中风后步态速度变化机制的系统评价。第1部分:时空参数和不对称比率。
A systematic review of mechanisms of gait speed change post-stroke. Part 1: spatiotemporal parameters and asymmetry ratios.
作者信息
Wonsetler Elizabeth C, Bowden Mark G
机构信息
a Department of Health Sciences and Research , Medical University of South Carolina , Charleston , SC , USA.
b Ralph H. Johnson VA Medical Center , Charleston , SC , USA.
出版信息
Top Stroke Rehabil. 2017 Sep;24(6):435-446. doi: 10.1080/10749357.2017.1285746. Epub 2017 Feb 21.
BACKGROUND
In walking rehabilitation trials, self-selected walking speed (SSWS) has emerged as the dominant outcome measure to assess walking ability. However, this measure cannot differentiate between recovery of impaired movement and compensation strategies. Spatiotemporal variables and asymmetry ratios are frequently used to quantify gait deviations and are hypothesized markers of recovery.
OBJECTIVES
The purpose of this review is to investigate spatiotemporal variables and asymmetry ratios as mechanistic recovery measures in physical therapy intervention studies post-stroke.
METHODS
A systematic literature search was performed to identify physical therapy intervention studies with a statistically significant change in SSWS post intervention and concurrently collected spatiotemporal variables. Methodological quality was assessed using the Cochrane Collaboration's tool. Walking speed, spatiotemporal, and intervention data were extracted.
RESULTS
46 studies met the inclusion criteria, 41 of which reported raw spatiotemporal measures and 19 reported asymmetry ratio calculations. Study interventions included: aerobic training (n = 2), functional electrical stimulation (n = 5), hippotherapy (n = 2), motor dual task training (n = 2), multidimensional rehabilitation (n = 4), robotics (n = 4), sensory stimulation training (n = 8), strength/resistance training (n = 4), task specific locomotor rehabilitation (n = 9), and visually guided training (n = 6).
CONCLUSIONS
Spatiotemporal variables help describe gait deviations, but scale to speed, so consequently, may not be an independent factor in describing functional recovery and gains. Therefore, these variables are limited in explaining mechanistic changes involved in improving gait speed. Use of asymmetry measures provides additional information regarding the coordinative requirements for gait and can potentially indicate recovery. Additional laboratory-based mechanistic measures may be required to truly understand how walking speed improves.
背景
在步行康复试验中,自我选择步行速度(SSWS)已成为评估步行能力的主要结局指标。然而,该指标无法区分受损运动的恢复和代偿策略。时空变量和不对称比率经常用于量化步态偏差,并且被认为是恢复的标志。
目的
本综述的目的是研究时空变量和不对称比率作为中风后物理治疗干预研究中的机制性恢复指标。
方法
进行了系统的文献检索,以确定在干预后SSWS有统计学显著变化并同时收集了时空变量的物理治疗干预研究。使用Cochrane协作网的工具评估方法学质量。提取步行速度、时空和干预数据。
结果
46项研究符合纳入标准,其中41项报告了原始时空测量值,19项报告了不对称比率计算结果。研究干预措施包括:有氧训练(n = 2)、功能性电刺激(n = 5)、马术疗法(n = 2)、运动双任务训练(n = 2)、多维康复(n = 4)、机器人技术(n = 4)、感觉刺激训练(n = 8)、力量/阻力训练(n = 4)、特定任务的运动康复(n = 9)和视觉引导训练(n = 6)。
结论
时空变量有助于描述步态偏差,但会随速度变化,因此可能不是描述功能恢复和改善的独立因素。因此,这些变量在解释改善步态速度所涉及的机制变化方面存在局限性。使用不对称测量可提供有关步态协调要求的额外信息,并可能表明恢复情况。可能需要更多基于实验室的机制性测量方法才能真正了解步行速度是如何提高的。
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