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The Oculome Panel Test

Authors :
Tommaso B. Jannini
Vijay Tailor
Ken K. Nischal
Rodney Nyanhete
Lily Islam
Helena Ahlfors
Maria Bitner-Glindzicz
Mario Zanolli
John Brookes
Camila Gabriel
Thomas Cullup
Mariya Moosajee
Lucy Jenkins
Peng T. Khaw
Robert H. Henderson
Aara Patel
Jane Hayward
Annegret Dahlmann-Noor
Maria Papadopoulos
Leonardo E Valdivia
Jane A. Hurst
Yassir Abbou-Rayyah
Jane C. Sowden
Source :
Ophthalmology. 126:888-907
Publication Year :
2019
Publisher :
Elsevier BV, 2019.

Abstract

Purpose To develop a comprehensive next-generation sequencing panel assay that screens genes known to cause developmental eye disorders and inherited eye disease and to evaluate its diagnostic yield in a pediatric cohort with malformations of the globe, anterior segment anomalies, childhood glaucoma, or a combination thereof. Design Evaluation of diagnostic test. Participants Two hundred seventy-seven children, 0 to 16 years of age, diagnosed with nonsyndromic or syndromic developmental eye defects without a genetic diagnosis. Methods We developed a new oculome panel using a custom-designed Agilent SureSelect QXT target capture method (Agilent Technologies, Santa Clara, CA) to capture and perform parallel high-throughput sequencing analysis of 429 genes associated with eye disorders. Bidirectional Sanger sequencing confirmed suspected pathogenic variants. Main Outcome Measures Collated clinical details and oculome molecular genetic results. Results The oculome design covers 429 known eye disease genes; these are subdivided into 5 overlapping virtual subpanels for anterior segment developmental anomalies including glaucoma (ASDA; 59 genes), microphthalmia–anophthalmia–coloboma (MAC; 86 genes), congenital cataracts and lens-associated conditions (70 genes), retinal dystrophies (RET; 235 genes), and albinism (15 genes), as well as additional genes implicated in optic atrophy and complex strabismus (10 genes). Panel development and testing included analyzing 277 clinical samples and 3 positive control samples using Illumina sequencing platforms; more than 30× read depth was achieved for 99.5% of the targeted 1.77-Mb region. Bioinformatics analysis performed using a pipeline based on Freebayes and ExomeDepth to identify coding sequence and copy number variants, respectively, resulted in a definitive diagnosis in 68 of 277 samples, with variability in diagnostic yield between phenotypic subgroups: MAC, 8.2% (8 of 98 cases solved); ASDA, 24.8% (28 of 113 cases solved); other or syndromic, 37.5% (3 of 8 cases solved); RET, 42.8% (21 of 49 cases solved); and congenital cataracts and lens-associated conditions, 88.9% (8 of 9 cases solved). Conclusions The oculome test diagnoses a comprehensive range of genetic conditions affecting the development of the eye, potentially replacing protracted and costly multidisciplinary assessments and allowing for faster targeted management. The oculome enabled molecular diagnosis of a significant number of cases in our sample cohort of varied ocular birth defects.

Details

ISSN :
01616420
Volume :
126
Database :
OpenAIRE
Journal :
Ophthalmology
Accession number :
edsair.doi...........6c9daa2bded40b3fbda0cba928be46f0
Full Text :
https://doi.org/10.1016/j.ophtha.2018.12.050