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Next generation sequencing using phenotype-based panels for genetic testing in inherited retinal diseases

Mital Shah, Morag Shanks, Emily Packham, Jonathan Williams, Jesse Haysmoore, Robert E. MacLaren, Andrea H. Németh, Penny Clouston, Susan M. Downes

2020Ophthalmic Genetics32 citationsDOI

Abstract

INTRODUCTION: Diagnostic next generation sequencing (NGS) services for patients with inherited retinal diseases (IRD) traditionally use gene panel based approaches, which have cost and resource implications. Phenotype-based gene panels use a targeted strategy with further testing protocols, if initial results are negative. We present the molecular findings of the Oxford phenotype-based NGS panels for genetic testing in IRD. METHODS: Results of 655 consecutive patients referred for phenotype-based panel testing over 54 months were analysed to assess diagnostic yield. RESULTS: Variants were identified in 450 patients (68.7%). The overall diagnostic yield from phenotype-based panels was 42.8%. The diagnostic yield was highest from panels representing distinct clinical phenotypes: Usher panel 90.9% and congenital stationary night blindness panel 75.0%. Retinitis pigmentosa/rod-cone dystrophy was the commonest presenting phenotype (n = 243) and Usher syndrome was the commonest presenting syndromic disease (n = 39). Patients presenting with late-onset (≥50 years) macular disease had a lower diagnostic yield (18.0%) compared with patients <50 years (24.2%). Additionally, a diagnostic yield of 1.8% was attributable to copy number variants. CONCLUSIONS: Phenotype-based genetic testing panels provide a targeted testing approach and reduce bioinformatics demand. The overall diagnostic yield achieved in this study reflects the wide range of phenotypes that were referred. This pragmatic approach provides a high yield for early-onset and clearly defined genetically determined disorders but clinical utility is not as clear for late-onset macular disorders. This phenotype-based panel approach is clinician-referrer orientated, and can be used as a front-end virtual panel, when whole genome sequencing is introduced into diagnostic services for IRD.

Topics & Concepts

Retinitis pigmentosaPhenotypeGenetic testingMedicineGeneticsGenetic heterogeneityBioinformaticsPathologyBiologyGeneInternal medicineRetinal Development and DisordersGenomics and Rare DiseasesCRISPR and Genetic Engineering
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