Department of Neurological Sciences, Sapienza University of Rome, Rome, Italy.
Eur J Neurosci. 2010 Feb;31(3):585-92. doi: 10.1111/j.1460-9568.2010.07090.x. Epub 2010 Jan 25.
Theta-burst stimulation (TBS) is currently used for inducing long-lasting changes in primary motor cortex (M1) excitability. More information is needed on how M1 is involved in early motor learning (practice-related improvement in motor performance, motor retention and motor consolidation). We investigated whether inhibitory continuous TBS (cTBS) is an effective experimental approach for modulating early motor learning of a simple finger movement in healthy humans. In a short task, 11 subjects practised 160 movements, and in a longer task also testing motor consolidation ten subjects practised 600 movements. During both experiments subjects randomly received real or sham cTBS over the left M1. Motor evoked potentials were tested at baseline and 7 min after cTBS. In the 160-movement experiment to test motor retention, 20 movements were repeated 30 min after motor practice ended. In the 600-movement experiment motor retention was assessed 15 and 30 min after motor practice ended, motor consolidation was tested by performing 20 movements 24 h after motor practice ended. Kinematic variables - movement amplitude, peak velocity and peak acceleration - were measured. cTBS significantly reduced the practice-related improvement in motor performance of finger movements in the experiment involving 160 movements and in the first part of the experiment involving 600 movements. After cTBS, peak velocity and peak acceleration of the 20 movements testing motor retention decreased whereas those testing motor consolidation remained unchanged. cTBS over M1 degrades practice-related improvement in motor performance and motor retention, but not motor consolidation of a voluntary finger movement.
经颅磁刺激(TBS)目前用于诱导初级运动皮层(M1)兴奋性的长期变化。需要更多关于 M1 如何参与早期运动学习(与练习相关的运动表现、运动保持和运动巩固的改善)的信息。我们研究了抑制性连续 TBS(cTBS)是否是调节健康人类简单手指运动早期运动学习的有效实验方法。在一个简短的任务中,11 名受试者练习了 160 次运动,在一个更长的任务中,10 名受试者还测试了运动巩固,练习了 600 次运动。在这两个实验中,受试者随机接受左 M1 上的真实或假 cTBS。在 cTBS 后 7 分钟测试运动诱发电位。在测试运动保持的 160 次运动实验中,在运动练习结束后 30 分钟重复 20 次运动。在 600 次运动实验中,在运动练习结束后 15 和 30 分钟评估运动保持,在运动练习结束后 24 小时进行 20 次运动测试运动巩固。运动变量 - 运动幅度、峰值速度和峰值加速度 - 进行了测量。cTBS 显著降低了涉及 160 次运动的实验和涉及 600 次运动的实验的第一部分中手指运动的与练习相关的运动表现的改善。cTBS 后,测试运动保持的 20 次运动的峰值速度和峰值加速度降低,而测试运动巩固的运动保持不变。M1 上的 cTBS 降低了与练习相关的运动表现改善和运动保持,但不影响自愿手指运动的运动巩固。
