Your search keyword '"Emma Duignan"' showing total 2 results

1. Target 5000: a standardized all-Ireland pathway for the diagnosis and management of inherited retinal degenerations

Author

Kirk A. J. Stephenson, Julia Zhu, Niamh Wynne, Adrian Dockery, Rebecca M. Cairns, Emma Duignan, Laura Whelan, Conor P. Malone, Hilary Dempsey, Karen Collins, Shana Routledge, Rajiv Pandey, Elaine Crossan, Jacqueline Turner, James J. O’Byrne, Laura Brady, Giuliana Silvestri, Paul F. Kenna, G. Jane Farrar, and David J. Keegan

Subjects

Inherited retinal degenerations, Retinal dystrophy, Ocular genetics, Genetic diagnosis, Clinical diagnostic algorithm, Public and patient involvement, Medicine

Abstract

Abstract Introduction Inherited retinal degenerations (IRD) are rare genetic disorders with > 300 known genetic loci, manifesting variably progressive visual dysfunction. IRDs were historically underserved due to lack of effective interventions. Many novel therapies will require accurate diagnosis (phenotype and genotype), thus an efficient and effective pathway for assessment and management is required. Methods Using surveys of existing practice patterns and advice from international experts, an all-Ireland IRD service (Target 5000) was designed. Detailed phenotyping was followed by next generation genetic sequencing in both a research and accredited laboratory. Unresolved pedigrees underwent further studies (whole gene/whole exome/whole genome sequencing). Novel variants were interrogated for pathogenicity (cascade screening, in silico analysis, functional studies). A multidisciplinary team (MDT; ophthalmologists, physicians, geneticists, genetic counsellors) reconciled phenotype with genotype. A bespoke care plan was created for each patient comprising supports, existing interventions, and novel therapies/clinical trials. Results and discussion Prior to Target 5000, a significant cohort of patients were not engaged with healthcare/support services due to lack of effective interventions. Pathogenic or likely pathogenic variants in IRD-associated genes were detected in 62.3%, with 11.6% having variants of unknown significance. The genotyping arm of Target 5000 allowed a 42.73% cost saving over independent testing, plus the value of MDT expertise/processing. Partial funding has transferred from charitable sources to government resources. Conclusion Target 5000 demonstrates efficacious and efficient clinical/genetic diagnosis, while discovering novel IRD-implicated genes/variants and investigating mechanisms of disease and avenues of intervention. This model could be used to develop similar IRD programmes in small/medium-sized nations.

Published

2021

2. Target 5000: a standardized all-Ireland pathway for the diagnosis and management of inherited retinal degenerations

Author

Hilary Dempsey, Paul F. Kenna, Karen Collins, James J. O’Byrne, Laura Whelan, Emma Duignan, Jacqueline Turner, Julia Zhu, Adrian Dockery, Laura Brady, Giuliana Silvestri, Shana Routledge, Rebecca Cairns, Conor Patrick Malone, David J Keegan, Rajiv Pandey, Niamh Wynne, Elaine Crossan, G. Jane Farrar, and Kirk Stephenson

Subjects

0301 basic medicine, Public and patient involvement, Psychological intervention, Clinical diagnostic algorithm, Disease, Bioinformatics, Inherited retinal degenerations, 03 medical and health sciences, 0302 clinical medicine, Retinal Dystrophies, Genotype, Humans, Medicine, Exome, Pharmacology (medical), Letter to the Editor, Genotyping, Genetics (clinical), Whole genome sequencing, business.industry, Ocular genetics, Retinal Degeneration, Retinal dystrophy, General Medicine, Human genetics, Pedigree, Clinical trial, 030104 developmental biology, Genetic diagnosis, Mutation, 030221 ophthalmology & optometry, business, Ireland

Abstract

Introduction Inherited retinal degenerations (IRD) are rare genetic disorders with > 300 known genetic loci, manifesting variably progressive visual dysfunction. IRDs were historically underserved due to lack of effective interventions. Many novel therapies will require accurate diagnosis (phenotype and genotype), thus an efficient and effective pathway for assessment and management is required. Methods Using surveys of existing practice patterns and advice from international experts, an all-Ireland IRD service (Target 5000) was designed. Detailed phenotyping was followed by next generation genetic sequencing in both a research and accredited laboratory. Unresolved pedigrees underwent further studies (whole gene/whole exome/whole genome sequencing). Novel variants were interrogated for pathogenicity (cascade screening, in silico analysis, functional studies). A multidisciplinary team (MDT; ophthalmologists, physicians, geneticists, genetic counsellors) reconciled phenotype with genotype. A bespoke care plan was created for each patient comprising supports, existing interventions, and novel therapies/clinical trials. Results and discussion Prior to Target 5000, a significant cohort of patients were not engaged with healthcare/support services due to lack of effective interventions. Pathogenic or likely pathogenic variants in IRD-associated genes were detected in 62.3%, with 11.6% having variants of unknown significance. The genotyping arm of Target 5000 allowed a 42.73% cost saving over independent testing, plus the value of MDT expertise/processing. Partial funding has transferred from charitable sources to government resources. Conclusion Target 5000 demonstrates efficacious and efficient clinical/genetic diagnosis, while discovering novel IRD-implicated genes/variants and investigating mechanisms of disease and avenues of intervention. This model could be used to develop similar IRD programmes in small/medium-sized nations.

Published

2021