., Chahin, N., Greenwood, R. S., Milko, L. V., Shiloh-Malawsky, Y., Crooks, K. R., Strande, N., Tennison, M., Tilley, C. R., Brandt, A., Wilhelmsen, K. C., Weck, K., Evans, J. P., & Berg, J. S. (2018). Diagnostic utility of exome sequencing in the evaluation of neuromuscular disorders. Neurology: Genetics, 4(1), Article e212. https://doi.org/10.1212/NXG.0000000000000212

Haskell, GT, Adams, MC, Fan, Z, Amin, K, Badillo, RJG, Zhou, L, Bizon, C, Chahin, N, Greenwood, RS, Milko, LV, Shiloh-Malawsky, Y, Crooks, KR, Strande, N, Tennison, M, Tilley, CR, Brandt, A, Wilhelmsen, KC, Weck, K, Evans, JP & Berg, JS 2018, 'Diagnostic utility of exome sequencing in the evaluation of neuromuscular disorders', Neurology: Genetics, vol. 4, no. 1, e212. https://doi.org/10.1212/NXG.0000000000000212

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title = "Diagnostic utility of exome sequencing in the evaluation of neuromuscular disorders",

abstract = "Objective: To evaluate the diagnostic yield and workflow of genome-scale sequencing in patients with neuromuscular disorders (NMDs). Methods: We performed exome sequencing in 93 undiagnosed patients with various NMDs for whom a molecular diagnosis was not yet established. Variants on both targeted and broad diagnostic gene lists were identified. Prior diagnostic tests were extracted from the patient's medical record to evaluate the use of exome sequencing in the context of their prior diagnostic workup. Results: The overall diagnostic yield of exome sequencing in our cohort was 12.9%, with one or more pathogenic or likely pathogenic variants identified in a causative gene associated with the patient's disorder. Targeted gene lists had the same diagnostic yield as a broad NMD gene list in patients with clear neuropathy or myopathy phenotypes, but evaluation of a broader set of disease genes was needed for patients with complex NMD phenotypes. Most patients with NMD had undergone prior testing, but only 10/16 (63%) of these procedures, such as muscle biopsy, were informative in pointing to a final molecular diagnosis. Conclusions: Genome-scale sequencing or analysis of a panel of relevant genes used early in the evaluation of patients with NMDs can provide or clarify a diagnosis and minimize invasive testing in many cases.",

author = "Haskell, {Gloria T.} and Adams, {Michael C.} and Zheng Fan and Krunal Amin and Badillo, {Roberto J.Guzman} and Linran Zhou and Christopher Bizon and Nizar Chahin and Greenwood, {Robert S.} and Milko, {Laura V.} and Yael Shiloh-Malawsky and Crooks, {Kristy R.} and Natasha Strande and Michael Tennison and Tilley, {Christian R.} and Alicia Brandt and Wilhelmsen, {Kirk C.} and Karen Weck and Evans, {James P.} and Berg, {Jonathan S.}",

note = "Funding Information: North Carolina Clinical Genomic Evaluation by NextGen Exome Sequencing (NCGENES). NIH U01HG006487. Funding Information: G.T. Haskell, M.C. Adams, Z. Fan, K. Amin, R.J.G. Badillo, L. Zhou, C. Bizon, and N. Chahin report no disclosures. R.S. Greenwood has received research support from GW Research Ltd. L.V. Milko and Y. Sholoh-Malawsky report no disclosures. K.R. Crooks has received travel funding from Johnson & Johnson. N. Strande, M. Tennison, C.R. Tilley, and A. Brandt report no disclosures. K.C. Wilhelmsen has received research support from the NIH. K. Weck has served on the editorial boards of Genetics in Medicine, the Journal of Molecular Diagnostics, and the American Journal of Pathology; coholds a patent for Method for detecting BK virus and related compositions; has been a consultant for Laboratory Oversight Committee, Molecular Evidence Development Consortium (MED-C), and BlueCross BlueShield of North Carolina (Consultant Advisory Panel); has received research Funding Information: The Article Processing Charge was funded by the authors. Publisher Copyright: Copyright {\textcopyright} 2018 The Author(s).",

year = "2018",

month = feb,

day = "1",

doi = "10.1212/NXG.0000000000000212",

language = "English (US)",

volume = "4",

journal = "Neurology: Genetics",

issn = "2376-7839",

publisher = "Lippincott Williams and Wilkins",

number = "1",

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TY - JOUR

T1 - Diagnostic utility of exome sequencing in the evaluation of neuromuscular disorders

AU - Haskell, Gloria T.

