Barzi Yasaman, Zehr E Paul
Rehabilitation Neuroscience Laboratory, University of Victoria, RM D-017 MacLaurin Building, P.O. Box 3015, STN CSC, Victoria, BC, Canada V8W 3P1.
Clin Neurophysiol. 2008 Jun;119(6):1443-52. doi: 10.1016/j.clinph.2008.02.016. Epub 2008 Apr 14.
Rhythmic arm cycling movement suppresses the amplitude of soleus H-reflexes in neurologically intact participants. This suppression is greater when the movement frequency is increased. If rhythmic arm movement can still suppress the amplitude of H-reflexes in the legs after stroke, it could potentially be used as a rehabilitation technique to reduce exaggerated reflexes such as those occurring in spasticity. The purpose of this study was to test for maintenance of this suppressive effect after stroke. Since a portion of the effect of arm cycling had previously been ascribed to subcortical and spinal mechanisms, we hypothesized that the suppressive effect of arm cycling would be partially maintained after stroke.
Participants with history of single chronic (> 6 months) stroke performed rhythmic arm cycling at approximately 1 Hz and also at the highest frequency possible ( approximately 1.5 Hz). Soleus H-reflexes were evoked in the more and less affected legs simultaneously and full recruitment curves obtained.
H-reflex amplitudes in both the more and less affected legs of stroke participants were significantly suppressed during arm cycling. However, the extent of the suppression is weaker compared to neurologically intact and age-matched subjects.
Neural activity related to arm cycling can still access interlimb pathways after stroke and activate spinal control mechanisms leading to suppression of H-reflex amplitudes.
The suppressive effect of arm cycling could be exploited in the modification of exaggerated muscle afferent reflexes in leg muscles after stroke. Whether this has a significant effect on modulation of spasticity requires further substantiation.
有节奏的手臂循环运动可抑制神经功能正常受试者比目鱼肌H反射的幅度。当运动频率增加时,这种抑制作用更强。如果有节奏的手臂运动在中风后仍能抑制腿部H反射的幅度,那么它有可能被用作一种康复技术,以减少诸如痉挛时出现的过度反射。本研究的目的是测试中风后这种抑制作用是否依然存在。由于之前认为手臂循环运动的部分作用归因于皮层下和脊髓机制,我们推测中风后手臂循环运动的抑制作用将部分保留。
有单次慢性(>6个月)中风病史的受试者以约1Hz以及尽可能高的频率(约1.5Hz)进行有节奏的手臂循环运动。同时在受影响程度较高和较低的腿上诱发比目鱼肌H反射,并获得完整的募集曲线。
中风受试者受影响程度较高和较低的腿的H反射幅度在手臂循环运动期间均受到显著抑制。然而,与神经功能正常且年龄匹配的受试者相比,抑制程度较弱。
中风后,与手臂循环运动相关的神经活动仍可通过肢体间通路并激活脊髓控制机制,从而抑制H反射幅度。
手臂循环运动的抑制作用可用于改善中风后腿部肌肉中过度的肌肉传入反射。这对痉挛调节是否有显著影响需要进一步证实。
