The prediction of genetic risk in congenital cataract patients has great clinical significance. In this trial, the investigators aim to screen the causative variants from 115 unrelated bilateral congenital cataract patients enrolled consecutively, describe novel and recurrent variants, analyze the factors affecting genetic diagnostic yield, and explore potential phenotype-genotype correlation.
Determining whether the disease is hereditary and the precise genetic cause of congenital cataract has great clinical significance in guiding genetic counseling and improving clinical care pathway. Varying among studies, genetic causes account for 8.3-85% of congenital cataracts because of the difference in ethnic background, genetic screening techniques used, the percentage of patients with bilateral cataracts, with a family history, and with syndromic disease. A phenotype-genotype correlation may be used to predict the causative genes, and the involvement of other tissues and organs based on the appearance of the lens. In addition, it can be used to improve our understanding of lens biology. A phenotype-genotype correlation is difficult to establish because of the genotypic and phenotypic heterogeneity of congenital cataracts. In this trail, the investigators aim to screen the causative variants from 115 unrelated bilateral congenital cataract patients enrolled consecutively, describe novel and recurrent variants, analyze the factors affecting genetic diagnostic yield, and explore potential phenotype-genotype correlation. Facial and anterior eye segment photographs, pre- and post-operative ocular parameters, and medical and family histories were recorded. Bioinformatics analysis was performed using whole-exome sequencing data. Statistical and correlation analyses were performed using the basic characteristics, deep phenotype, and genotype data.
Study Type
OBSERVATIONAL
Enrollment
115
Facial photographs of the participants were obtained at the time of enrolment. Pre- and post-operative anterior eye segment photographs were obtained under diffuse, direct focal and retro illumination. Clinical data, including basic information, family history, and comprehensive pre- and post-operative ophthalmic examination findings, were recorded.
Performing whole-exome sequencing and bioinformatics analysis.
Zhongshan Ophthalmic Center, Sun Yat-sen University
Guangzhou, Guangdong, China
Whether the participant has pathogenic genes
Time frame: 2 years
Type of the cataracts
The cataracts were categorized into 17 groups (Membranous cataract, Thin and fibrotic nuclear cataract, Nuclear cataract, Zonular cataract, Pulverulent cataract, Pocket-like cataract, "Ant egg" cataract, Cerulean cataract, Coronary cataract, Coralliform cataract, Cortical cataract, Sutural cataract, Anterior subcapsular cataract, Anterior polar cataract, Posterior subcapsular cataract, Posterior polar cataract, Total cataract)
Time frame: before surgery
Whether the participant has family history
Time frame: 2 years
The symmetricity of the type of cataract
Time frame: before surgery
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