机械和热刺激对帕金森病患者局部场电位和单单位活动的影响
The Effects of Mechanical and Thermal Stimuli on Local Field Potentials and Single Unit Activity in Parkinson's Disease Patients.
作者信息
Belasen Abigail, Youn Youngwon, Gee Lucy, Prusik Julia, Lai Brant, Ramirez-Zamora Adolfo, Rizvi Khizer, Yeung Philip, Shin Damian S, Argoff Charles, Pilitsis Julie G
机构信息
Department of Neurosurgery, Albany Medical Center, Albany, NY, USA.
Department of Neuroscience and Experimental Therapeutics, Albany Medical College, Albany, NY, USA.
出版信息
Neuromodulation. 2016 Oct;19(7):698-707. doi: 10.1111/ner.12453. Epub 2016 Jun 10.
BACKGROUND
Chronic pain is a major, debilitating symptom of Parkinson's disease (PD). Although, deep brain stimulation (DBS) has been shown to improve pain outcomes, the mechanisms underlying this phenomenon are unclear. Microelectrode recording allows us to measure both local field potentials (LFPs) and single neuronal unit activity (SUA).
OBJECTIVE
In this study, we examined how single unit and LFP oscillatory activity in the basal ganglia are impacted by mechanical and thermal sensory stimuli and explored their role in pain modulation.
METHODS
We assessed changes in LFPs and SUAs in the subthalamic nucleus (STN), globus pallidus interna (Gpi), and globus pallidus externa (Gpe) following exposure with mechanical or thermal stimuli. Sensory thresholds were determined pre-operatively using quantitative sensory testing. Based on these data, patients were exposed to innocuous and noxious mechanical, pressure, and thermal stimuli at individualized thresholds.
RESULTS
In the STN, LFP alpha oscillatory activity and SUA increased in response to innocuous mechanical stimuli; SUA further increased in response to noxious mechanical, noxious pressure, and noxious thermal stimuli (p < 0.05). In the Gpe, LFP low betaactivity and SUA increased with noxious thermal stimuli; SUA also increased in response to innocuous thermal stimuli (p < 0.05). In the Gpi, innocuous thermal stimuli increased LFP gammaactivity; noxious pressure stimuli decreased low betaactivity; SUA increased in response to noxious thermal stimuli (p < 0.05).
DISCUSSION
Our study is the first to demonstrate that mechanical and thermal stimuli alter basal ganglia LFPs and SUAs in PD. While STN SUA increases nearly uniformly to all sensory stimuli, SUA in the pallidal nuclei respond solely to thermal stimuli. Similarly, thermal stimuli yield increases in pallidal LFP activity, but not STN activity. We speculate that DBS may provide analgesia through suppression of stimuli-specific changes in basal ganglia activity, supporting a role for these nuclei in sensory and pain processing circuits.
背景
慢性疼痛是帕金森病(PD)的一种主要的、使人衰弱的症状。尽管深部脑刺激(DBS)已被证明可改善疼痛结果,但这一现象背后的机制尚不清楚。微电极记录使我们能够测量局部场电位(LFP)和单个神经元单元活动(SUA)。
目的
在本研究中,我们研究了基底神经节中的单个单元和LFP振荡活动如何受到机械和热感觉刺激的影响,并探讨了它们在疼痛调制中的作用。
方法
我们评估了在接受机械或热刺激后,丘脑底核(STN)、内侧苍白球(Gpi)和外侧苍白球(Gpe)中LFP和SUA的变化。术前使用定量感觉测试确定感觉阈值。基于这些数据,让患者在个性化阈值下接受无害和有害的机械、压力和热刺激。
结果
在STN中,无害机械刺激会使LFPα振荡活动和SUA增加;有害机械、有害压力和有害热刺激会使SUA进一步增加(p < 0.05)。在Gpe中,有害热刺激会使LFP低β活动和SUA增加;无害热刺激也会使SUA增加(p < 0.05)。在Gpi中,无害热刺激会增加LFPγ活动;有害压力刺激会降低低β活动;有害热刺激会使SUA增加(p < 0.05)。
讨论
我们的研究首次证明机械和热刺激会改变PD患者基底神经节的LFP和SUA。虽然STN的SUA对所有感觉刺激几乎均有增加,但苍白球核中的SUA仅对热刺激有反应。同样,热刺激会使苍白球LFP活动增加,但不会使STN活动增加。我们推测DBS可能通过抑制基底神经节活动中特定于刺激的变化来提供镇痛作用,支持这些核团在感觉和疼痛处理回路中的作用。
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