We further assessed the association between the 12 PRSs for myopia with IOP (
n = 11,097), three optic disc parameters to include VCDR (
n = 10,433), cup area (
n = 10,404) and disc area (
n = 10,418), and RNFL measured by OCT (
n = 2215) using linear regression. In total, 1.68% (187/11,097) of the participants from the RS received IOP-lowering medication (see
Supplementary Table S4); in those individuals, we added 30% to the IOP measurement to estimate a premedication IOP value.
26 We excluded from the analysis those patients who underwent IOP-lowering laser or surgery. IOP and optic disc parameter analyses were corrected for age, sex, the first five principal components, and cohort. Disc area analyses were not corrected for eye size effect, as the main purpose of this study was to investigate whether there is an association between the PRSs for myopia and optic disc parameters. For the RNFL analysis, we excluded participants with age-related macular degeneration, cataract, aphakia, or pseudophakia, and scans with poor quality (i.e., image quality value < 45) as previously reported.
27 RNFL analyses were corrected for age, sex, the first five principal components, cohort, and OCT device, and an extra analysis including axial length was also performed. The proportion of variance explained by each PRS was calculated as the difference of
R2 in the full model as compared with the null model, which included the previously mentioned covariates but not the polygenic score.
P values were determined from likelihood ratio tests, which compared the full model with the null model. Given the known relation between high myopia ≤ −6.00 D and POAG, we ran the same analyses in a subset of individuals of the RS with high myopia (≤−6.00 D,
n = 232), and with moderate myopia (−5.99 to −3.00 D,
n = 771). Given the limited number of participants with OCT data available, RNFL was not analyzed in the subgroup of individuals with high and moderate myopia. In the RS, we analyzed 12 PRSs in three subgroups (i.e., high myopia, moderate myopia, and all), and two categories of phenotypes (IOP and optic disc parameters). In addition, we tested whether the 12 PRSs were associated with RNFL in a subgroup of the RS with OCT data available, for a total of 84 tests in the RS. In ANZRAG we explored 12 PRSs. Hence, we set our Bonferroni-corrected threshold to 5.2 × 10
−4 (0.05/96). All regression analyses in ANZRAG and RS were performed using the statistical package R (version 3.3.3; R Foundation for Statistical Computing, Vienna, Austria).