Department of Neuroscience, University of Florida, Gainesville, Florida.
J. Crayton Pruitt Department of Biomedical Engineering, University of Florida, Gainesville, Florida.
Biol Psychiatry. 2022 Feb 15;91(4):370-379. doi: 10.1016/j.biopsych.2021.03.002. Epub 2021 Mar 6.
Impulsivity and impulse control disorders are common in Parkinson's disease and lead to increased morbidity and reduced quality of life. Impulsivity is thought to arise from aberrant reward processing and inhibitory control, but it is unclear why deep brain stimulation of either the subthalamic nucleus (STN) or globus pallidus internus (GPi) affects levels of impulsivity. Our aim was to assess the role of the STN and GPi in impulsivity using invasive local field potential (LFP) recordings from deep brain stimulation electrodes.
We measured LFPs during a simple rewarding Go/NoGo paradigm in 39 female and male human patients with Parkinson's disease manifesting variable amounts of impulsivity who were undergoing unilateral deep brain stimulation of either the STN (18 nuclei) or GPi (28 nuclei). We identified reward-specific LFP event-related potentials and correlated them to impulsivity severity.
LFPs in both structures modulated during reward-specific Go and NoGo stimulus evaluation, reward feedback, and loss feedback. Motor and limbic functions were anatomically separable in the GPi but not in the STN. Across participants, LFP reward processing responses in the STN and GPi uniquely depended on the severity of impulsivity.
This study establishes LFP correlates of impulsivity within the STN and GPi regions. We propose a model for basal ganglia reward processing that includes the bottom-up role of the GPi in reward salience and the top-down role of the STN in cognitive control.
冲动和冲动控制障碍在帕金森病中很常见,导致发病率增加和生活质量降低。冲动被认为是源于异常的奖励处理和抑制控制,但尚不清楚为什么丘脑底核(STN)或苍白球内(GPi)的深部脑刺激会影响冲动水平。我们的目的是使用深部脑刺激电极的侵入性局部场电位(LFP)记录来评估 STN 和 GPi 在冲动中的作用。
我们在 39 名表现出不同程度冲动的女性和男性帕金森病患者中测量了在简单奖励 Go/NoGo 范式期间的 LFPs,这些患者正在接受单侧 STN(18 个核)或 GPi(28 个核)的深部脑刺激。我们确定了奖励特异性 LFP 事件相关电位,并将其与冲动严重程度相关联。
在奖励特异性 Go 和 NoGo 刺激评估、奖励反馈和损失反馈期间,两种结构中的 LFPs 都发生了调制。在 GPi 中,运动和边缘功能在解剖上是可分离的,但在 STN 中则不是。在所有参与者中,STN 和 GPi 中的 LFP 奖励处理反应与冲动严重程度独特相关。
这项研究在 STN 和 GPi 区域内确立了冲动的 LFP 相关性。我们提出了一个基底节奖励处理模型,包括 GPi 在奖励显着性中的自下而上作用和 STN 在认知控制中的自上而下作用。