Quantification of tremor using consumer product accelerometry is feasible in patients with essential tremor and Parkinson's disease: a comparative study.

Journal of Clinical Movement Disorders Pub Date : 2020-04-07 eCollection Date: 2020-01-01 DOI:10.1186/s40734-020-00086-7

Emilie M J van Brummelen, Dimitrios Ziagkos, Wadim M I de Boon, Ellen P Hart, Robert J Doll, Teppo Huttunen, Petteri Kolehmainen, Geert Jan Groeneveld

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引用次数: 19

Abstract

Background: To quantify pharmacological effects on tremor in patients with essential tremor (ET) or Parkinson's Disease (PD), laboratory-grade accelerometers have previously been used. Over the last years, consumer products such as smartphones and smartwatches have been increasingly applied to measure tremor in an easy way. However, it is unknown how the technical performance of these consumer product accelerometers (CPAs) compares to laboratory-grade accelerometers (LGA). This study was performed to compare the technical performance of CPAs with LGA to measure tremor in patients with Parkinson's Disease (PD) and essential tremor (ET).

Methods: In ten patients with PD and ten with ET, tremor peak frequency and corresponding amplitude were measured with 7 different CPAs (Apple iPhone 7, Apple iPod Touch 5, Apple watch 2, Huawei Nexus 6P, Huawei watch, mbientlabMetaWear (MW) watch, mbientlab MW clip) and compared to a LGA (Biometrics ACL300) in resting and extended arm position.

Results: Both in PD and ET patients, the peak frequency of CPAs did not significantly differ from the LGA in terms of limits of agreement. For the amplitude at peak frequency, only the iPhone and MW watch performed comparable to the LGA in ET patients, while in PD patients all methods performed comparable except for the iPod Touch and Huawei Nexus. Amplitude was higher when measured with distally-located CPAs (Clip, iPhone, iPod) compared with proximally-located CPAs (all watches). The variability between subjects was higher than within subjects for frequency (25.1% vs. 13.4%) and amplitude measurement (331% vs. 53.6%). Resting arm position resulted in lower intra-individual variability for frequency and amplitude (13.4 and 53.5%) compared to extended arm position (17.8 and 58.1%).

Conclusions: Peak frequencies of tremor could be measured with all tested CPAs, with similar performance as LGA. The amplitude measurements appeared to be driven by anatomical location of the device and can therefore not be compared. Our results show that the tested consumer products can be used for tremography, allowing at-home measurements, in particular in studies with a cross-over or intra-individual comparison design using the resting arm position.

Trial registration: This trial was registered in the Dutch Competent Authority (CCMO) database with number NL60672.058.17 on May 30th 2017.

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在特发性震颤和帕金森病患者中，使用消费品加速度计量化震颤是可行的:一项比较研究。

背景:为了量化特发性震颤(ET)或帕金森病(PD)患者震颤的药理作用，实验室级加速度计已经被使用。在过去的几年里，智能手机和智能手表等消费产品越来越多地应用于以一种简单的方式测量震颤。然而，目前尚不清楚这些消费品加速度计(cpa)的技术性能如何与实验室级加速度计(LGA)相比。本研究旨在比较cpa和LGA在帕金森病(PD)和特发性震颤(ET)患者中测量震颤的技术性能。方法:对10例PD患者和10例ET患者，采用7种不同的CPAs (Apple iPhone 7、Apple iPod Touch 5、Apple watch 2、Huawei Nexus 6P、Huawei watch、mbientlabMetaWear (MW) watch、mbientlab MW夹)测量震颤峰值频率和相应幅度，并与LGA (biometric ACL300)在静息和伸展臂位进行比较。结果:在PD和ET患者中，cpa的峰值频率与LGA在一致性限制方面没有显著差异。对于峰值频率的振幅，只有iPhone和MW watch与ET患者的LGA具有可比性，而在PD患者中，除了iPod Touch和华为Nexus之外，所有方法都具有可比性。与近端定位的cpa(所有手表)相比，远端定位的cpa (Clip, iPhone, iPod)测量的振幅更高。受试者之间在频率(25.1% vs. 13.4%)和幅度测量(331% vs. 53.6%)方面的变异性高于受试者内部。与伸展臂位(17.8%和58.1%)相比，静息臂位导致频率和幅度的个体内变异性较低(13.4%和53.5%)。结论:所有cpa均可测量震颤的峰值频率，其性能与LGA相似。振幅测量似乎是由装置的解剖位置驱动的，因此不能进行比较。我们的研究结果表明，测试的消费产品可用于脉搏成像，允许在家测量，特别是在使用静臂位置的交叉或个体内比较设计的研究中。试验注册:该试验于2017年5月30日在荷兰主管当局(CCMO)数据库中注册，编号为NL60672.058.17。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Clinical Movement Disorders

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