加速度计校准:考虑功能的重要性。
Accelerometer Calibration: The Importance of Considering Functionality.
作者信息
Strath Scott J, Rowley Taylor W, Cho Chi C, Hyngstrom Allison, Swartz Ann M, Keenan Kevin G, Martinez Julian, Staudenmayer John W
机构信息
Department of Kinesiology, University of Wisconsin-Milwaukee, Milwaukee, WI, USA.
Department of Kinesiology, Saginaw Valley State University, MI, USA.
出版信息
J Meas Phys Behav. 2021;4(1):68-78. doi: 10.1123/jmpb.2020-0027. Epub 2021 Feb 25.
PURPOSE
To compare the accuracy and precision of a hip-worn accelerometer to predict energy cost during structured activities across motor performance and disease conditions.
METHODS
118 adults self-identifying as healthy ( = 44) and those with arthritis ( = 23), multiple sclerosis ( = 18), Parkinson's disease ( = 17), and stroke ( =18) underwent measures of motor performance and were categorized into groups: Group 1, usual; Group 2, moderate impairment; and Group 3, severe impairment. The participants completed structured activities while wearing an accelerometer and a portable metabolic measurement system. Accelerometer-predicted energy cost (metabolic equivalent of tasks [METs]) were compared with measured METs and evaluated across functional impairment and disease conditions. Statistical significance was assessed using linear mixed effect models and Bayesian information criteria to assess model fit.
RESULTS
All activities' accelerometer counts per minute (CPM) were 29.5-72.6% less for those with disease compared with those who were healthy. The predicted MET bias was similar across disease, -0.49 (-0.71, -0.27) for arthritis, -0.38 (-0.53, -0.22) for healthy, -0.44 (-0.68, -0.20) for MS, -0.34 (-0.58, -0.09) for Parkinson's, and -0.30 (-0.54, -0.06) for stroke. For functional impairment, there was a graded reduction in CPM for all activities: Group 1, 1,215 CPM (1,129, 1,301); Group 2, 789 CPM (695, 884); and Group 3, 343 CPM (220, 466). The predicted MET bias revealed similar results across the Group 1, -0.37 METs (-0.52, -0.23); Group 2, -0.44 METs (-0.60, -0.28); and Group 3, -0.33 METs (-0.55, -0.13). The Bayesian information criteria showed a better model fit for functional impairment compared with disease condition.
CONCLUSION
Using functionality to improve accelerometer calibration could decrease variability and warrants further exploration to improve accelerometer prediction of physical activity.
目的
比较髋部佩戴的加速度计在不同运动表现和疾病状况下的结构化活动中预测能量消耗的准确性和精确性。
方法
118名自我认定为健康的成年人(n = 44)以及患有关节炎(n = 23)、多发性硬化症(n = 18)、帕金森病(n = 17)和中风(n = 18)的成年人接受了运动表现测量,并被分为几组:第1组,正常;第2组,中度损伤;第3组,重度损伤。参与者在佩戴加速度计和便携式代谢测量系统的同时完成结构化活动。将加速度计预测的能量消耗(代谢当量任务[METs])与测量的METs进行比较,并在功能损伤和疾病状况中进行评估。使用线性混合效应模型和贝叶斯信息准则评估模型拟合来评估统计学显著性。
结果
与健康者相比,患病者所有活动的每分钟加速度计计数(CPM)减少了29.5 - 72.6%。预测的MET偏差在各疾病中相似,关节炎为-0.49(-0.71,-0.27),健康者为-0.38(-0.53,-0.22),多发性硬化症为-0.44(-0.68,-0.20),帕金森病为-0.34(-0.58,-0.09),中风为-0.30(-0.54,-0.06)。对于功能损伤,所有活动的CPM呈分级下降:第1组,1,215 CPM(1,129,1,301);第2组,789 CPM(695,884);第3组,343 CPM(220,466)。预测的MET偏差在第1组、第2组和第3组中显示出相似的结果,第1组为-0.37 METs(-0.52,-0.23);第2组为-0.44 METs(-0.60,-0.28);第3组为-0.33 METs(-0.55,-0.13)。贝叶斯信息准则显示,与疾病状况相比,功能损伤的模型拟合更好。
结论
利用功能来改进加速度计校准可以降低变异性,值得进一步探索以改善加速度计对身体活动的预测。
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