Sharma Sourabh, Baskaran Mani, Rukmini Annadata V, Nongpiur Monisha E, Htoon HlaMyint, Cheng Ching-Yu, Perera Shamira A, Gooley Joshua J, Aung Tin, Milea Dan
Singapore Eye Research Institute, 11, Third Hospital Avenue #5-00, SNEC Building, Singapore, 168751, Singapore.
Singapore National Eye Center, Singapore, Singapore.
Graefes Arch Clin Exp Ophthalmol. 2016 Jul;254(7):1353-9. doi: 10.1007/s00417-016-3311-4. Epub 2016 Mar 12.
To determine the ocular anatomical factors influencing the pupillary light reactions to different wavelengths of light, measured with chromatic pupillometry.
Community-based, cross-sectional study including subjects with normal ocular health (ages 50-79 years). Direct pupillary responses to continuously increasing irradiances (6.8 to 13.8 log photons cm(-2) s(-1)) of red (631 nm) and blue (469 nm) light were measured, using a dedicated infrared pupillometer. All subjects underwent swept source optical coherence tomography (SS-OCT, CASIA SS-1000, Tomey Corporation, Nagoya, Japan) and noncontact partial coherence laser interferometry (Lenstar LS900, Haag-Streit AG, Switzerland). Univariate and multivariable regression analyses were performed to determine the anatomical features influencing pupillographic parameters.
Among the 177 included subjects, 167 (94.4 %) were Chinese and 116 (65.5 %) female. The average baseline pupil diameter in darkness (β = -0.080, p < 0.001) and the amplitude of the relative pupillary constriction (β = -0.233, p = 0.006) to blue light decreased with age. The amplitude of pupillary constriction was significantly larger in patients with a thinner iris, in response to stimulation with blue (β = -0.321, p < 0.001) and red light (β = -0.336, p < 0.001). Other ocular parameters (i.e., lens vault, anterior chamber depth width, iris volume, iris curvature, and lens thickness) were not significantly associated with pupillometric outcomes.
The amplitude of the pupillary light constriction to chromatic photic stimuli is reduced with increasing age and iris thickness in subjects with normal ocular health, a finding which needs to be integrated into future pupillometric studies.
通过彩色瞳孔测量法,确定影响瞳孔对不同波长光的光反应的眼部解剖学因素。
基于社区的横断面研究,纳入眼部健康正常的受试者(年龄50 - 79岁)。使用专用红外瞳孔计测量对连续增加的红色(631nm)和蓝色(469nm)光辐照度(6.8至13.8 log光子·厘米⁻²·秒⁻¹)的直接瞳孔反应。所有受试者均接受扫频源光学相干断层扫描(SS - OCT,CASIA SS - 1000,日本名古屋多美公司)和非接触式部分相干激光干涉测量(Lenstar LS900,瑞士哈格 - 施特赖特公司)。进行单变量和多变量回归分析以确定影响瞳孔测量参数的解剖学特征。
在纳入的177名受试者中,167名(94.4%)为中国人,116名(65.5%)为女性。黑暗中平均基线瞳孔直径(β = - 0.080,p < 0.001)和对蓝光的相对瞳孔收缩幅度(β = - 0.233,p = 0.006)随年龄增长而减小。虹膜较薄的患者,对蓝光(β = - 0.321,p < 0.001)和红光(β = - 0.336,p < 0.001)刺激的瞳孔收缩幅度明显更大。其他眼部参数(即晶状体拱高、前房深度宽度、虹膜体积、虹膜曲率和晶状体厚度)与瞳孔测量结果无显著相关性。
在眼部健康正常的受试者中,随着年龄增长和虹膜厚度增加,对彩色光刺激的瞳孔光收缩幅度减小,这一发现需要纳入未来的瞳孔测量研究中。
