Abstract Background To quantitatively assess anterior chamber angle (ACA) structure by anterior segment optical coherence tomography (AS-OCT) and develop a model to evaluate angle width as defined by gonioscopy. Methods The ACAs of each quadrant were evaluated by gonioscopy, classified by the Scheie grading system, and assigned into one of the three grades: small angle (SA), moderate angle (MA), and large angle (LA). The eyes were imaged by AS-OCT, and ACA structural parameters including angle opening distance at the scleral spur (AODSS) and at 750?μm anterior to the scleral spur (AOD750), trabecular-iris space area at 750?μm anterior to the scleral spur (TISA750), and a newly defined parameter “light intersection distance” (LID), were measured. The ACA structural data were used to construct an ordered logistic regression model for assignment of ACAs to one of the three angle grades. The validity of the model was then tested. Results A total of 169 quadrants from 53 subjects were included in the analysis, of which 111 quadrants were included in the modeling data and 58 in the testing data. In pairwise comparisons of SA, MA, and LA by ANOVA, the measured parameters were as follows: AOD750 (0.174?±?0.060 vs. 0.249?±?0.068 vs. 0.376?±?0.114?mm; P ?0.001), TISA750 (0.075?±?0.035 vs. 0.117?±?0.036 vs. 0.181?±?0.062?mm 2 ; P ?0.001), and LID (??0.300?±?0.187 vs. -0.085?±?0.170 vs. 0.122?±?0.156?mm; P ?0.001). The ACA grading model based on LID showed a relatively high correction rate of 72.4%, and the model efficiency, calculated using the receiver operating characteristic, showed an area under the curve of 0.740. Weighted kappa statistics showed a good agreement for multiple ACA grades (0.772). Conclusions The AS-OCT-based multiple ACA grades model was demonstrated as a non-contact approach for ACA assessment with high speed and high spatial resolution, providing guidance for diagnosis of angle closure.
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机译:通过前段光学相干断层扫描(AS-OCT)进行定量评估前腔角(ACA)结构的抽象背景,并开发模型以评估由冈镜检查定义的角度宽度。方法对每个象限的ACA通过奇迹镜检查评估,由Scheie分级系统分类,并分配到三个等级中的一个:小角度(SA),中等角度(MA)和大角度(LA)。通过AS-OTT的AS-OTT和ACA结构参数成像,包括在巩膜旋转(AODS)的角度开口距离和750Ω·μm前面的角度开口距离(AOD750),在750Ω·μm前的小梁虹膜空间区域。测量Scleral Spur(TISA750)和新定义的参数“光交叉距离”(盖子)。 ACA结构数据用于构造有序的逻辑回归模型,用于将ACA分配给三个角度等级中的一个。然后测试模型的有效性。结果在分析中,共有来自53个受试者的169个象限,其中111个象限包含在建模数据中,测试数据中的58次象限。在ACOVA的成对比较SA,MA和LA的情况下,测量的参数如下:AOD750(0.174?±±0.060与0.249?±0.376?±0.114Ωmm; p <0.001), Tisa750(0.075?±0.035 vs. 0.117?±0.036 vs. 0.181?±0.062?mm 2; p <0.001)和盖子(?? 0.300?±0.187 Vs. -0.085?±0.170 Vs 。0.122?±0.156?mm; p <0.001)。基于盖子的ACA分级模型显示出72.4%的相对高的校正速率,并且使用接收器操作特性计算的模型效率显示在0.740的曲线下的面积。加权kappa统计数据显示了多个ACA等级(0.772)的良好协议。结论AS-OCT基多ACA等级模型被证明是具有高速和高空间分辨率的ACA评估的非接触方法,为角度闭合的诊断提供指导。
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