April Yujie Yan, Traci Jenelle Speed, Casey Overby Taylor
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引用次数: 0
Abstract
Relapse of psychotic disorders occurs commonly even after appropriate treatment. Digital phenotyping becomes essential to achieve remote monitoring for mental conditions. We applied a personalized approach using neural-network-based anomaly detection and clustering to predict relapse for patients with psychotic disorders. We used a dataset provided by e-Prevention grand challenge (SPGC), containing physiological signals for 10 patients monitored over 2.5 years (relapse events: 560 vs. non-relapse events: 2139). We created 2-dimensional multivariate time-series profiles containing activity and heart rate variability metrics, extracted latent features via convolutional autoencoders, and identified relapse clusters. Our model showed promising results compared to the 1st place of SPGC (area under precision-recall curve = 0.711 vs. 0.651, area under receiver operating curve = 0.633 vs. 0.647, harmonic mean = 0.672 vs. 0.649) and added to existing evidence of data collected during sleep being more informative in detecting relapse. Our study demonstrates the potential of unsupervised learning in identifying abnormal behavioral changes in patients with psychotic disorders using objective measures derived from granular, long-term biosignals collected by unobstructive wearables. It contributes to the first step towards determining relapse-related biomarkers that could improve predictions and enable timely interventions to enhance patients' quality of life.
即使经过适当的治疗,精神障碍的复发也很常见。数字表型对于实现对精神状况的远程监测至关重要。我们采用了一种个性化的方法,使用基于神经网络的异常检测和聚类来预测精神病患者的复发。我们使用了e-Prevention大挑战(SPGC)提供的数据集,包含了监测2.5年以上的10例患者的生理信号(复发事件:560例与非复发事件:2139例)。我们创建了包含活动和心率变异性指标的二维多变量时间序列剖面,通过卷积自编码器提取潜在特征,并识别复发集群。与SPGC的第一名相比,我们的模型显示出令人满意的结果(精确召回曲线下面积= 0.711 vs. 0.651,接受者工作曲线下面积= 0.633 vs. 0.647,谐波平均值= 0.672 vs. 0.649),并且增加了现有证据,表明睡眠期间收集的数据在检测复发方面更有信息。我们的研究证明了无监督学习在识别精神障碍患者异常行为变化方面的潜力,使用的是由无障碍可穿戴设备收集的颗粒状、长期生物信号的客观测量。它为确定复发相关的生物标志物迈出了第一步,这些生物标志物可以改善预测,并使及时的干预能够提高患者的生活质量。
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