AU - Adams, Michael C.

AU - Fan, Zheng

AU - Amin, Krunal

AU - Badillo, Roberto J.Guzman

AU - Zhou, Linran

AU - Bizon, Christopher

AU - Chahin, Nizar

AU - Greenwood, Robert S.

AU - Milko, Laura V.

AU - Shiloh-Malawsky, Yael

AU - Crooks, Kristy R.

AU - Strande, Natasha

AU - Tennison, Michael

AU - Tilley, Christian R.

AU - Brandt, Alicia

AU - Wilhelmsen, Kirk C.

AU - Weck, Karen

AU - Evans, James P.

AU - Berg, Jonathan S.

N1 - Funding Information: North Carolina Clinical Genomic Evaluation by NextGen Exome Sequencing (NCGENES). NIH U01HG006487. Funding Information: G.T. Haskell, M.C. Adams, Z. Fan, K. Amin, R.J.G. Badillo, L. Zhou, C. Bizon, and N. Chahin report no disclosures. R.S. Greenwood has received research support from GW Research Ltd. L.V. Milko and Y. Sholoh-Malawsky report no disclosures. K.R. Crooks has received travel funding from Johnson & Johnson. N. Strande, M. Tennison, C.R. Tilley, and A. Brandt report no disclosures. K.C. Wilhelmsen has received research support from the NIH. K. Weck has served on the editorial boards of Genetics in Medicine, the Journal of Molecular Diagnostics, and the American Journal of Pathology; coholds a patent for Method for detecting BK virus and related compositions; has been a consultant for Laboratory Oversight Committee, Molecular Evidence Development Consortium (MED-C), and BlueCross BlueShield of North Carolina (Consultant Advisory Panel); has received research Funding Information: The Article Processing Charge was funded by the authors. Publisher Copyright: Copyright © 2018 The Author(s).

PY - 2018/2/1

Y1 - 2018/2/1

N2 - Objective: To evaluate the diagnostic yield and workflow of genome-scale sequencing in patients with neuromuscular disorders (NMDs). Methods: We performed exome sequencing in 93 undiagnosed patients with various NMDs for whom a molecular diagnosis was not yet established. Variants on both targeted and broad diagnostic gene lists were identified. Prior diagnostic tests were extracted from the patient's medical record to evaluate the use of exome sequencing in the context of their prior diagnostic workup. Results: The overall diagnostic yield of exome sequencing in our cohort was 12.9%, with one or more pathogenic or likely pathogenic variants identified in a causative gene associated with the patient's disorder. Targeted gene lists had the same diagnostic yield as a broad NMD gene list in patients with clear neuropathy or myopathy phenotypes, but evaluation of a broader set of disease genes was needed for patients with complex NMD phenotypes. Most patients with NMD had undergone prior testing, but only 10/16 (63%) of these procedures, such as muscle biopsy, were informative in pointing to a final molecular diagnosis. Conclusions: Genome-scale sequencing or analysis of a panel of relevant genes used early in the evaluation of patients with NMDs can provide or clarify a diagnosis and minimize invasive testing in many cases.

AB - Objective: To evaluate the diagnostic yield and workflow of genome-scale sequencing in patients with neuromuscular disorders (NMDs). Methods: We performed exome sequencing in 93 undiagnosed patients with various NMDs for whom a molecular diagnosis was not yet established. Variants on both targeted and broad diagnostic gene lists were identified. Prior diagnostic tests were extracted from the patient's medical record to evaluate the use of exome sequencing in the context of their prior diagnostic workup. Results: The overall diagnostic yield of exome sequencing in our cohort was 12.9%, with one or more pathogenic or likely pathogenic variants identified in a causative gene associated with the patient's disorder. Targeted gene lists had the same diagnostic yield as a broad NMD gene list in patients with clear neuropathy or myopathy phenotypes, but evaluation of a broader set of disease genes was needed for patients with complex NMD phenotypes. Most patients with NMD had undergone prior testing, but only 10/16 (63%) of these procedures, such as muscle biopsy, were informative in pointing to a final molecular diagnosis. Conclusions: Genome-scale sequencing or analysis of a panel of relevant genes used early in the evaluation of patients with NMDs can provide or clarify a diagnosis and minimize invasive testing in many cases.

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ER -

Diagnostic utility of exome sequencing in the evaluation of neuromuscular disorders

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