A Pilot Study Exploring Obesity-Related Differences in Fall Rate and Kinematic Response Resulting From a Laboratory-Induced Trip

Christina R. Garman, M. Nussbaum, C. Franck, M. Madigan
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引用次数: 5

Abstract

OCCUPATIONAL APPLICATIONS A higher percentage of young adults with a higher body mass index (BMI) fell after a laboratory-induced trip compared to young adults with a lower BMI, although this difference did not reach statistical significance. Young adults with a higher BMI also exhibited a kinematic response to the trip that was less favorable than adults with a lower BMI. This study provides preliminary evidence that obesity may increase the risk of falls after tripping among young obese workers, and that this increased risk may be due to a less favorable balance recovery response after tripping. Additional larger scale studies are needed to better understand contributing and modifiable factors that can be targeted via intervention or other fall prevention strategies. TECHNICAL ABSTRACT Background: Obese adults are reported to fall at a higher rate than non-obese adults. Purpose: To help determine the reason for this higher fall rate, we quantified fall rates, kinematics at trip onset, and kinematics during the response to a laboratory-induced trip among two groups of young adults with higher and lower body mass indexes (BMI) that approximated obese and healthy-weight ranges. Our focus was on young adults given that they comprise a substantial portion of the workforce. Methods: Twenty-one young adult subjects, including 10 with a lower BMI (19.4–25.7 kg/m2) and 11 with a higher BMI (29.8–42.9 kg/m2), walked along a 10 m walkway at a purposeful speed. During a randomly selected walking trial, an obstacle was raised to elicit a trip. Results: Among the 19 subjects who unambiguously fell or recovered, 30% of subjects with higher BMI fell and 0% of lower BMI subjects fell, but this difference did not reach statistical significance. Among the 15 subjects who used an elevating strategy, all recovered balance, and the only kinematic response variable that differed between BMI groups was that recovery step time was longer among the higher BMI group. Among the four subjects who used a lowering strategy, no statistical analysis was possible due to a small number of subjects, but several measures were consistent with a less favorable kinematic response among the three higher BMI fallers compared to the one lower BMI subject who recovered. Conclusions: This study provides preliminary evidence that obesity may adversely influence fall rate and recovery kinematics after tripping among young adults. Additional larger scale studies are needed to better understand contributing and modifiable factors that can be targeted via intervention.
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一项初步研究探索肥胖在跌倒率和运动反应方面的相关差异,这是由实验室诱导的旅行造成的
与身体质量指数(BMI)较低的年轻人相比,身体质量指数较高的年轻人在实验室诱导的旅行后摔倒的比例更高,尽管这种差异没有达到统计学意义。与BMI较低的成年人相比,BMI较高的年轻人对旅行的运动学反应也不那么有利。这项研究提供了初步证据,表明肥胖可能会增加年轻肥胖工人绊倒后跌倒的风险,而这种风险的增加可能是由于绊倒后不太有利的平衡恢复反应。需要进行更多的大规模研究,以更好地了解可以通过干预或其他预防跌倒策略针对的促成因素和可改变因素。技术摘要背景:据报道,肥胖的成年人比非肥胖的成年人有更高的跌倒率。目的:为了帮助确定高跌倒率的原因,我们对两组身体质量指数(BMI)接近肥胖和健康体重范围的较高和较低的年轻人进行了跌倒率、旅行开始时的运动学和对实验室诱发的旅行的反应期间的运动学进行了量化。我们的重点是年轻人,因为他们占劳动力的很大一部分。方法:21名年轻成人受试者,其中10名BMI较低(19.4-25.7 kg/m2), 11名BMI较高(29.8-42.9 kg/m2),以有目的的速度沿着10米的人行道行走。在一项随机选择的步行试验中,研究人员设置了一个障碍,以引发行走。结果:在19名明显跌倒或康复的受试者中,BMI较高的受试者有30%跌倒,BMI较低的受试者有0%跌倒,但差异无统计学意义。在使用升高策略的15名受试者中,所有人都恢复了平衡,BMI组之间唯一不同的运动学反应变量是高BMI组的恢复步时间更长。在使用降低策略的四名受试者中,由于受试者数量少,无法进行统计分析,但几项测量结果一致表明,与恢复的一名BMI较低的受试者相比,三名BMI较高的受试者的运动学反应较差。结论:这项研究提供了初步证据,表明肥胖可能会对年轻人跌倒率和绊倒后的恢复运动学产生不利影响。需要进行更多的大规模研究,以更好地了解可以通过干预针对的促成因素和可改变因素。
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