The Clinical Variant Analysis Tool: Analyzing the evidence supporting reported genomic variation in clinical practice

Genomic test results, regardless of laboratory variant classification, require clinical practitioners to judge the applicability of a variant for medical decisions. Teaching and standardizing clinical interpretation of genomic variation calls for a methodology or tool. To generate such a tool, we di...

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Veröffentlicht in:	Genetics in medicine 2022-07, Vol.24 (7), p.1512-1522
Hauptverfasser:	Chin, Hui-Lin, Gazzaz, Nour, Huynh, Stephanie, Handra, Iulia, Warnock, Lynn, Moller-Hansen, Ashley, Boerkoel, Pierre, Jacobsen, Julius O.B., du Souich, Christèle, Zhang, Nan, Shefchek, Kent, Prentice, Leah M., Washington, Nicole, Haendel, Melissa, Armstrong, Linlea, Clarke, Lorne, Li, Wenhui Laura, Smedley, Damian, Robinson, Peter N., Boerkoel, Cornelius F.
Format:	Artikel
Sprache:	eng
Schlagworte:	Exome Exome Sequencing Genetic Testing - methods Genetic Variation - genetics Genomic medicine Genomics - methods Humans Precision medicine Variant classification Variant interpretation
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creator	Chin, Hui-Lin Gazzaz, Nour Huynh, Stephanie Handra, Iulia Warnock, Lynn Moller-Hansen, Ashley Boerkoel, Pierre Jacobsen, Julius O.B. du Souich, Christèle Zhang, Nan Shefchek, Kent Prentice, Leah M. Washington, Nicole Haendel, Melissa Armstrong, Linlea Clarke, Lorne Li, Wenhui Laura Smedley, Damian Robinson, Peter N. Boerkoel, Cornelius F.
description	Genomic test results, regardless of laboratory variant classification, require clinical practitioners to judge the applicability of a variant for medical decisions. Teaching and standardizing clinical interpretation of genomic variation calls for a methodology or tool. To generate such a tool, we distilled the Clinical Genome Resource framework of causality and the American College of Medical Genetics/Association of Molecular Pathology and Quest Diagnostic Laboratory scoring of variant deleteriousness into the Clinical Variant Analysis Tool (CVAT). Applying this to 289 clinical exome reports, we compared the performance of junior practitioners with that of experienced medical geneticists and assessed the utility of reported variants. CVAT enabled performance comparable to that of experienced medical geneticists. In total, 124 of 289 (42.9%) exome reports and 146 of 382 (38.2%) reported variants supported a diagnosis. Overall, 10.5% (1 pathogenic [P] or likely pathogenic [LP] variant and 39 variants of uncertain significance [VUS]) of variants were reported in genes without established disease association; 20.2% (23 P/LP and 54 VUS) were in genes without sufficient phenotypic concordance; 7.3% (15 P/LP and 13 VUS) conflicted with the known molecular disease mechanism; and 24% (91 VUS) had insufficient evidence for deleteriousness. Implementation of CVAT standardized clinical interpretation of genomic variation and emphasized the need for collaborative and transparent reporting of genomic variation. [Display omitted]
doi_str_mv	10.1016/j.gim.2022.03.013
format	Article
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Teaching and standardizing clinical interpretation of genomic variation calls for a methodology or tool. To generate such a tool, we distilled the Clinical Genome Resource framework of causality and the American College of Medical Genetics/Association of Molecular Pathology and Quest Diagnostic Laboratory scoring of variant deleteriousness into the Clinical Variant Analysis Tool (CVAT). Applying this to 289 clinical exome reports, we compared the performance of junior practitioners with that of experienced medical geneticists and assessed the utility of reported variants. CVAT enabled performance comparable to that of experienced medical geneticists. In total, 124 of 289 (42.9%) exome reports and 146 of 382 (38.2%) reported variants supported a diagnosis. Overall, 10.5% (1 pathogenic [P] or likely pathogenic [LP] variant and 39 variants of uncertain significance [VUS]) of variants were reported in genes without established disease association; 20.2% (23 P/LP and 54 VUS) were in genes without sufficient phenotypic concordance; 7.3% (15 P/LP and 13 VUS) conflicted with the known molecular disease mechanism; and 24% (91 VUS) had insufficient evidence for deleteriousness. Implementation of CVAT standardized clinical interpretation of genomic variation and emphasized the need for collaborative and transparent reporting of genomic variation. 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Overall, 10.5% (1 pathogenic [P] or likely pathogenic [LP] variant and 39 variants of uncertain significance [VUS]) of variants were reported in genes without established disease association; 20.2% (23 P/LP and 54 VUS) were in genes without sufficient phenotypic concordance; 7.3% (15 P/LP and 13 VUS) conflicted with the known molecular disease mechanism; and 24% (91 VUS) had insufficient evidence for deleteriousness. Implementation of CVAT standardized clinical interpretation of genomic variation and emphasized the need for collaborative and transparent reporting of genomic variation. 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subjects	Exome Exome Sequencing Genetic Testing - methods Genetic Variation - genetics Genomic medicine Genomics - methods Humans Precision medicine Variant classification Variant interpretation
title	The Clinical Variant Analysis Tool: Analyzing the evidence supporting reported genomic variation in clinical practice
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