Real-time artificial intelligence-based texture analysis of muscle ultrasound data for neuromuscular disorder assessment

IF 2 Q3 NEUROSCIENCES Clinical Neurophysiology Practice Pub Date : 2024-01-01 DOI:10.1016/j.cnp.2024.08.003

Yoshikatsu Noda , Kenji Sekiguchi , Shun Matoba , Hirotomo Suehiro , Katsuya Nishida , Riki Matsumoto

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Abstract

Objective

Many artificial intelligence approaches to muscle ultrasound image analysis have not been implemented on usable devices in clinical neuromuscular medicine practice, owing to high computational demands and lack of standardised testing protocols. This study evaluated the feasibility of using real-time texture analysis to differentiate between various pathological conditions.

Methods

We analysed 17,021 cross-sectional ultrasound images of the biceps brachii of 75 participants, including 25 each with neurogenic disorders, myogenic disorders, and healthy controls. The size and location of the regions of interest were randomly selected to minimise bias. A random forest classifier utilising texture features such as Dissimilarity and Homogeneity was developed and deployed on a mobile PC, enabling real-time analysis.

Results

The classifier distinguished patients with an accuracy of 81 %. Echogenicity and Contrast from the Co-Occurrence Matrix were significant predictive features. Validation on 15 patients achieved accuracies of 78 %/93 % per image/patient over 15-second videos, respectively. The use of a mobile PC facilitated real-time estimation of the underlying pathology during ultrasound examination, without influencing procedures.

Conclusions

Real-time automatic texture analysis is feasible as an adjunct for the diagnosis of neuromuscular disorders.

Significance

Artificial intelligence using texture analysis with a light computational load supports the semi-quantitative evaluation of neuromuscular ultrasound.

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基于人工智能的肌肉超声数据纹理实时分析，用于神经肌肉疾病评估

目的由于计算要求高和缺乏标准化测试协议，许多肌肉超声图像分析人工智能方法尚未在临床神经肌肉医学实践中的可用设备上实施。本研究评估了使用实时纹理分析来区分各种病理状况的可行性。方法我们分析了 75 名参与者的 17,021 张肱二头肌横截面超声波图像，其中包括神经源性疾病、肌源性疾病和健康对照组各 25 人。感兴趣区的大小和位置都是随机选择的，以尽量减少偏差。利用纹理特征（如差异度和同质性）开发了随机森林分类器，并将其部署在移动 PC 上，以便进行实时分析。共现矩阵的回声性和对比度是重要的预测特征。通过对 15 名患者进行验证，在 15 秒的视频中，每张图像/每名患者的准确率分别为 78 %/93 %。结论实时自动纹理分析作为神经肌肉疾病诊断的辅助手段是可行的。意义使用纹理分析的人工智能计算负荷轻，支持对神经肌肉超声进行半定量评估。

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来源期刊

Clinical Neurophysiology Practice NEUROSCIENCES-

CiteScore

3.90

自引率

0.00%

发文量

审稿时长

71 days

期刊介绍： Clinical Neurophysiology Practice (CNP) is a new Open Access journal that focuses on clinical practice issues in clinical neurophysiology including relevant new research, case reports or clinical series, normal values and didactic reviews. It is an official journal of the International Federation of Clinical Neurophysiology and complements Clinical Neurophysiology which focuses on innovative research in the specialty. It has a role in supporting established clinical practice, and an educational role for trainees, technicians and practitioners.