局部场电位
神经科学
脑电图
丘脑底核
额叶皮质
电生理学
脑深部刺激
刺激
疾病
功能连接
皮质(解剖学)
连贯性(哲学赌博策略)
帕金森病
心理学
医学
联轴节(管道)
视皮层
大脑定位
大脑皮层
生物
听力学
光谱分析
内科学
网络动力学
格兰杰因果关系
心脏病学
作者
Florencia Sanmartino,Raúl Rashid-López,Fernando López-Sosa,Alvaro Javier Cruz-Gomez,Elena Lozano-Soto,Jesús Riqué-Dormido,Raul Espinosa-Rosso,Javier Jesus Gonzalez-Rosa
标识
DOI:10.1142/s0129065726500310
摘要
Resting-state eye conditions modulate cortical oscillations, but their impact on subthalamic nucleus (STN) and cortico-STN dynamics in Parkinson's disease (PD) remains poorly understood. Here, we characterized electrophysiological changes in the STN and cortical interactions during eyes-open (EO) and eyes-closed (EC) conditions in 12 PD patients undergoing deep brain stimulation surgery. Spontaneous local field potentials in the STN (STN-LFP) and surface electroencephalogram (EEG) activity were simultaneously obtained on postoperative days 2-3 in the OFF-medication state. Power spectral density (PSD), coherence (COH), and Granger causality measures between STN-LFPs and frontal-occipital cortical areas were analyzed. These metrics revealed significant EO-EC differences, particularly in the low-frequency (LF, 4-12[Formula: see text]Hz) range. Although LF power increased across all regions during EC relative to EO, only STN and frontal EEG showed statistically significant changes. EC elicited increased frontal-STN COH within both the LF and low-beta bands (13-21[Formula: see text]Hz), accompanied by enhanced occipital-STN coupling in the low-beta range. In contrast, the influence of the alpha-band frontal cortex on the STN was more pronounced during EO. These findings confirm that eye states may differentially modulate functional connectivity through widespread cortical and STN-cortical interactions and suggest that, in unmedicated PD, EC and EO dynamically modulate large-scale cortical-STN network activity.
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