Boyd Lara A, Winstein Carolee J
Department of Physical Therapy and Rehabilitation Sciences, University of Kansas Medical Center, 3056 Robinson, Mail Stop 2002, 3901 Rainbow Boulevard, Kansas City 66160-7601, USA.
Neurorehabil Neural Repair. 2004 Sep;18(3):134-43. doi: 10.1177/0888439004269072.
Numerous studies have demonstrated cerebellar activity during implicit motor learning, but few have addressed its specific role. The purpose of this study was to determine if specific components (spatial or temporal) of an implicit motor-tracking task were affected by cerebellar stroke.
The authors studied the performance of individuals with unilateral cerebellar stroke (n = 7)and a control group (n = 10) across 3 acquisition days and at a delayed retention test as they practiced a unimanual tracking task with the contralesional upper extremity.
After cerebellar stroke, participants demonstrated reduced tracking errors for repeating sequences compared to random sequences; however, decomposition of tracking performance into temporal and spatial components revealed persistent deficits in tracking time lag despite improved spatial accuracy. A lesion analysis showed that the dentate nucleus was the only common region affected by all cerebellar strokes.
During implicit motor learning, the cerebellum appears to participate in the formation of predictive strategies for the timing of motor responses, rather than for the accuracy of motor execution. Because deficits were found in the contralesional upper extremity, the authors suggest that this function is not lateralized to 1 hemisphere; cerebellar output may affect the formation of an internal model for timing movements in both upper extremities.
众多研究已证实小脑在隐性运动学习过程中存在活动,但很少有研究探讨其具体作用。本研究的目的是确定隐性运动追踪任务的特定组成部分(空间或时间)是否受小脑卒中影响。
作者研究了单侧小脑卒中患者(n = 7)和对照组(n = 10)在3天习得期及延迟保留测试中的表现,他们用对侧上肢进行单手追踪任务练习。
小脑卒中后,与随机序列相比,参与者在重复序列时的追踪误差减小;然而,将追踪表现分解为时间和空间成分后发现,尽管空间准确性有所提高,但追踪时间滞后仍存在持续缺陷。病灶分析表明,齿状核是所有小脑卒中均累及的唯一共同区域。
在隐性运动学习过程中,小脑似乎参与运动反应时间预测策略的形成,而非运动执行的准确性。由于在对侧上肢发现了缺陷,作者认为该功能并非定位于一侧半球;小脑输出可能影响双侧上肢运动时间内部模型的形成。
