潜在的阿托品性近视和反弹效应的脉络膜机制:一项随机临床试验的中介分析。
Potential Choroidal Mechanisms Underlying Atropine's Antimyopic and Rebound Effects: A Mediation Analysis in a Randomized Clinical Trial.
机构信息
Department of Ophthalmology, Shanghai General Hospital, Shanghai Jiao Tong University School of Medicine, National Clinical Research Center for Eye Diseases, Shanghai Key Laboratory of Ocular Fundus Diseases, Shanghai Engineering Center for Visual Science and Photomedicine, Shanghai Engineering Center for Precise Diagnosis and Treatment of Eye Diseases, Shanghai, China.
Shanghai Eye Disease Prevention and Treatment Center, Shanghai Eye Hospital, Shanghai, China.
出版信息
Invest Ophthalmol Vis Sci. 2023 Apr 3;64(4):13. doi: 10.1167/iovs.64.4.13.
PURPOSE
To investigate whether choroidal vascularity participates in high-dose atropine's antimyopia and rebound mechanisms.
METHODS
A mediation analysis was embedded within a randomized controlled trial. In total, 207 myopic children were assigned randomly to group A/B. Participants in group A received 1% atropine weekly (phase 1) and 0.01% atropine daily (phase 2) for 6 months each. Those in group B received 0.01% atropine daily for 1 year. Four plausible intervention mediators were assessed: total choroidal area (TCA), luminal area (LA), stromal area (SA), and choroidal vascularity index (CVI).
RESULTS
In group A, LA, SA, and TCA increased significantly after receiving 1% atropine for 6 months. The increment diminished after tapering to 0.01% atropine. In group B, those parameters remained stable. TCA mediated approximately one-third of 1% atropine's effect on spherical equivalent progression in both phases. In phase 1, the mediation effect of TCA was shared by LA and SA, while only that of LA remained significant in phase 2. No mediation effect of CVI was found.
CONCLUSIONS
One percent atropine induced choroidal thickening by increasing both LA and SA, while 0.01% atropine had little choroidal response. The choroidal changes following 1% atropine treatment diminished after switching to 0.01% atropine. TCA, but not CVI, partially explains atropine's antimyopic and myopic-rebound mechanisms. SA may serve as a potential biomarker to predict the postrebound treatment efficacy of high-dose atropine. (ClinicalTrials.gov number, NCT03949101.).
目的
探讨脉络膜血管是否参与高剂量阿托品的近视抑制和反弹机制。
方法
在一项随机对照试验中嵌入了中介分析。共有 207 名近视儿童被随机分为 A 组/B 组。A 组参与者每周接受 1%阿托品(第 1 阶段)和每天接受 0.01%阿托品(第 2 阶段),每个阶段持续 6 个月。B 组参与者每天接受 0.01%阿托品治疗 1 年。评估了四个可能的干预中介:总脉络膜面积(TCA)、管腔面积(LA)、基质面积(SA)和脉络膜血管指数(CVI)。
结果
在 A 组中,接受 1%阿托品治疗 6 个月后,LA、SA 和 TCA 显著增加。减少到 0.01%阿托品后,增量减少。在 B 组中,这些参数保持稳定。TCA 在两个阶段都介导了约三分之一的 1%阿托品对等效球镜进展的作用。在第 1 阶段,TCA 的中介作用由 LA 和 SA 共同介导,而在第 2 阶段,仅 LA 的中介作用仍然显著。未发现 CVI 的中介作用。
结论
1%阿托品通过增加 LA 和 SA 引起脉络膜增厚,而 0.01%阿托品对脉络膜几乎没有反应。1%阿托品治疗后,切换到 0.01%阿托品时,脉络膜变化减少。TCA,但不是 CVI,部分解释了阿托品的近视抑制和近视反弹机制。SA 可能是预测高剂量阿托品反弹后治疗效果的潜在生物标志物。(临床试验.gov 编号,NCT03949101.)。
Zotero 插件