Purpose : Open-angle glaucoma (OAG) is a leading cause of blindness globally, yet the relative contributions of genetic background and the environment to the development of this disease are unclear. As a first step in determining these contributions, we document posterior pole pathology and investigate the association between optic nerve head glaucomatous features, intraocular pressure (IOP), and demographic information, in an exceptionally large cohort of free-ranging rhesus macaques.

Methods : We administered ophthalmological exams under sedation to 55 female and 54 male animals aged 0-21 years (mean age = 6.08; SD = 4.27). IOP was measured using TonoPen and TonoVet Plus tonometers and measurements adjusted using published calibration equations (McAllister et al Optom Vis Sci. 2018). Cup/Disk ratio (CDR) was calculated from clinical examination aided by optical coherence tomography (OCT; Bioptigen Envisu). Posterior pole pathology was documented using fundus imaging. Association between CDR and age, sex, and IOP was assessed using generalized linear mixed models (GLMM) and likelihood ratio tests (LRTs).

Results : The mean (+/- standard deviation) IOP in the 218 eyes measured was 19.32 (+/- 6.24) mmHg. Mean CDR was 0.37 (+/- 0.15). We detected elevated IOP (> 22mmHg) in 78 eyes (36.62%) and CDR > 0.7 was detected in 13 eyes (5.96 %). CDR values were highly concordant in eyes of the same animal (CDR of left and right eyes within 0.2 for all animals. IOP was a significant predictor of CDR (p<0.001) in models that either included or excluded age, and animal sex. The best fitting model included only IOP as a predictor variable (AIC = -196.3). This model was significantly better than models containing age (AIC = -185.8, p = 0.004) or both age and sex (AIC = -183.4). Additional posterior pole pathology included pigmentary macular changes (8 eyes), macular scars (2 eyes), vessel tortuosity (19 eyes), and retinal hemorrhages (5 eyes).

Conclusions : IOP is a significant predictor of CDR in this cohort. Age did not appear to correlate with CDR, but controlling for relatedness may further elucidate impacts of individual biology on OAG. Similarities between rhesus and human glaucomatous phenotypes and the presence of additional retinal pathology in our population may make these animals valuable in the study of other complex human disease, such as age-related macular degeneration.

This is a 2020 ARVO Annual Meeting abstract.