Sailer A, Cunic D I, Paradiso G O, Gunraj C A, Wagle-Shukla A, Moro E, Lozano A M, Lang A E, Chen R
Division of Neurology, Krembil Neuroscience Centre and Toronto Western Research Institute, University of Toronto, Toronto, Ontario, Canada.
Neurology. 2007 Jan 30;68(5):356-63. doi: 10.1212/01.wnl.0000252812.95774.aa.
Peripheral sensory stimulation at the wrist inhibits the motor cortex as measured by transcranial magnetic stimulation at interstimulus intervals of approximately 20 ms (short latency afferent inhibition [SAI]) and 200 ms (long latency afferent inhibition [LAI]). Previous studies suggested that reduced SAI in Parkinson disease (PD) reflects adverse effect of dopaminergic medications and reduced LAI may be related to nondopaminergic manifestations of PD. We hypothesize that subthalamic nucleus (STN) deep brain stimulation (DBS) may correct these deficiencies.
We studied the effects of STN DBS on SAI and LAI in seven PD patients and age-matched controls. PD patients were studied in an off medication followed by an on medication session, with the stimulator switched on or off in random order in each session.
In the on medication session, SAI was reduced in the stimulator off condition and was restored by STN DBS. LAI was partially normalized by STN DBS in the medication on condition.
Subthalamic nucleus (STN) stimulation improves short latency afferent inhibition, suggesting that it could normalize pathways that are adversely affected by dopaminergic medications. The effect of STN stimulation on long latency afferent inhibition suggests that it may influence nondopaminergic pathways involved in sensorimotor integration.
经颅磁刺激测量显示,在手腕处进行外周感觉刺激,在大约20毫秒的刺激间隔(短潜伏期传入抑制[SAI])和200毫秒(长潜伏期传入抑制[LAI])时会抑制运动皮层。先前的研究表明,帕金森病(PD)患者SAI降低反映了多巴胺能药物的不良反应,而LAI降低可能与PD的非多巴胺能表现有关。我们假设丘脑底核(STN)深部脑刺激(DBS)可能纠正这些缺陷。
我们研究了STN DBS对7例PD患者和年龄匹配对照组的SAI和LAI的影响。对PD患者在未服药状态下进行研究,随后在服药状态下进行研究,每次研究中刺激器以随机顺序开启或关闭。
在服药状态下,刺激器关闭时SAI降低,STN DBS使其恢复。在服药状态下,STN DBS使LAI部分恢复正常。
丘脑底核(STN)刺激可改善短潜伏期传入抑制,表明它可使受多巴胺能药物负面影响的通路恢复正常。STN刺激对长潜伏期传入抑制的作用表明,它可能影响参与感觉运动整合的非多巴胺能通路。