Youngjae Lee, Neil B Alexander, Christopher T Franck, Michael L Madigan
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When including all lab-induced trips, sternum drop after real-world trips was 8.8 cm smaller (p < 0.001), exhibited less variance (p < 0.001), and was not associated with lab-induced trips (R2 = 0.005; p = 0.757). When only including lab-induced trips that resulted in recoveries, sternum drop after real-world trips did not differ from the lab (p = 0.163), exhibited less variance (p < 0.001) and was not associated with lab-induced trips (R2 = 0.006; p = 0.766). These results were likely dependent upon 1) our lab protocol that required participants to walk at a gait speed that was likely faster than typical gait speed in the real-world, and 2) the aggressive lab tripping obstacle height of 8.6 cm was likely taller than at least some real-world trips. 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引用次数: 0
摘要
这项探索性研究的目的是比较实验室诱发的跌倒和现实世界中自然发生的跌倒之间的胸骨落差——在跌倒后试图恢复平衡时胸骨高度的下降。20名71.8岁(4.6岁)的社区居民每天使用三个惯性测量单元(imu)和一个腕带录音机,持续三周,以捕捉任何自然发生的真实世界旅行中的胸骨下降。然后,参与者完成了一个单独的实验室测试阶段,在此期间,他们故意暴露在两次实验室诱导的旅行中,同时佩戴相同的imu,以评估胸骨下降。所有的实际起下钻都实现了回收,而22次实验室诱导起下钻中只有12次实现了回收(其余10次为坠落)。当包括所有实验室诱导的绊倒时,真实绊倒后的胸骨落差小8.8 cm (p
Sternum drop during trip recovery differs between the laboratory and real world - An exploratory pilot study.
The goal of this exploratory study was to compare sternum drop-the decrease in sternum height during an attempt to recover balance after tripping-between lab-induced trips and naturally occurring real-world trips. Twenty community-dwelling adults 71.8 (4.6) years old used three inertial measurement units (IMUs) and a wrist-worn voice recorder daily for three weeks to capture sternum drop during any naturally-occurring real-world trips. Participants then completed a single laboratory testing session during which they were intentionally exposed to two lab-induced trips while wearing the same IMUs to also evaluate sternum drop. All real-world trips resulted in recoveries while only 12 of the 22 lab-induced trips resulted in recoveries (the remaining 10 were falls). When including all lab-induced trips, sternum drop after real-world trips was 8.8 cm smaller (p < 0.001), exhibited less variance (p < 0.001), and was not associated with lab-induced trips (R2 = 0.005; p = 0.757). When only including lab-induced trips that resulted in recoveries, sternum drop after real-world trips did not differ from the lab (p = 0.163), exhibited less variance (p < 0.001) and was not associated with lab-induced trips (R2 = 0.006; p = 0.766). These results were likely dependent upon 1) our lab protocol that required participants to walk at a gait speed that was likely faster than typical gait speed in the real-world, and 2) the aggressive lab tripping obstacle height of 8.6 cm was likely taller than at least some real-world trips. While reducing gait speed and obstacle height in future laboratory studies may improve agreement with real-world trips, this would lower the physical demands during recovery and may not be as effective at revealing factors contributing to falls. Nevertheless, additional research appears warranted to clarify the linkage between lab and real-world trips. To our knowledge, this is the first study comparing tripping kinematics between the lab and real world.
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