Toronto Rehabilitation Institute, University Health Network, Toronto, ON, Canada.
Division of Physical Medicine & Rehabilitation, Department of Medicine, University of Toronto, Toronto, ON, Canada.
Ultrason Imaging. 2020 May;42(3):135-147. doi: 10.1177/0161734620908789. Epub 2020 Mar 16.
Fibromyalgia (FM) diagnosis remains a challenge for clinicians due to a lack of objective diagnostic tools. One proposed solution is the use of quantitative ultrasound (US) techniques, such as image texture analysis, which has demonstrated discriminatory capabilities with other chronic pain conditions. From this, we propose the use of image texture variables to construct and compare two machine learning models (support vector machine [SVM] and logistic regression) for differentiating between the trapezius muscle in healthy and FM patients. US videos of the right and left trapezius muscle were acquired from healthy ( = 51) participants and those with FM ( = 57). The videos were converted into 64,800 skeletal muscle regions of interest (ROIs) using MATLAB. The ROIs were filtered by an algorithm using the complex wavelet structural similarity index (CW-SSIM), which removed ROIs that were similar. Thirty-one texture variables were extracted from the ROIs, which were then used in nested cross-validation to construct SVM and elastic net regularized logistic regression models. The generalized performance accuracy of both models was estimated and confirmed with a final validation on a holdout test set. The predicted generalized performance accuracy of the SVM and logistic regression models was computed to be 83.9 ± 2.6% and 65.8 ± 1.7%, respectively. The models achieved accuracies of 84.1%, and 66.0% on the final holdout test set, validating performance estimates. Although both machine learning models differentiate between healthy trapezius muscle and that of patients with FM, only the SVM model demonstrated clinically relevant performance levels.
纤维肌痛 (FM) 的诊断仍然是临床医生面临的挑战,因为缺乏客观的诊断工具。一种建议的解决方案是使用定量超声 (US) 技术,例如图像纹理分析,该技术已经证明了与其他慢性疼痛状况的区分能力。由此,我们提出使用图像纹理变量来构建和比较两种机器学习模型(支持向量机 [SVM] 和逻辑回归),以区分健康和 FM 患者的斜方肌。从健康参与者(n = 51)和患有 FM 的参与者(n = 57)的右侧和左侧斜方肌采集 US 视频。使用 MATLAB 将视频转换为 64,800 个骨骼肌感兴趣区(ROI)。使用基于复杂小波结构相似性指数的算法(CW-SSIM)对 ROI 进行过滤,该算法去除了相似的 ROI。从 ROI 中提取了 31 个纹理变量,然后在嵌套交叉验证中用于构建 SVM 和弹性网正则化逻辑回归模型。估计了这两种模型的广义性能准确性,并通过最终的验证集进行了验证。计算 SVM 和逻辑回归模型的预测广义性能准确性分别为 83.9 ± 2.6%和 65.8 ± 1.7%。这两个模型在最终的验证集上达到了 84.1%和 66.0%的准确率,验证了性能估计。尽管两种机器学习模型都可以区分健康的斜方肌和患有 FM 的患者的斜方肌,但只有 SVM 模型表现出了临床相关的性能水平。
