运动活动研究联合会中使用GGIR处理加速度测量数据

Wei Guo, A. Leroux, H. Shou, L. Cui, Sun J. Kang, M. Strippoli, M. Preisig, V. Zipunnikov, K. Merikangas
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引用次数: 2

摘要

移动运动活动健康研究联盟(mMARCH)是一个临床和社区研究的协作网络,采用共同的数字移动协议,并收集参与研究的共同临床和生物学测量。在高水平上,跨mMARCH研究的一个关键科学目标是更好地理解儿童、青少年和成人的身体活动(PA)、睡眠(SL)和昼夜节律(CR)与身心健康之间的相互关系。mMARCH研究采用腕带加速度计获得PA/SL/CR的客观测量。然而,目前对于原始加速度测量数据的标准数据处理管道没有达成共识,并且很少有开源工具可以促进它们的开发。R包GGIR是最突出的用于处理原始加速度计数据的开源软件包,提供了强大的功能和大量的用户灵活性。然而,即使使用GGIR,跨多个分析中心以协调和可重复的方式进行的处理也需要大量的专业知识和仔细的实现。此外,还有许多统计方法可用于使用非ggir R包中实现的加速度测量数据来分析PA/SL/CR模式,包括多元统计方法、功能数据分析、分布数据分析和时间序列分析。为了解决多站点协调和附加特征创建的问题,mMARCH开发了一个简化的协调和可重复的管道,用于通过GGIR加载和清洗原始加速度计数据,将GGIR和PA/SL/CR的非GGIR特征合并在一起,实施一些额外的数据和特征质量检查,并执行多个分析,包括联合和个体变异解释。一种无监督的机器学习降维技术,可以识别PA/SL/CR三个领域中每个领域的潜在因素。该管道很容易修改以计算额外的感兴趣的特征,并允许不隶属于mMARCH的研究应用管道,这有助于直接比较mMARCH研究发表的工作中的科学结果。本文描述了管道,并通过将关节和个体变异解释应用于CoLaus|PsyCoLaus (mMARCH网站之一)的加速度测量组件,说明了GGIR和非GGIR组合特征的使用。该管道通过开源R包mMARCH.AC公开提供。
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Processing of Accelerometry Data with GGIR in Motor Activity Research Consortium for Health
The Mobile Motor Activity Research Consortium for Health (mMARCH) is a collaborative network of clinical and community studies that employ common digital mobile protocols and collect common clinical and biological measures across participating studies. At a high level, a key scientific goal which spans mMARCH studies is to develop a better understanding of the interrelationships between physical activity (PA), sleep (SL), and circadian rhythmicity (CR) and mental and physical health in children, adolescents, and adults. mMARCH studies employ wrist-worn accelerometry to obtain objective measures of PA/SL/CR. However, there is currently no consensus on a standard data processing pipeline for raw accelerometry data and few open-source tools which facilitate their development. The R package GGIR is the most prominent open-source software package for processing raw accelerometry data, offering great functionality and substantial user flexibility. However, even with GGIR, processing done in a harmonized and reproducible fashion across multiple analytical centers requires a nontrivial amount of expertise combined with a careful implementation. In addition, there are many statistical methods useful for analyzing PA/SL/CR patterns using accelerometry data which are implemented in non-GGIR R packages, including methods from multivariate statistics, functional data analysis, distributional data analysis, and time series analyses. To address the issues of multisite harmonization and additional feature creation, mMARCH developed a streamlined harmonized and reproducible pipeline for loading and cleaning raw accelerometry data via GGIR, merging GGIR, and non-GGIR features of PA/SL/CR together, implementing several additional data and feature quality checks, and performing multiple analyses including Joint and Individual Variation Explained, an unsupervised machine learning dimension reduction technique that identifies latent factors capturing joint across and individual to each of three domains of PA/SL/CR. The pipeline is easily modified to calculate additional features of interest, and allows for studies not affiliated with mMARCH to apply a pipeline which facilitates direct comparisons of scientific results in published work by mMARCH studies. This manuscript describes the pipeline and illustrates the use of combined GGIR and non-GGIR features by applying Joint and Individual Variation Explained to the accelerometry component of CoLaus|PsyCoLaus, one of mMARCH sites. The pipeline is publicly available via open-source R package mMARCH.AC.
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Influence of Accelerometer Calibration on the Estimation of Objectively Measured Physical Activity: The Tromsø Study Criterion Validity of Accelerometers in Determining Knee-Flexion Angles During Sitting in a Laboratory Setting Comparability of 24-hr Activity Cycle Outputs From ActiGraph Counts Generated in ActiLife and RStudio Comparison of Sleep and Physical Activity Metrics From Wrist-Worn ActiGraph wGT3X-BT and GT9X Accelerometers During Free-Living in Adults Pre- Versus Postmeal Sedentary Duration—Impact on Postprandial Glucose in Older Adults With Overweight or Obesity
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