Improved sensitivity for detection of pathogenic variants in familial NF2-related schwannomatosis

Cristina Perez-Becerril; George J Burghel; Claire Hartley; Charles F Rowlands; D Gareth Evans; Miriam J Smith

doi:10.1136/jmg-2023-109586

Improved sensitivity for detection of pathogenic variants in familial NF2-related schwannomatosis

Cristina Perez-Becerril, George J Burghel, Claire Hartley, Charles F Rowlands, D Gareth Evans, Miriam J Smith

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Abstract

PURPOSE: To determine the impact of additional genetic screening techniques on the rate of detection of pathogenic variants leading to familial NF2-related schwannomatosis.

METHODS: We conducted genetic screening of a cohort of 168 second-generation individuals meeting the clinical criteria for NF2-related schwannomatosis. In addition to the current clinical screening techniques, targeted next-generation sequencing (NGS) and multiplex ligation-dependent probe amplification analysis, we applied additional genetic screening techniques, including karyotype and RNA analysis. For characterisation of a complex structural variant, we also performed long-read sequencing analysis.

RESULTS: Additional genetic analysis resulted in increased sensitivity of detection of pathogenic variants from 87% to 95% in our second-generation NF2-related schwannomatosis cohort. A number of pathogenic variants identified through extended analysis had been previously observed after NGS analysis but had been overlooked or classified as variants of uncertain significance.

CONCLUSION: Our study indicates there is added value in performing additional genetic analysis for detection of pathogenic variants that are difficult to identify with current clinical genetic screening methods. In particular, RNA analysis is valuable for accurate classification of non-canonical splicing variants. Karyotype analysis and whole genome sequencing analysis are of particular value for identification of large and/or complex structural variants, with additional advantages in the use of long-read sequencing techniques.

Original language	English
Article number	109586
Pages (from-to)	452-458
Number of pages	7
Journal	Journal of Medical Genetics
Volume	61
Issue number	5
Early online date	19 Apr 2024
DOIs	https://doi.org/10.1136/jmg-2023-109586
Publication status	Published - 1 May 2024

Keywords

Humans
Neurofibromatoses/diagnosis
Neurilemmoma/diagnosis
Skin Neoplasms/diagnosis
RNA
High-Throughput Nucleotide Sequencing/methods

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1136/jmg-2023-109586

Sensitivity_MainDocument_and_FiguresAccepted author manuscript, 1.36 MBLicence: CC BY

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abstract = "PURPOSE: To determine the impact of additional genetic screening techniques on the rate of detection of pathogenic variants leading to familial NF2-related schwannomatosis. METHODS: We conducted genetic screening of a cohort of 168 second-generation individuals meeting the clinical criteria for NF2-related schwannomatosis. In addition to the current clinical screening techniques, targeted next-generation sequencing (NGS) and multiplex ligation-dependent probe amplification analysis, we applied additional genetic screening techniques, including karyotype and RNA analysis. For characterisation of a complex structural variant, we also performed long-read sequencing analysis. RESULTS: Additional genetic analysis resulted in increased sensitivity of detection of pathogenic variants from 87% to 95% in our second-generation NF2-related schwannomatosis cohort. A number of pathogenic variants identified through extended analysis had been previously observed after NGS analysis but had been overlooked or classified as variants of uncertain significance. CONCLUSION: Our study indicates there is added value in performing additional genetic analysis for detection of pathogenic variants that are difficult to identify with current clinical genetic screening methods. In particular, RNA analysis is valuable for accurate classification of non-canonical splicing variants. Karyotype analysis and whole genome sequencing analysis are of particular value for identification of large and/or complex structural variants, with additional advantages in the use of long-read sequencing techniques.",

keywords = "Humans, Neurofibromatoses/diagnosis, Neurilemmoma/diagnosis, Skin Neoplasms/diagnosis, RNA, High-Throughput Nucleotide Sequencing/methods",

author = "Cristina Perez-Becerril and Burghel, {George J} and Claire Hartley and Rowlands, {Charles F} and Evans, {D Gareth} and Smith, {Miriam J}",

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AU - Perez-Becerril, Cristina

AU - Burghel, George J

AU - Hartley, Claire

AU - Rowlands, Charles F

AU - Evans, D Gareth

AU - Smith, Miriam J

N1 - © Author(s) (or their employer(s)) 2024. No commercial re-use. See rights and permissions. Published by BMJ.

PY - 2024/5/1

Y1 - 2024/5/1

N2 - PURPOSE: To determine the impact of additional genetic screening techniques on the rate of detection of pathogenic variants leading to familial NF2-related schwannomatosis. METHODS: We conducted genetic screening of a cohort of 168 second-generation individuals meeting the clinical criteria for NF2-related schwannomatosis. In addition to the current clinical screening techniques, targeted next-generation sequencing (NGS) and multiplex ligation-dependent probe amplification analysis, we applied additional genetic screening techniques, including karyotype and RNA analysis. For characterisation of a complex structural variant, we also performed long-read sequencing analysis. RESULTS: Additional genetic analysis resulted in increased sensitivity of detection of pathogenic variants from 87% to 95% in our second-generation NF2-related schwannomatosis cohort. A number of pathogenic variants identified through extended analysis had been previously observed after NGS analysis but had been overlooked or classified as variants of uncertain significance. CONCLUSION: Our study indicates there is added value in performing additional genetic analysis for detection of pathogenic variants that are difficult to identify with current clinical genetic screening methods. In particular, RNA analysis is valuable for accurate classification of non-canonical splicing variants. Karyotype analysis and whole genome sequencing analysis are of particular value for identification of large and/or complex structural variants, with additional advantages in the use of long-read sequencing techniques.

AB - PURPOSE: To determine the impact of additional genetic screening techniques on the rate of detection of pathogenic variants leading to familial NF2-related schwannomatosis. METHODS: We conducted genetic screening of a cohort of 168 second-generation individuals meeting the clinical criteria for NF2-related schwannomatosis. In addition to the current clinical screening techniques, targeted next-generation sequencing (NGS) and multiplex ligation-dependent probe amplification analysis, we applied additional genetic screening techniques, including karyotype and RNA analysis. For characterisation of a complex structural variant, we also performed long-read sequencing analysis. RESULTS: Additional genetic analysis resulted in increased sensitivity of detection of pathogenic variants from 87% to 95% in our second-generation NF2-related schwannomatosis cohort. A number of pathogenic variants identified through extended analysis had been previously observed after NGS analysis but had been overlooked or classified as variants of uncertain significance. CONCLUSION: Our study indicates there is added value in performing additional genetic analysis for detection of pathogenic variants that are difficult to identify with current clinical genetic screening methods. In particular, RNA analysis is valuable for accurate classification of non-canonical splicing variants. Karyotype analysis and whole genome sequencing analysis are of particular value for identification of large and/or complex structural variants, with additional advantages in the use of long-read sequencing techniques.

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Improved sensitivity for detection of pathogenic variants in familial NF2-related schwannomatosis

Abstract

Keywords

UN SDGs

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