Xie Yuan, Sun Yunxiao, Shao Yaqi, Tian Jiaxing, Fu Yingdi, Yang Diya, Yang Yiquan, Cao Kai, Zhang Ye, Wang Huaizhou, Wang Guozhong, Wang Ningli
Beijing Tongren Eye Center, Beijing Tongren Hospital, Capital Medical University, Beijing Ophthalmology and Visual Sciences Key Laboratory.
Beijing Institute of Ophthalmology, Beijing Tongren Hospital, Capital Medical University.
J Glaucoma. 2025 Feb 1;34(2):136-143. doi: 10.1097/IJG.0000000000002498. Epub 2024 Sep 24.
Hypobaric hypoxia, the major environmental factor at high altitudes, has been observed to induce pupil miosis and widening of the anterior chamber angle. This environment may be safe for individuals with narrow angle and deserves further study.
This study aimed to quantify anterior chamber biometric parameters before and after acute short-term, effortless exposure to hypobaric hypoxia (HH) in healthy lowlanders using swept-source anterior segment optical coherence tomography (SS AS-OCT).
This prospective study included 25 healthy young lowlanders (50 eyes) who underwent SS AS-OCT measurements and intraocular pressure (IOP) assessments under baseline sea-level conditions (T1). They were then passively exposed to simulated 4000 m above sea level for 3 hours and underwent acute mountain sickness (AMS) symptoms evaluation and IOP measurement after 2 hours exposure to HH (T2). Repeat SS AS-OCT measurements and IOP assessments were taken within 15 minutes after leaving the hypobaric chamber (T3). Anterior segment parameters including anterior chamber depth (ACD), lens vault (LV), angle opening distance (AOD500), trabecular-iris space area (TISA500), angle recess area (ARA500) at 500 μm from the scleral spur, iris curvature (IC), iris volume (IV), pupil diameter (PD), and central corneal thickness (CCT) were obtained through SS AS-OCT. These repeated measurements were compared using linear mixed model analysis.
In comparison to the sea level, both IOP (16.4±3.4 vs. 14.9±2.4 mm Hg, P =0.029) and PD (5.36±0.77 vs. 4.78±0.89 mm, P =0.001) significantly decreased after exposure to HH. Significant post-HH changes [mean difference (95% CI)] were observed in AOD500 [0.129 (0.006, 0.252), P =0.04], TISA500 [0.059 (0.008, 0.11), P =0.025], ARA500 [0.074 (0.008, 0.141), P =0.029], IV [1.623 (0.092, 3.154), P =0.038], and IC [-0.073 (-0.146, 0.001), P =0.047], whereas CCT, ACD, and LV remained stable. After adjusting for age, post-HH variations in AOD500 (Beta=0.553, 95% CI: 0.001, 1.105, P =0.048) and TISA500 (Beta=0.256, 95% CI: 0.02, 0.492, P =0.034) were associated with decreased IC but were not related to lowered arterial oxygen pressure or IV increase per millimeter of pupil miosis (IV/PD). These differences in anterior segment parameters were neither correlated with differences in IOP nor AMS.
After short-term, effortless exposure to hypobaric hypoxia, pupil miosis occurred with widening of the anterior chamber angle and decreased IC. These changes in anterior chamber angle parameters were associated with decreased IC but did not correlate with the post-hypobaric variations in IV/PD, IOP, or AMS.
高原慢性间歇性缺氧综合征(PRCIS):低氧环境是高海拔地区的主要环境因素,已观察到其可导致瞳孔缩小和前房角增宽。这种环境对于房角狭窄的个体可能是安全的,值得进一步研究。
本研究旨在使用扫频源眼前节光学相干断层扫描(SS AS-OCT)对健康低海拔人群在急性短期、轻松暴露于低氧环境(HH)前后的前房生物测量参数进行量化。
这项前瞻性研究纳入了25名健康的年轻低海拔人群(50只眼),他们在基线海平面条件下(T1)接受了SS AS-OCT测量和眼压(IOP)评估。然后,他们被动暴露于模拟海拔4000米的环境中3小时,并在暴露于HH 2小时后(T2)进行急性高原病(AMS)症状评估和IOP测量。离开低压舱后15分钟内进行重复的SS AS-OCT测量和IOP评估(T3)。通过SS AS-OCT获得包括前房深度(ACD)、晶状体拱高(LV)、房角开放距离(AOD500)、小梁-虹膜间隙面积(TISA500)、距巩膜突500μm处的房角隐窝面积(ARA500)、虹膜曲率(IC)、虹膜体积(IV)、瞳孔直径(PD)和中央角膜厚度(CCT)等眼前节参数。使用线性混合模型分析对这些重复测量结果进行比较。
与海平面相比,暴露于HH后,IOP(16.4±3.4 vs. 14.9±2.4 mmHg,P =0.029)和PD(5.36±0.77 vs. 4.78±0.89 mm,P =0.001)均显著降低。暴露于HH后,AOD500 [0.129(0.006,0.252),P =0.04]、TISA500 [0.059(0.008,0.11),P =0.025]、ARA500 [0.074(0.008,0.141),P =0.029]、IV [1.623(0.092,3.154),P =0.038]和IC [-0.073(-0.146,0.001),P =0.047]出现显著变化[平均差异(95%CI)],而CCT、ACD和LV保持稳定。在调整年龄后,暴露于HH后AOD500(β=0.553,95%CI:0.001,1.105,P =0.048)和TISA500(β=0.256,95%CI:0.02,0.492,P =0.034)的变化与IC降低相关,但与动脉血氧分压降低或每毫米瞳孔缩小的IV增加(IV/PD)无关。眼前节参数的这些差异与IOP或AMS的差异均无相关性。
在短期、轻松暴露于低氧环境后,出现瞳孔缩小,前房角增宽,IC降低。前房角参数的这些变化与IC降低相关,但与低压暴露后IV/PD、IOP或AMS的变化无关。
