基于自由生活活动计数得出的久坐时间中断：它们是从坐姿到站姿的真实转变吗？

Free-living activity counts-derived breaks in sedentary time: Are they real transitions from sitting to standing?

作者信息

Barreira Tiago V, Zderic Theodore W, Schuna John M, Hamilton Marc T, Tudor-Locke Catrine

机构信息

Syracuse University, Syracuse, NY, United States; Pennington Biomedical Research Center, Baton Rouge, LA, United States.

Pennington Biomedical Research Center, Baton Rouge, LA, United States.

出版信息

Gait Posture. 2015 Jun;42(1):70-2. doi: 10.1016/j.gaitpost.2015.04.008. Epub 2015 Apr 24.

DOI:10.1016/j.gaitpost.2015.04.008

PMID:25953504

Abstract

BACKGROUND

Previous research has demonstrated a link between free-living accelerometer-measured breaks in sedentary time and health related variables. Breaks in sedentary time are typically inferred from time-stamped accelerometer data indicating a transition from lack of movement (recording of <100 activity counts/min) to relatively more movement (≥100 activity counts/min). However, it remains unknown whether these breaks actually represent sit-to-stand postural transitions in free-living. Thus, the purpose of this study was to compare free-living accelerometer-derived and posture-derived estimates of breaks in sedentary time using the ActiGraph GT3X+ (AG) and the activPAL™ (AP), respectively.

METHODS

A total of 15 participants concurrently wore an AG at their waist and an AP on their right thigh for 7 consecutive days (24h/day - removing them only when in contact with water). Data from both devices were matched on minute-by-minute timestamps while also applying a 3-min allowance window to account for clock drift. Dependent t-test was used to evaluate differences in mean breaks between AG and AP.

RESULTS

The AG detected 74±4.1 breaks/day (mean±SEM) while the AP detected 39±3.1 breaks/day (P<0.001). On average, the AG detected 67% of the AP breaks while 65% of the AG breaks did not correspond with AP breaks. Of the non-corresponding AG breaks, 52% occurred when participants were sitting, 42% when standing, and 6% when transitioning from standing to sitting.

CONCLUSION

The AG detected a significantly higher number of breaks in sedentary time, the majority of which do not correspond to sit-to-stand transitions as measured by the AP.

摘要

背景

先前的研究已经证明，通过自由生活状态下加速度计测量的久坐时间中断与健康相关变量之间存在联系。久坐时间的中断通常是根据带有时间戳的加速度计数据推断出来的，这些数据表明从缺乏运动（每分钟活动计数<100）转变为相对更多的运动（≥100次活动计数/分钟）。然而，这些中断在自由生活中是否真的代表从坐姿到站姿的姿势转变仍不清楚。因此，本研究的目的是分别使用ActiGraph GT3X+（AG）和activPAL™（AP）比较自由生活状态下通过加速度计得出的和通过姿势得出的久坐时间中断估计值。

方法

共有15名参与者连续7天（每天24小时，仅在接触水时取下）同时在腰部佩戴AG，在右大腿佩戴AP。两台设备的数据在逐分钟时间戳上进行匹配，同时还应用了一个3分钟的允许窗口来考虑时钟漂移。使用配对t检验来评估AG和AP之间平均中断次数的差异。

结果

AG检测到每天74±4.1次中断（平均值±标准误），而AP检测到每天39±3.1次中断（P<0.001）。平均而言，AG检测到AP中断的67%，而AG中断的65%与AP中断不对应。在不对应的AG中断中，52%发生在参与者坐着时，42%发生在站立时，6%发生在从站立到坐着的过渡时。

结论

AG检测到的久坐时间中断次数明显更多，其中大多数与AP测量的从坐姿到站姿的转变不对应。

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基于自由生活活动计数得出的久坐时间中断：它们是从坐姿到站姿的真实转变吗？

Free-living activity counts-derived breaks in sedentary time: Are they real transitions from sitting to standing?

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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