人工智能在脊柱侧弯的 Cobb 角度测量中的应用:移动应用程序的可靠性和准确性回顾性研究

IF 5.8 2区 医学 Q1 HEALTH CARE SCIENCES & SERVICES Journal of Medical Internet Research Pub Date : 2024-11-01 DOI:10.2196/50631
Haodong Li, Chuang Qian, Weili Yan, Dong Fu, Yiming Zheng, Zhiqiang Zhang, Junrong Meng, Dahui Wang
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引用次数: 0

摘要

背景:脊柱侧弯症是一种脊柱畸形,其中一个或多个脊柱节段向一侧弯曲或出现椎体旋转。目前已开发出一些人工智能(AI)应用程序,用于测量脊柱侧弯患者的 Cobb 角。这些应用程序仍然需要医生进行某些测量,这可能会导致观察者之间的差异。本研究中的人工智能应用程序(cobbAngle pro)将不再需要医生进行测量,实现完全自动化:我们旨在评估基于深度学习的新型人工智能应用程序自动测量脊柱侧弯患者 Cobb 角度的可靠性和准确性:我们对2019年7月至2022年7月期间在复旦大学附属儿童医院小儿骨科接受治疗的脊柱侧弯患儿的临床数据进行了回顾性分析。三名测量人员使用图像存档和通信系统(PACS)测量了601名脊柱侧弯患儿的802张全长脊柱正、侧位X光片的冠状主曲线Cobb角,并记录了每次测量的结果。间隔两周后,使用移动 AI 应用程序重新测量一次 Cobb 角。以 PACS 的 Cobb 角测量结果为参考标准,通过 Bland-Altman 检验分析该应用程序测量 Cobb 角的准确性。类内相关系数(ICC)用于比较测量者内部的重复性和测量者之间的一致性:在 601 名脊柱侧凸患儿中,89 名为男性,512 名为女性(年龄范围:10-17 岁),共分析了 802 张全长脊柱 X 光片。该应用程序的两种功能(拍照和上传照片)与用于测量 Cobb 角的 PACS 进行了比较。结果发现两者的一致性非常好。摄影和上传方法测量的 Cobb 角的平均绝对误差分别为 2.00 和 2.08。以临床允许的最大误差 5°为标准,摄影法和上传法测量的 Cobb 角的 95% 一致性限值(LoAs)分别为-4.7°至 4.9°和-4.9°至 4.9°。在轻度脊柱侧凸患者中,摄影法和上传法测量Cobb角的95% LoAs分别为-4.3°至4.6°和-4.4°至4.7°;在中度脊柱侧凸患者中,摄影法和上传法测量Cobb角的95% LoAs分别为-4.9°至5.2°和-5.1°至5.1°;在重度脊柱侧凸患者中,摄影法和上传法测量Cobb角的95% LoAs分别为-5.2°至5.0°和-6.0°至4.8°。3 名观察者在使用摄影方法前后两次测量的 Cobb 角具有良好的重复性(PC 结论:新的人工智能平台在自动测量脊柱侧弯患者主弯的 Cobb 角方面具有准确性和可重复性。
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Use of Artificial Intelligence in Cobb Angle Measurement for Scoliosis: Retrospective Reliability and Accuracy Study of a Mobile App.

Background: Scoliosis is a spinal deformity in which one or more spinal segments bend to the side or show vertebral rotation. Some artificial intelligence (AI) apps have already been developed for measuring the Cobb angle in patients with scoliosis. These apps still require doctors to perform certain measurements, which can lead to interobserver variability. The AI app (cobbAngle pro) in this study will eliminate the need for doctor measurements, achieving complete automation.

Objective: We aimed to evaluate the reliability and accuracy of our new AI app that is based on deep learning to automatically measure the Cobb angle in patients with scoliosis.

Methods: A retrospective analysis was conducted on the clinical data of children with scoliosis who were treated at the Pediatric Orthopedics Department of the Children's Hospital affiliated with Fudan University from July 2019 to July 2022. Three measurers used the Picture Archiving and Communication System (PACS) to measure the coronal main curve Cobb angle in 802 full-length anteroposterior and lateral spine X-rays of 601 children with scoliosis, and recorded the results of each measurement. After an interval of 2 weeks, the mobile AI app was used to remeasure the Cobb angle once. The Cobb angle measurements from the PACS were used as the reference standard, and the accuracy of the Cobb angle measurements by the app was analyzed through the Bland-Altman test. The intraclass correlation coefficient (ICC) was used to compare the repeatability within measurers and the consistency between measurers.

Results: Among 601 children with scoliosis, 89 were male and 512 were female (age range: 10-17 years), and 802 full-length spinal X-rays were analyzed. Two functionalities of the app (photography and photo upload) were compared with the PACS for measuring the Cobb angle. The consistency was found to be excellent. The average absolute errors of the Cobb angle measured by the photography and upload methods were 2.00 and 2.08, respectively. Using a clinical allowance maximum error of 5°, the 95% limits of agreement (LoAs) for Cobb angle measurements by the photography and upload methods were -4.7° to 4.9° and -4.9° to 4.9°, respectively. For the photography and upload methods, the 95% LoAs for measuring Cobb angles were -4.3° to 4.6° and -4.4° to 4.7°, respectively, in mild scoliosis patients; -4.9° to 5.2° and -5.1° to 5.1°, respectively, in moderate scoliosis patients; and -5.2° to 5.0° and -6.0° to 4.8°, respectively, in severe scoliosis patients. The Cobb angle measured by the 3 observers twice before and after using the photography method had good repeatability (P<.001). The consistency between the observers was excellent (P<.001).

Conclusions: The new AI platform is accurate and repeatable in the automatic measurement of the Cobb angle of the main curvature in patients with scoliosis.

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来源期刊
CiteScore
14.40
自引率
5.40%
发文量
654
审稿时长
1 months
期刊介绍: The Journal of Medical Internet Research (JMIR) is a highly respected publication in the field of health informatics and health services. With a founding date in 1999, JMIR has been a pioneer in the field for over two decades. As a leader in the industry, the journal focuses on digital health, data science, health informatics, and emerging technologies for health, medicine, and biomedical research. It is recognized as a top publication in these disciplines, ranking in the first quartile (Q1) by Impact Factor. Notably, JMIR holds the prestigious position of being ranked #1 on Google Scholar within the "Medical Informatics" discipline.
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