人工智能在智能手机相机平足和足弓足诊断中的应用。

IF 2 Q2 ORTHOPEDICS

World Journal of Orthopedics Pub Date : 2024-12-18 DOI:10.5312/wjo.v15.i12.1146

Samir Ghandour, Anton Lebedev, Wei-Shao Tung, Konstantin Semianov, Artem Semjanow, Christopher W DiGiovanni, Soheil Ashkani-Esfahani, Lorena Bejarano Pineda

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引用次数: 0

摘要

背景：扁平足和高弓足是常见的足部畸形，通常需要临床和影像学评估诊断和潜在的后续治疗。传统的诊断方法虽然有效，但存在成本、辐射暴露和可及性等限制，特别是在服务不足的地区。目的：开发使用智能手机摄像头检测和分类此类畸形的深度学习算法。方法：采用深度卷积神经网络（CNN）与智能手机摄像头相结合的算法检测平足和空足畸形。本病例对照研究在一家三级医院进行，参与者来自两家骨科足部和踝关节诊所。CNN通过在标准化条件下拍摄的参与者脚内侧的照片进行训练和测试。参与者包括由专家临床医生使用足部姿势指数确定的标准足线、平足或足弓足的受试者。将模型的性能与临床评估和x线测量进行比较，特别是外侧跗骨-第一跖骨角和跟骨倾斜角。结果：CNN模型对平足和足弓足的诊断准确率均较高，平足和足弓足的曲线下优化面积分别为0.90和0.90。检测平足的特异性和敏感性分别为84%和87%；弓形足分别为97%和70%。该模型的预测结果与x线侧位Meary's角测量结果有一定的相关性，表明该模型在评估食物弓畸形方面具有良好的可靠性（P < 0.05）。结论：本研究强调了使用基于智能手机的CNN模型作为一种可靠且易于获取的筛查工具来检测平足和空足畸形的潜力，这对服务不足的社区和因轻微足弓畸形而产生疼痛的患者尤其有益。

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Utilization of artificial intelligence in the diagnosis of pes planus and pes cavus with a smartphone camera.

Background: Pes planus (flatfoot) and pes cavus (high arch foot) are common foot deformities, often requiring clinical and radiographic assessment for diagnosis and potential subsequent management. Traditional diagnostic methods, while effective, pose limitations such as cost, radiation exposure, and accessibility, particularly in underserved areas.

Aim: To develop deep learning algorithms that detect and classify such deformities using smartphone cameras.

Methods: An algorithm that integrated a deep convolutional neural network (CNN) into a smartphone camera was utilized to detect pes planus and pes cavus deformities. This case control study was conducted at a tertiary hospital with participants recruited from two orthopaedic foot and ankle clinics. The CNN was trained and tested using photographs of the medial aspect of participants' feet, taken under standardized conditions. Participants included subjects with standard foot alignment, pes planus, or pes cavus determined by an expert clinician using the foot posture index. The model's performance was assessed in comparison to clinical assessment and radiographic measurements, specifically lateral tarsal-first metatarsal angle and calcaneal inclination angle.

Results: The CNN model demonstrated high accuracy in diagnosing both pes planus and pes cavus, with an optimized area under the curve of 0.90 for pes planus and 0.90 for pes cavus. It showed a specificity and sensitivity of 84% and 87% for pes planus detection, respectively; and 97% and 70% for pes cavus, respectively. The model's prediction correlated moderately with radiographic lateral Meary's angle measurements, indicating the model's excellent reliability in assessing food arch deformity (P < 0.05).

Conclusion: This study highlights the potential of using a smartphone-based CNN model as a screening tool that is reliable and accessible for the detection of pes planus and pes cavus deformities, which is especially beneficial for underserved communities and patients with pain generated by subtle foot arch deformities.

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来源期刊

World Journal of Orthopedics ORTHOPEDICS-

CiteScore

3.10

自引率

0.00%

发文量

814