不同机制介导皮质-丘脑底核网络中的速度-准确性调整。

Distinct mechanisms mediate speed-accuracy adjustments in cortico-subthalamic networks.

作者信息

Herz Damian M, Tan Huiling, Brittain John-Stuart, Fischer Petra, Cheeran Binith, Green Alexander L, FitzGerald James, Aziz Tipu Z, Ashkan Keyoumars, Little Simon, Foltynie Thomas, Limousin Patricia, Zrinzo Ludvic, Bogacz Rafal, Brown Peter

机构信息

Medical Research Council Brain Network Dynamics Unit at the University of Oxford, Oxford, United Kingdom.

Nuffield Department of Clinical Neurosciences, John Radcliffe Hospital, University of Oxford, Oxford, United Kingdom.

出版信息

Elife. 2017 Jan 31;6:e21481. doi: 10.7554/eLife.21481.

DOI:10.7554/eLife.21481

PMID:28137358

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5287713/

Abstract

Optimal decision-making requires balancing fast but error-prone and more accurate but slower decisions through adjustments of decision thresholds. Here, we demonstrate two distinct correlates of such speed-accuracy adjustments by recording subthalamic nucleus (STN) activity and electroencephalography in 11 Parkinson's disease patients during a perceptual decision-making task; STN low-frequency oscillatory (LFO) activity (2-8 Hz), coupled to activity at prefrontal electrode Fz, and STN beta activity (13-30 Hz) coupled to electrodes C3/C4 close to motor cortex. These two correlates differed not only in their cortical topography and spectral characteristics but also in the relative timing of recruitment and in their precise relationship with decision thresholds. Increases of STN LFO power preceding the response predicted increased thresholds only after accuracy instructions, while cue-induced reductions of STN beta power decreased thresholds irrespective of instructions. These findings indicate that distinct neural mechanisms determine whether a decision will be made in haste or with caution.

摘要

最佳决策需要通过调整决策阈值来平衡快速但容易出错的决策和更准确但更慢的决策。在此，我们通过记录11名帕金森病患者在感知决策任务期间的丘脑底核（STN）活动和脑电图，证明了这种速度-准确性调整的两种不同关联；STN低频振荡（LFO）活动（2-8赫兹），与前额叶电极Fz处的活动耦合，以及STNβ活动（13-30赫兹）与靠近运动皮层的电极C3/C4耦合。这两种关联不仅在皮层地形图和频谱特征上有所不同，而且在募集的相对时间以及它们与决策阈值的确切关系上也有所不同。反应前STN LFO功率的增加仅在准确性指令后才预测阈值增加，而线索诱导的STNβ功率降低则无论指令如何都会降低阈值。这些发现表明，不同的神经机制决定了决策是仓促做出还是谨慎做出。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cd20/5287713/ee863507473c/elife-21481-fig1.jpg

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不同机制介导皮质-丘脑底核网络中的速度-准确性调整。

Distinct mechanisms mediate speed-accuracy adjustments in cortico-subthalamic networks.

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