联合频域光学相干断层扫描与气吹式眼压测量分析诊断圆锥角膜

Combining Spectral-Domain OCT and Air-Puff Tonometry Analysis to Diagnose Keratoconus.

作者信息

Lu Nan-Ji, Elsheikh Ahmed, Rozema Jos J, Hafezi Nikki, Aslanides Ioannis M, Hillen Mark, Eckert Daniel, Funck Christian, Koppen Carina, Cui Le-Le, Hafezi Farhad

出版信息

J Refract Surg. 2022 Jun;38(6):374-380. doi: 10.3928/1081597X-20220414-02. Epub 2022 Jun 1.

DOI:10.3928/1081597X-20220414-02

PMID:35686708

Abstract

PURPOSE

To investigate the diagnostic capacity of spectral-domain optical coherence tomography (SD-OCT) combined with air-puff tonometry using artificial intelligence (AI) in differentiating between normal and keratoconic eyes.

METHODS

Patients who had either undergone uneventful laser vision correction with at least 3 years of stable follow-up or those who had forme fruste keratoconus (FFKC), early keratoconus (EKC), or advanced keratoconus (AKC) were included. SD-OCT and biomechanical information from air-puff tonometry was divided into training and validation sets. AI models based on random forest or neural networks were trained to distinguish eyes with FFKC from normal eyes. Model accuracy was independently tested in eyes with FFKC and normal eyes. Receiver operating characteristic (ROC) curves were generated to determine area under the curve (AUC), sensitivity, and specificity values.

RESULTS

A total of 223 normal eyes from 223 patients, 69 FFKC eyes from 69 patients, 72 EKC eyes from 72 patients, and 258 AKC eyes from 258 patients were included. The top AUC ROC values (normal eyes compared with AKC and EKC) were Pentacam Random Forest Index (AUC = 0.985 and 0.958), Tomographic and Biomechanical Index (AUC = 0.983 and 0.925), and Belin-Ambrósio Enhanced Ectasia Total Deviation Index (AUC = 0.981 and 0.922). When SD-OCT and air-puff tonometry data were combined, the random forest AI model provided the highest accuracy with 99% AUC for FFKC (75% sensitivity; 94.74% specificity).

CONCLUSIONS

Currently, AI parameters accurately diagnose AKC and EKC, but have a limited ability to diagnose FFKC. AI-assisted diagnostic technology that uses both SD-OCT and air-puff tonometry may overcome this limitation, leading to improved treatment of patients with keratoconus. .

摘要

目的

研究采用人工智能（AI）的频域光学相干断层扫描（SD-OCT）联合气吹式眼压计在鉴别正常眼和圆锥角膜眼中的诊断能力。

方法

纳入接受过平稳激光视力矫正且至少有3年稳定随访的患者，以及顿挫型圆锥角膜（FFKC）、早期圆锥角膜（EKC）或晚期圆锥角膜（AKC）患者。将SD-OCT和气吹式眼压计的生物力学信息分为训练集和验证集。训练基于随机森林或神经网络的AI模型，以区分FFKC眼和正常眼。在FFKC眼和正常眼中独立测试模型准确性。生成受试者工作特征（ROC）曲线以确定曲线下面积（AUC）、敏感性和特异性值。

结果

共纳入223例患者的223只正常眼、69例患者的69只FFKC眼、72例患者的72只EKC眼和258例患者的258只AKC眼。最高AUC ROC值（正常眼与AKC和EKC相比）为Pentacam随机森林指数（AUC = 0.985和0.958）、断层扫描和生物力学指数（AUC = 0.983和0.925）以及贝林-安布罗西奥增强型扩张全偏差指数（AUC = 0.981和0.922）。当将SD-OCT和气吹式眼压计数据结合时，随机森林AI模型对FFKC的准确性最高，AUC为99%（敏感性75%；特异性94.74%）。

结论

目前，AI参数能准确诊断AKC和EKC，但诊断FFKC的能力有限。同时使用SD-OCT和气吹式眼压计的AI辅助诊断技术可能克服这一局限性，从而改善圆锥角膜患者的治疗。

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联合频域光学相干断层扫描与气吹式眼压测量分析诊断圆锥角膜

Combining Spectral-Domain OCT and Air-Puff Tonometry Analysis to Diagnose Keratoconus.

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CONCLUSIONS

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