使用 Scheimpflug 断层成像评估人工智能模型对不对称性圆锥角膜眼的检测。

Evaluation of artificial intelligence models for the detection of asymmetric keratoconus eyes using Scheimpflug tomography.

机构信息

Eye Center of the Second Affiliated Hospital, School of Medicine, Zhejiang University, Hangzhou, Zhejiang, China.

College of Computer Science and Technology, Zhejiang University, Hangzhou, Zhejiang, China.

出版信息

Clin Exp Ophthalmol. 2022 Sep;50(7):714-723. doi: 10.1111/ceo.14126. Epub 2022 Jul 2.

DOI:10.1111/ceo.14126

PMID:35704615

Abstract

BACKGROUND

To evaluate artificial intelligence (AI) models based on objective indices and raw corneal data from the Scheimpflug Pentacam HR system (OCULUS Optikgeräte GmbH, Wetzlar, Germany) for the detection of clinically unaffected eyes in patients with asymmetric keratoconus (AKC) eyes.

METHODS

A total of 1108 eyes of 1108 patients were enrolled, including 430 eyes from normal control subjects, 231 clinically unaffected eyes from patients with AKC, and 447 eyes from keratoconus (KC) patients. Eyes were divided into a training set (664 eyes), a test set (222 eyes) and a validation set (222 eyes). AI models were built based on objective indices (XGBoost, LGBM, LR and RF) and entire corneal raw data (KerNet). The discriminating performances of the AI models were evaluated by accuracy and the area under the ROC curve (AUC).

RESULTS

The KerNet model showed great overall discriminating power in the test (accuracy = 94.67%, AUC = 0.985) and validation (accuracy = 94.12%, AUC = 0.990) sets, which were higher than the index-derived AI models (accuracy = 84.02%-86.98%, AUC = 0.944-0.968). In the test set, the KerNet model demonstrated good diagnostic power for the AKC group (accuracy = 95.24%, AUC = 0.984). The validation set also proved that the KerNet model was useful for AKC group diagnosis (accuracy = 94.12%, AUC = 0.983).

CONCLUSIONS

KerNet outperformed all the index-derived AI models. Based on the raw data of the entire cornea, KerNet was helpful for distinguishing clinically unaffected eyes in patients with AKC from normal eyes.

摘要

背景

评估基于客观指标和 Scheimpflug Pentacam HR 系统（OCULUS Optikgeräte GmbH，德国威茨拉尔）原始角膜数据的人工智能（AI）模型，以检测非对称圆锥角膜（AKC）患者中临床正常的眼睛。

方法

共纳入 1108 只眼 1108 例患者，包括正常对照组 430 只眼、AKC 患者临床正常眼 231 只眼和圆锥角膜（KC）患者 447 只眼。将眼分为训练集（664 只眼）、测试集（222 只眼）和验证集（222 只眼）。基于客观指标（XGBoost、LGBM、LR 和 RF）和整个角膜原始数据（KerNet）构建 AI 模型。通过准确性和 ROC 曲线下面积（AUC）评估 AI 模型的判别性能。

结果

KerNet 模型在测试集（准确性=94.67%，AUC=0.985）和验证集（准确性=94.12%，AUC=0.990）中具有出色的整体判别能力，高于基于指标的 AI 模型（准确性=84.02%-86.98%，AUC=0.944-0.968）。在测试集中，KerNet 模型对 AKC 组具有良好的诊断能力（准确性=95.24%，AUC=0.984）。验证集也证明了 KerNet 模型对 AKC 组诊断有用（准确性=94.12%，AUC=0.983）。

结论

KerNet 优于所有基于指标的 AI 模型。基于整个角膜的原始数据，KerNet 有助于区分 AKC 患者临床正常的眼睛与正常眼睛。

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使用 Scheimpflug 断层成像评估人工智能模型对不对称性圆锥角膜眼的检测。

Evaluation of artificial intelligence models for the detection of asymmetric keratoconus eyes using Scheimpflug tomography.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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