Bowden Mark G, Balasubramanian Chitralakshmi K, Behrman Andrea L, Kautz Steven A
Brain Rehabilitation Research Center, NF/SG Veterans Affairs Health System, Gainesville, FL 32608, USA.
Neurorehabil Neural Repair. 2008 Nov-Dec;22(6):672-5. doi: 10.1177/1545968308318837.
For clinical trials in stroke rehabilitation, self-selected walking speed has been used to stratify persons to predict functional walking status and to define clinical meaningfulness of changes. However, this stratification was validated primarily using self-report questionnaires.
This study aims to validate the speed-based classification system with quantitative measures of walking performance.
A total of 59 individuals who had hemiparesis for more than 6 months after stroke participated in this study. Spatiotemporal and kinetic measures included the percentage of total propulsion generated by the paretic leg (Pp), the percentage of the stride length accounted for by the paretic leg step length (PSR), and the percentage of the gait cycle spent in paretic preswing (PPS). Additional measures included the synergy portion of the Fugl-Meyer Assessment and the average number of steps/day in the home and community measured with a step activity monitor. Participants were stratified by self-selected gait speed into 3 groups: household (<0.4 m/s), limited community (0.4-0.8 m/s), and community (>0.8 m/s) ambulators. Group differences were analyzed using a Kruskal-Wallis H test with rank sums test post hoc analyses.
Analyses demonstrated a main effect in all measures, but only steps/day and PPS demonstrated a significant difference between all 3 groups.
Classifying individuals poststroke by self-selected walking speed is associated with home and community-based walking behavior as quantified by daily step counts. In addition, PPS distinguishes all 3 groups. Pp differentiates the moderate from the fast groups and may represent a contribution to mechanisms of increasing walking speed. Speed classification presents a useful yet simple mechanism to stratify subjects poststroke and may be mechanically linked to changes in PPS.
在中风康复临床试验中,自定步速已被用于对患者进行分层,以预测功能性步行状态并确定变化的临床意义。然而,这种分层主要通过自我报告问卷进行验证。
本研究旨在通过步行性能的定量测量来验证基于速度的分类系统。
共有59名中风后偏瘫超过6个月的个体参与了本研究。时空和动力学测量包括患侧腿产生的总推进力百分比(Pp)、患侧腿步长占步幅长度的百分比(PSR)以及患侧腿摆动前期占步态周期的百分比(PPS)。其他测量包括Fugl-Meyer评估的协同部分以及使用步数活动监测器测量的家庭和社区中每天的平均步数。参与者根据自定步速分为3组:居家步行者(<0.4 m/s)、有限社区步行者(0.4 - 0.8 m/s)和社区步行者(>0.8 m/s)。使用Kruskal-Wallis H检验和事后秩和检验分析组间差异。
分析表明所有测量指标均有主效应,但只有每天步数和PPS在所有3组之间存在显著差异。
根据自定步速对中风后个体进行分类与通过每日步数量化的家庭和社区步行行为相关。此外,PPS能区分所有3组。Pp能区分中等速度组和快速组,可能代表了对提高步行速度机制的一种贡献。速度分类为中风后患者分层提供了一种有用且简单的机制,并且可能与PPS的变化存在机械关联。