Gavin James P, Reeves Neil D, Jones David A, Roys Mike, Buckley John G, Baltzopoulos Vasilios, Maganaris Constantinos N
School of Health Sciences, University of Southampton, Southampton, United Kingdom.
Research Centre for Musculoskeletal Science and Sports Medicine, Department of Life Sciences, Manchester Metropolitan University, Manchester, United Kingdom.
Front Physiol. 2019 Jul 17;10:873. doi: 10.3389/fphys.2019.00873. eCollection 2019.
Stair descent is a physically demanding activity of daily life and common risk for falls. Age-related deteriorations in ankle joint capacities make stair descent particularly challenging for older adults in built environments, where larger rise steps are encountered. Exercise training may allow older adults to safely cope with the high biomechanical demands of stair descent. However, little is known about the demands of increased rise stairs for older adults, nor the impact of exercise.
We investigated whether the effects of lower-limb resistance training would alter joint kinetics and movement strategies for older adults when descending standard rise, and increased rise stairs.
Fifteen older adults descended a four-step stair adjusted to standard rise (170 mm), and increased rise (255 mm) on separate visits. Between these two visits, randomly allocated participants underwent 16 weeks of either: resistance exercise training ( = 8) or habitual activity ( = 7). Kinetic data were measured from step-mounted force plates, and kinematic data from motion-capture cameras. Training involved twice-weekly sessions of lower-limb resistance exercises (three sets of ∼8 repetitions at ∼80% three-repetition maximum), and static plantarflexor stretching (three, 45 s holds per leg).
Exercise training increased the maximum joint ROM, strength and force production of the ankle, and enabled a greater ankle joint moment to be produced in single-leg support (lowering phase) during standard stair descent. Descending increased rise stairs raised the task demand; exercise training could not overcome this. Future research should prioritize the ankle joint in stair descent, particularly targeting plantarflexor torque development across stairs of varying riser heights.
下楼梯是一项对身体要求较高的日常活动,也是跌倒的常见风险。踝关节功能随年龄增长而衰退,这使得老年人在建筑环境中遇到较大步高的楼梯时,下楼梯变得格外具有挑战性。运动训练或许能让老年人安全应对下楼梯时较高的生物力学需求。然而,对于步高增加的楼梯对老年人的要求以及运动的影响,我们知之甚少。
我们研究了下肢阻力训练对老年人下标准步高楼梯和步高增加的楼梯时关节动力学及运动策略的影响是否会发生改变。
15名老年人分别在不同时间下降一个调整为标准步高(170毫米)和步高增加(255毫米)的四级楼梯。在这两次测试之间,将参与者随机分为两组,一组进行16周的阻力运动训练(n = 8),另一组进行日常活动(n = 7)。通过安装在楼梯上的测力板测量动力学数据,通过动作捕捉摄像机测量运动学数据。训练包括每周两次的下肢阻力训练(三组,每组约8次重复,强度约为80%的三次重复最大值)和静态跖屈肌拉伸(每条腿进行三次,每次保持45秒)。
运动训练增加了踝关节的最大关节活动范围、力量和力的产生,并使在标准楼梯下降单腿支撑(下降阶段)时能够产生更大的踝关节力矩。下降步高增加的楼梯提高了任务需求;运动训练无法克服这一点。未来的研究应将下楼梯时的踝关节作为重点,特别是针对不同步高楼梯的跖屈扭矩发展。
