穿戴式惯性传感器评估帕金森病运动并发症及治疗的可行性。
Feasibility of a wearable inertial sensor to assess motor complications and treatment in Parkinson's disease.
机构信息
Movement disorders Unit, "UParkinson", Centro Médico Teknon, Grupo Hospitalario Quirón, Barcelona, Spain.
Neurology Department, Movement Disorders Unit, Complex Hospitalari Moisès Broggi, Consorci Sanitari Integral, Sant Joan Despí, Barcelona, Spain.
出版信息
PLoS One. 2023 Feb 2;18(2):e0279910. doi: 10.1371/journal.pone.0279910. eCollection 2023.
BACKGROUND
Wearable sensors-based systems have emerged as a potential tool to continuously monitor Parkinson's Disease (PD) motor features in free-living environments.
OBJECTIVES
To analyse the responsivity of wearable inertial sensor (WIS) measures (On/Off-Time, dyskinesia, freezing of gait (FoG) and gait parameters) after treatment adjustments. We also aim to study the ability of the sensor in the detection of MF, dyskinesia, FoG and the percentage of Off-Time, under ambulatory conditions of use.
METHODS
We conducted an observational, open-label study. PD patients wore a validated WIS (STAT-ONTM) for one week (before treatment), and one week, three months after therapeutic changes. The patients were analyzed into two groups according to whether treatment changes had been indicated or not.
RESULTS
Thirty-nine PD patients were included in the study (PD duration 8 ± 3.5 years). Treatment changes were made in 29 patients (85%). When comparing the two groups (treatment intervention vs no intervention), the WIS detected significant changes in the mean percentage of Off-Time (p = 0.007), the mean percentage of On-Time (p = 0.002), the number of steps (p = 0.008) and the gait fluidity (p = 0.004). The mean percentage of Off-Time among the patients who decreased their Off-Time (79% of patients) was -7.54 ± 5.26. The mean percentage of On-Time among the patients that increased their On-Time (59% of patients) was 8.9 ± 6.46. The Spearman correlation between the mean fluidity of the stride and the UPDRS-III- Factor I was 0.6 (p = <0.001). The system detected motor fluctuations (MF) in thirty-seven patients (95%), whilst dyskinesia and FoG were detected in fifteen (41%), and nine PD patients (23%), respectively. However, the kappa agreement analysis between the UPDRS-IV/clinical interview and the sensor was 0.089 for MF, 0.318 for dyskinesia and 0.481 for FoG.
CONCLUSIONS
It's feasible to use this sensor for monitoring PD treatment under ambulatory conditions. This system could serve as a complementary tool to assess PD motor complications and treatment adjustments, although more studies are required.
背景
基于可穿戴传感器的系统已成为一种在自由生活环境中连续监测帕金森病(PD)运动特征的潜在工具。
目的
分析可穿戴惯性传感器(WIS)测量值(开/关时间、异动症、冻结步态(FoG)和步态参数)在治疗调整后的反应性。我们还旨在研究传感器在检测 MF、异动症、FoG 和关时百分比方面的能力,以及在使用中的日常条件下。
方法
我们进行了一项观察性、开放性研究。PD 患者佩戴经过验证的 WIS(STAT-ONTM)一周(治疗前),然后在治疗变化后一周和三个月进行测量。根据是否需要治疗改变,将患者分为两组。
结果
本研究纳入了 39 名 PD 患者(PD 病程 8 ± 3.5 年)。29 名患者(85%)进行了治疗改变。当比较两组(治疗干预组与无干预组)时,WIS 检测到关时百分比(p = 0.007)、开时百分比(p = 0.002)、步数(p = 0.008)和步态流畅性(p = 0.004)的显著变化。关时百分比降低的患者(79%的患者)平均关时百分比为-7.54 ± 5.26。开时百分比增加的患者(59%的患者)平均开时百分比为 8.9 ± 6.46。步幅平均流畅性与 UPDRS-III 因子 I 的 Spearman 相关系数为 0.6(p <0.001)。该系统在 37 名患者(95%)中检测到运动波动(MF),在 15 名(41%)和 9 名 PD 患者(23%)中检测到异动症和 FoG。然而,UPDRS-IV/临床访谈与传感器之间的 Kappa 一致性分析结果显示,MF 的 Kappa 值为 0.089,异动症为 0.318,FoG 为 0.481。
结论
在日常条件下使用该传感器监测 PD 治疗是可行的。该系统可作为评估 PD 运动并发症和治疗调整的辅助工具,尽管还需要进一步研究。
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