Dynamic Iris Changes as a Risk Factor in Primary Angle Closure Disease.
Zhang Ye, Li Si Zhen, Li Lei, He Ming Guang, Thomas Ravi, Wang Ning Li
AI Summary
This study found dynamic iris changes, specifically less iris area loss during pupil dilation, are a risk factor for primary angle closure disease, highlighting its role in disease development.
Abstract
Purpose
We studied the association between dynamic iris changes and the spectrum of primary angle closure disease (PACD), using the anterior segment optical coherence tomography (ASOCT).
Methods
Eligible primary angle closure (PAC), primary angle closure glaucoma (PACG), age, and sex comparable primary angle closure suspects (PACS) and normal subjects from the 5-year follow-up of the Handan Eye Study underwent ASOCT testing in dark and light conditions. The right eye of each subject was analyzed and biometric parameters including iris cross-sectional area (IA), lens vault (LV), pupil diameter (PD), and centroid-to-centroid distance (CCD) were calculated using the Zhongshan Angle Assessment Program.
Results
Totals of 31 PACS, 31 PAC/PACG, and 31 normal eyes were eligible for analysis. Loss of IA per mm PD increase in the dark compared to light was 0.18 mm in PACS, 0.13 mm in PAC/PACG, and 0.24 mm in normal (P = 0.015 between groups) groups. Diagnoses of normal (P = 0.001) and a smaller PD in light (P = 0.003) were statistically significant determinants of a larger IA loss per mm PD increase in the dark compared to light. Logistic regression analysis showed that LV (P = 0.002) and IA loss per mm PD increase (P = 0.017) were risk factors for an occludable angle.
Conclusions
Significant differences in iris behavior in the dark compared to light in PACS, PACD, and normal eyes add to the evidence that dynamic iris change has a role in the pathogenesis of PAC in a rural Chinese population.
MeSH Terms
Shields Classification
Key Concepts4
The loss of iris cross-sectional area (IA) per mm pupil diameter (PD) increase in the dark compared to light was 0.18 mm in primary angle closure suspects (PACS), 0.13 mm in primary angle closure/primary angle closure glaucoma (PAC/PACG), and 0.24 mm in normal eyes (P = 0.015 between groups) in a study of 31 PACS, 31 PAC/PACG, and 31 normal eyes from the Handan Eye Study.
Diagnoses of normal eyes (P = 0.001) and a smaller pupil diameter (PD) in light (P = 0.003) were statistically significant determinants of a larger iris cross-sectional area (IA) loss per mm PD increase in the dark compared to light in a study of 31 PACS, 31 PAC/PACG, and 31 normal eyes from the Handan Eye Study.
Logistic regression analysis showed that lens vault (LV) (P = 0.002) and iris cross-sectional area (IA) loss per mm pupil diameter (PD) increase (P = 0.017) were risk factors for an occludable angle in a study of 31 PACS, 31 PAC/PACG, and 31 normal eyes from the Handan Eye Study.
Significant differences in iris behavior in the dark compared to light in primary angle closure suspects (PACS), primary angle closure disease (PACD), and normal eyes suggest that dynamic iris change has a role in the pathogenesis of primary angle closure (PAC) in a rural Chinese population, based on a study of 31 PACS, 31 PAC/PACG, and 31 normal eyes from the Handan Eye Study.
Related Articles5
Acute Angle Closure Incidence in a Large Countywide Safety Net Teleretinal Screening Program.
Cohort StudyPrimary angle-closed diseases recognition through artificial intelligence-based anterior segment-optical coherence tomography imaging.
Cross-Sectional StudyInvestigating the determinants of iridolenticular contact area: a novel parameter for angle closure.
Cross-Sectional StudyDeep learning-based normative database of anterior chamber dimensions for angle closure assessment: the Singapore Chinese Eye Study.
Cross-Sectional StudyRefractive Error and Anterior Chamber Depth as Risk Factors in Primary Angle Closure Disease: The Chinese American Eye Study.
Cohort StudyIs this article assigned to the wrong chapter(s)? Let us know.