(1) Increased global efficiency and local efficiency in PD. (2) Increased nodal local efficiency in the right inferior frontal gyrus (orbital part) and precentral gyrus, left insula and post cingulated cortex, and cerebellum in PD. (3) Decreased local nodal efficiency in the right Heschl’s gyrus and precuneus gyrus, and bilateral medial superior frontal gyrus in PD. (4) Increased global nodal efficiency in the right inferior occipital cortex, inferior frontal gyrus (orbital part), precentral gyrus, and Heschl’s gyrus in PD.
(1) Reduced connectivity strength between cortical and subcortical regions in PD-MCI compared to HC. (2) Larger characteristic path length and reduced global efficiency and lower regional efficiency in frontal and parietal regions in the PD-MCI group compared with other two groups. (3) A reorganization of the highly connected regions in both PD-MCI and PD-HC.
(1) Lower connectivity strength and clustering coefficients and higher path length in PD-M compared with PD-F. (2) Lower nodal betweenness in left caudal middle frontal, left rostral middle frontal, and right parahippocampal regions in PD-M compared with PD-F. (3) Hubs were right fusiform and right isthmus cingulate region and left inferior temporal and left rostral anterior cingulate in PD-M. (4) Hubs were right parahippocampal, right superior temporal, and left rostral middle frontal regions in PD-F.
(1) Lower connectivity strength in the feeder and local connections in PD. (2) Decreased connections in the two modules: the limbic/paralimbic/subcortical module and the cognitive control/attention module in PD. (3) Increased shortest path length and decreased global efficiency in PD.
(1) Decreased network strength, global efficiency, and global clustering coefficient in PD. (2) 14 same hub regions and 4 different hub regions between PD and HC.
