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主动式运动调整针对的是膝下假肢使用者的不确定性扰动。

Proactive Locomotor Adjustments Are Specific to Perturbation Uncertainty in Below-Knee Prosthesis Users.

机构信息

Northwestern University Department of Physical Medicine and Rehabilitation, Chicago, United States.

Jesse Brown VA Medical Center, Chicago, United States.

出版信息

Sci Rep. 2018 Jan 30;8(1):1863. doi: 10.1038/s41598-018-20207-5.

DOI:10.1038/s41598-018-20207-5
PMID:29382889
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5789867/
Abstract

Sensory-motor deficits associated with below-knee amputation impair reactions to external perturbations. As such, below-knee prosthesis users rely on proactive control strategies to maintain locomotor stability. However, there are trade-offs (metabolic, comfort, etc.) associated with proactive strategies. We hypothesize that because proactive control strategies are costly, prosthesis users and non-impaired participants will use a priori knowledge (timing, direction) of an impending lateral perturbation to make specific gait adaptations only when the timing of the perturbation is known and the adaptation can be temporally-limited. This hypothesis was partially supported. When the perturbation timing was predictable, only prosthesis users, and only on their impaired side, increased their lateral margin of stability during the steps immediately preceding the perturbation when perturbation direction was either unknown or known to be directed towards their impaired side. This strategy should reduce the likelihood of requiring a corrective step to maintain stability. However, neither group exhibited substantial proactive adaptations compared to baseline walking when perturbation timing was unpredictable, independent of perturbation direction knowledge. The absence of further proactive stabilization behaviors observed in prosthesis users in anticipation of a certain but temporally unpredictable perturbation may be partially responsible for impaired balance control.

摘要

与膝下截肢相关的感觉运动缺陷会影响对外界干扰的反应。因此,膝下假肢使用者依赖主动控制策略来维持运动稳定性。然而,主动策略存在权衡(代谢、舒适度等)。我们假设,由于主动控制策略代价高昂,假肢使用者和非损伤参与者只有在知道干扰的时间且适应可以限时的情况下,才会利用即将发生的侧向干扰的先验知识(时间、方向)来进行特定的步态适应。这一假设得到了部分证实。当干扰时间可预测时,只有假肢使用者,而且只有在他们的受损侧,在干扰发生前的几步中增加了侧向稳定性余量,无论干扰方向是未知的还是已知的朝向他们的受损侧。这种策略应该减少需要进行纠正性步伐以维持稳定性的可能性。然而,当干扰时间不可预测时,无论干扰方向的知识如何,两组人在预测到一定但时间不可预测的干扰时,与基线行走相比,都没有表现出明显的主动适应。假肢使用者在预期特定但时间不可预测的干扰时,没有观察到进一步的主动稳定行为,这可能是平衡控制受损的部分原因。

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