Identification of Genomic Loci Determining Susceptibility to the Development of High Myopia

Brief Summary

Detailed Description

Myopia is a worldwide refractive ocular disorder and is the most frequent visual defect in man. It is responsible for a major health problem, affecting around 25% of the western population. High myopia is the most severe form of the myopic spectrum and is defined by an increase of refractive error beyond -5 dioptres. About 2.5% of the general population suffers from this, while the secondary complications are responsible among these patients for the 4th cause of legal blindness. The physiopathology of myopia remains unknown and mechanisms leading to the disease are most probably complex, mixing acquired environmental and genetics factors. Our team in a previous study gathered and analysed an important series of high myopic families: Heritability, segregation and linkage analyses modelling the transmission mode localised two major genomic regions linked to high myopia susceptibility on chromosome 7q36 and chromosome 7p15. Several loci have been described by other teams working on the same topic among different human populations. Very recently reappraisal of 55 families led to the delineation of a complex segregation model of the high myopia phenotype thus claiming an oligo- polygenic mode of transmission. Together these results express the need to collect more cases and to substitute an linkage studies by association studies already conducted in order to increase the power to detect involved loci. To find one or more genomic loci involved in high myopia susceptibility; a polygenic model and association analysis is considered a referent method to decipher the participation of multiple, low acting loci. High density SNPs/CNVs DNA markers covering the whole genome will be used for genotyping. Phenotypes including ophthalmologic evaluation, ethno-geographic origin and familial data will be collected in order to allow further stratification or clustering. Computing of the statistical power of the association analysis conducted to minimize the number of false positive associations and to obtain a 80% of detection power indicated the need of 400 high myopic subjects and 400 controls to be analysed. Collaboration between a Clinical Investigation Center (CIC) and Ophthalmology clinics will be used to overcome recruitment problems. DNA extraction and genotyping will be conducted in Institut national de la santé et de la recherche (INSERM-UPS) unit in Toulouse using the "Toulouse's Génopole" microarrays genotyping facilities.

Primary Outcomes