Insights into myopia gleaned from retinal electrophysiology

Abstract

AbstractThe prevalence of myopia is increasing dramatically. Retinal signalling controls eye growth and a retinal myopia‐signalling cascade has been postulated. One of the strongest genetic associations with myopia susceptibility is a locus near the GJD2 gene which codes for a protein forming gap junctions in the retina. We explored whether any parameters of retinal electrophysiology were associated with presence of the risk allele. Full‐field scotopic and photopic electroretinogram (ERG) recording was performed in over 200 healthy volunteers from the TwinsUK cohort. Responses were elicited by stimuli conforming to international standard protocols and additional experimental protocols aimed at isolating rod and cone system responses. The majority of participants had been genotyped previously for their identity at the relevant locus. A mixed linear model was employed with ERG parameters (amplitudes and peak times) as outcomes and allelic dosage at the relevant locus as a predictor, adjusting for age, sex and inter‐individual relatedness. ERG recordings and genotype data were available for the majority of participants (95% female; mean (SD) age 64.2 (9.7) years). Light adapted single‐flash a‐waves and b‐waves associated significantly with allelic identity at the locus of interest. None of the standard dark‐adapted ERG parameters associated significantly with genotype at this locus. Further investigation of responses to experimental protocols, and those obtained from patients with loss of ON or both ON and OFF bipolar cell responses, suggested changes specific to the cone‐driven OFF pathway. The findings suggest associations between photopic cone‐driven retinal electrophysiological signalling and one of the genetic polymorphisms most strongly linked to myopia. Higher environmental light levels are known to be protective in myopia, and our results support the hypothesis that changes in light‐adapted cone system signalling might play a role in myopia development.