| JOURNAL OF BIOMECHANICS | 卷:74 |
| Dynamic balance during walking adaptability tasks in individuals post-stroke | |
| Article | |
| Vistamehr, Arian1 Balasubramanian, Chitralakshmi K.2 Clark, David J.3,4 Neptune, Richard R.5 Fox, Emily J.1,6 | |
| [1] Brooks Rehabil, Mot Anal Ctr, Jacksonville, FL USA | |
| [2] Univ North Florida, Dept Clin & Appl Movement Sci, Jacksonville, FL USA | |
| [3] Malcom Randall VA Med Ctr, Brain Rehabil Res Ctr, Gainesville, FL USA | |
| [4] Univ Florida, Dept Aging & Geriatr Res, Gainesville, FL 32610 USA | |
| [5] Univ Texas Austin, Dept Mech Engn, Austin, TX 78712 USA | |
| [6] Univ Florida, Dept Phys Therapy, Gainesville, FL 32610 USA | |
| 关键词: Community ambulation; Angular momentum; Stability; Obstacle; Biomechanics; Gait; | |
| DOI : 10.1016/j.jbiomech.2018.04.029 | |
| 来源: Elsevier | |
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【 摘 要 】
Maintaining dynamic balance during community ambulation is a major challenge post-stroke. Community ambulation requires performance of steady-state level walking as well as tasks that require walking adaptability. Prior studies on balance control post-stroke have mainly focused on steady-state walking, but walking adaptability tasks have received little attention. The purpose of this study was to quantify and compare dynamic balance requirements during common walking adaptability tasks post stroke and in healthy adults and identify differences in underlying mechanisms used for maintaining dynamic balance. Kinematic data were collected from fifteen individuals with post-stroke hemiparesis during steady-state forward and backward walking, obstacle negotiation, and step-up tasks. In addition, data from ten healthy adults provided the basis for comparison. Dynamic balance was quantified using the peak-to-peak range of whole-body angular-momentum in each anatomical plane during the paretic, nonparetic and healthy control single-leg-stance phase of the gait cycle. To understand differences in some of the key underlying mechanisms for maintaining dynamic balance, foot placement and plantarfiexor muscle activation were examined. Individuals post-stroke had significant dynamic balance deficits in the frontal plane across most tasks, particularly during the paretic single-leg-stance. Frontal plane balance deficits were associated with wider paretic foot placement, elevated body center-of-mass, and lower soleus activity. Further, the obstacle negotiation task imposed a higher balance requirement, particularly during the trailing leg single-stance. Thus, improving paretic foot placement and ankle plantarflexor activity, particularly during obstacle negotiation, may be important rehabilitation targets to enhance dynamic balance during post-stroke community ambulation. (C) 2018 Elsevier Ltd. All rights reserved.
【 授权许可】
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【 预 览 】
| Files | Size | Format | View |
|---|---|---|---|
| 10_1016_j_jbiomech_2018_04_029.pdf | 1842KB |  download |
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