用于检测帕金森病步态冻结的先进深度学习架构比较
Comparison of state-of-the-art deep learning architectures for detection of freezing of gait in Parkinson's disease.
作者信息
Klaver Emilie Charlotte, Heijink Irene B, Silvestri Gianluigi, van Vugt Jeroen P P, Janssen Sabine, Nonnekes Jorik, van Wezel Richard J A, Tjepkema-Cloostermans Marleen C
机构信息
Department of Neurology and Clinical Neurophysiology, Medical Spectrum Twente, Enschede, Netherlands.
Department of Neurobiology, Donders Institute for Brain, Cognition and Behaviour, Radboud University, Nijmegen, Netherlands.
出版信息
Front Neurol. 2023 Dec 21;14:1306129. doi: 10.3389/fneur.2023.1306129. eCollection 2023.
INTRODUCTION
Freezing of gait (FOG) is one of the most debilitating motor symptoms experienced by patients with Parkinson's disease (PD). FOG detection is possible using acceleration data from wearable sensors, and a convolutional neural network (CNN) is often used to determine the presence of FOG epochs. We compared the performance of a standard CNN for the detection of FOG with two more complex networks, which are well suited for time series data, the MiniRocket and the InceptionTime.
METHODS
We combined acceleration data of people with PD across four studies. The final data set was split into a training (80%) and hold-out test (20%) set. A fifth study was included as an unseen test set. The data were windowed (2 s) and five-fold cross-validation was applied. The CNN, MiniRocket, and InceptionTime models were evaluated using a receiver operating characteristic (ROC) curve and its area under the curve (AUC). Multiple sensor configurations were evaluated for the best model. The geometric mean was subsequently calculated to select the optimal threshold. The selected model and threshold were evaluated on the hold-out and unseen test set.
RESULTS
A total of 70 participants (23.7 h, 9% FOG) were included in this study for training and testing, and in addition, 10 participants provided an unseen test set (2.4 h, 11% FOG). The CNN performed best (AUC = 0.86) in comparison to the InceptionTime (AUC = 0.82) and MiniRocket (AUC = 0.76) models. For the CNN, we found a similar performance for a seven-sensor configuration (lumbar, upper and lower legs and feet; AUC = 0.86), six-sensor configuration (upper and lower legs and feet; AUC = 0.87), and two-sensor configuration (lower legs; AUC = 0.86). The optimal threshold of 0.45 resulted in a sensitivity of 77% and a specificity of 58% for the hold-out set (AUC = 0.72), and a sensitivity of 85% and a specificity of 68% for the unseen test set (AUC = 0.90).
CONCLUSION
We confirmed that deep learning can be used to detect FOG in a large, heterogeneous dataset. The CNN model outperformed more complex networks. This model could be employed in future personalized interventions, with the ultimate goal of using automated FOG detection to trigger real-time cues to alleviate FOG in daily life.
引言
冻结步态(FOG)是帕金森病(PD)患者经历的最使人衰弱的运动症状之一。利用可穿戴传感器的加速度数据可以检测冻结步态,并且卷积神经网络(CNN)通常用于确定冻结步态时段的存在。我们将用于检测冻结步态的标准CNN的性能与另外两个更复杂的网络(非常适合时间序列数据的MiniRocket和InceptionTime)进行了比较。
方法
我们在四项研究中合并了帕金森病患者的加速度数据。最终数据集被分为训练集(80%)和保留测试集(20%)。第五项研究被用作未见过的测试集。数据被划分为窗口(2秒)并应用五折交叉验证。使用受试者工作特征(ROC)曲线及其曲线下面积(AUC)对CNN、MiniRocket和InceptionTime模型进行评估。对最佳模型评估了多种传感器配置。随后计算几何平均值以选择最佳阈值。在保留测试集和未见过的测试集上评估所选模型和阈值。
结果
本研究共纳入70名参与者(23.7小时,9%为冻结步态)进行训练和测试,此外,10名参与者提供了未见过的测试集(2.4小时,11%为冻结步态)。与InceptionTime(AUC = 0.82)和MiniRocket(AUC = 0.76)模型相比,CNN表现最佳(AUC = 0.86)。对于CNN,我们发现七传感器配置(腰部、大腿和小腿以及脚部;AUC = 0.86)、六传感器配置(大腿和小腿以及脚部;AUC = 0.87)和两传感器配置(小腿;AUC = 0.86)具有相似的性能。最佳阈值0.45导致保留集的灵敏度为77%,特异性为58%(AUC = 0.72),未见过的测试集的灵敏度为85%,特异性为68%(AUC = 0.90)。
结论
我们证实深度学习可用于在大型异质数据集中检测冻结步态。CNN模型优于更复杂的网络。该模型可用于未来的个性化干预,最终目标是利用自动冻结步态检测来触发实时提示,以缓解日常生活中的冻结步态。
Zotero 插件