Kundu Gairik, Shetty Rohit, Khamar Pooja, Mullick Ritika, Gupta Sneha, Nuijts Rudy, Sinha Roy Abhijit
Cornea and Refractive, Narayana Nethralaya, Bangalore, Karnataka, India.
Department of Cornea and Refractive Surgery, Narayana Nethralaya, Bangalore, Karnataka, India.
Br J Ophthalmol. 2023 May;107(5):635-643. doi: 10.1136/bjophthalmol-2021-319309. Epub 2021 Dec 16.
To develop a comprehensive three-dimensional analyses of segmental tomography (placido and optical coherence tomography) using artificial intelligence (AI).
Preoperative imaging data (MS-39, CSO, Italy) of refractive surgery patients with stable outcomes and diagnosed with asymmetric or bilateral keratoconus (KC) were used. The curvature, wavefront aberrations and thickness distributions were analysed with Zernike polynomials (ZP) and a random forest (RF) AI model. For training and cross-validation, there were groups of healthy (n=527), very asymmetric ectasia (VAE; n=144) and KC (n=454). The VAE eyes were the fellow eyes of KC patients but no further manual segregation of these eyes into subclinical or forme-fruste was performed.
The AI achieved an excellent area under the curve (0.994), accuracy (95.6%), recall (98.5%) and precision (92.7%) for the healthy eyes. For the KC eyes, the same were 0.997, 99.1%, 98.7% and 99.1%, respectively. For the VAE eyes, the same were 0.976, 95.5%, 71.5% and 91.2%, respectively. Interestingly, the AI reclassified 36 (subclinical) of the VAE eyes as healthy though these eyes were distinct from healthy eyes. Most of the remaining VAE (n=104; forme fruste) eyes retained their classification, and were distinct from both KC and healthy eyes. Further, the posterior surface features were not among the highest ranked variables by the AI model.
A universal architecture of combining segmental tomography with ZP and AI was developed. It achieved an excellent classification of healthy and KC eyes. The AI efficiently classified the VAE eyes as 'subclinical' and 'forme-fruste'.
利用人工智能(AI)对节段性断层扫描(普拉西多和光学相干断层扫描)进行全面的三维分析。
使用意大利CSO公司MS-39的屈光手术患者术前成像数据,这些患者术后效果稳定,被诊断为不对称或双侧圆锥角膜(KC)。用泽尼克多项式(ZP)和随机森林(RF)人工智能模型分析曲率、波前像差和厚度分布。为了进行训练和交叉验证,将患者分为健康组(n=527)、极不对称扩张组(VAE;n=144)和KC组(n=454)。VAE眼是KC患者的对侧眼,但未对这些眼进一步手动分类为亚临床或顿挫型。
人工智能对健康眼的曲线下面积(0.994)、准确率(95.6%)、召回率(98.5%)和精确率(92.7%)均表现出色。对于KC眼,上述指标分别为0.997、99.1%、98.7%和99.1%。对于VAE眼,上述指标分别为0.976、95.5%、71.5%和91.2%。有趣的是,尽管这些VAE眼与健康眼不同,但人工智能将其中36只(亚临床)重新分类为健康眼。其余大部分VAE(n=104;顿挫型)眼保持其分类,且与KC眼和健康眼均不同。此外,后表面特征并非人工智能模型排名最高的变量。
开发了一种将节段性断层扫描与ZP和人工智能相结合的通用架构。它对健康眼和KC眼实现了出色的分类。人工智能有效地将VAE眼分类为“亚临床”和“顿挫型”。
