Fawcett Adrian P, Cunic Daniel, Hamani Clement, Hodaie Mojgan, Lozano Andres M, Chen Robert, Hutchison William D
Department of Physiology, Faculty of Medicine, University of Toronto, Toronto, Ont., Canada.
Clin Neurophysiol. 2007 Jan;118(1):155-63. doi: 10.1016/j.clinph.2006.09.016. Epub 2006 Nov 9.
To investigate an ocular motor role for the STN in Parkinson's disease (PD) patients.
Potentials were recorded from deep brain stimulation (DBS) electrodes implanted in the vicinity of STN in five PD patients, while patients simultaneously performed visually cued saccades, self-paced saccades and in two patients self-paced wrist extensions.
Premovement potentials related to visually cued saccades were found in 4/5 patients and 56% (5/9) of potentials showed phase reversal indicating a local generator. Onsets of these potentials began closer to saccade initiation from STN contacts (0.88+/-0.30s) than thalamic ones (1.39+/-0.28 s). Self-paced saccade-related potentials were found in 4/4 patients. Self-paced saccade potential onsets (1.82+/-0.88 s) were not different from self-paced wrist extension onsets (1.27+/-0.98 s), suggesting a non-specific mechanism could be responsible for both potentials. 50% (3/6) of potentials to self-paced saccades and 66% (2/3) of potentials to self-paced wrist extensions showed phase reversal. Potentials could be found either ipsilaterally or contralaterally with respect to saccade direction.
These subcortical premovement potentials to saccades are similar to Bereitschaftspotentials and contingent negative variations to limb movements recorded in cortical and subcortical regions.
These studies further support a role of STN in ocular motor control and suggest a common mechanism of motor preparation for both eye and limb movements in the basal ganglia.
研究帕金森病(PD)患者中丘脑底核(STN)在眼球运动中的作用。
记录5例PD患者植入STN附近的深部脑刺激(DBS)电极的电位,同时患者进行视觉提示的扫视、自主节律的扫视,其中2例患者还进行自主节律的腕部伸展。
4/5的患者发现与视觉提示扫视相关的运动前电位,56%(5/9)的电位显示相位反转,表明存在局部发生器。这些电位的起始点比丘脑的起始点(1.39±0.28秒)更接近STN触点的扫视起始点(0.88±0.30秒)。4/4的患者发现与自主节律扫视相关的电位。自主节律扫视电位的起始点(1.82±0.88秒)与自主节律腕部伸展的起始点(1.27±0.98秒)无差异,提示可能有非特异性机制对这两种电位负责。50%(3/6)的自主节律扫视电位和66%(2/3)的自主节律腕部伸展电位显示相位反转。电位可在扫视方向的同侧或对侧发现。
这些皮质下扫视运动前电位类似于 Bereitschaft 电位以及在皮质和皮质下区域记录到的肢体运动的关联性负变化。
这些研究进一步支持了STN在眼球运动控制中的作用,并提示基底神经节中眼球和肢体运动的运动准备存在共同机制。
