%0 Journal Article
%T EEG Resting
%A Hideki Kanemoto
%A Hiroaki Kazui
%A Kenji Yoshiyama
%A Leonides Canuet
%A Manabu Ikeda
%A Masahiro Hata
%A Masao Iwase
%A Roberto D. Pascual-Marqui
%A Ryouhei Ishii
%A Shingo Azuma
%A Shunsuke Sato
%A Takashi Suehiro
%A Takuya Matsumoto
%A Yasunori Aoki
%A Yukiko Suzuki
%J Clinical EEG and Neuroscience
%@ 2169-5202
%D 2019
%R 10.1177/1550059418812156
%X Idiopathic normal pressure hydrocephalus (iNPH) is a neuropsychiatric disease characterized by gait disturbance, cognitive dysfunction, and urinary incontinence that affects a large population of elderly people. These symptoms, especially gait disturbance, can potentially be improved by cerebrospinal fluid (CSF) drainage, which is more effective if performed at an early stage of the disease. However, the neurophysiological mechanisms of these symptoms and their recovery by CSF drainage are poorly understood. In this study, using exact low-resolution brain electromagnetic tomography-independent component analysis (eLORETA-ICA) with electroencephalography (EEG) data, we assessed activities of five EEG resting-state networks (EEG-RSNs) in 58 iNPH patients before and after drainage of CSF by lumbar puncture (CSF tapping). In addition, we assessed correlations of changes in these five EEG-RSNs activities with CSF tapping¨Cinduced changes in iNPH symptoms. The results reveal that compared with 80 healthy controls, iNPH patients had significantly decreased activities in the occipital alpha rhythm, visual perception network, and self-referential network before CSF tapping. Furthermore, CSF tapping¨Cinduced changes in occipital alpha activity correlated with changes in postural sway and frontal lobe function. Changes in visual perception network activity correlated with changes in gait speed. In addition, changes in memory perception network activity correlated with changes in Parkinsonian gait features. These results indicate a recruitment of cognitive networks in gait control, and involvement of the occipital alpha activity in cognitive dysfunction in iNPH patients. Based on these findings, eLORETA-ICA with EEG data can be considered a noninvasive, useful tool for detection of EEG-RSN activities and for understanding the neurophysiological mechanisms underlying this disease
%K idiopathic normal pressure hydrocephalusm
%K gait disturbance
%K eLORETA
%K independent component analysis
%K resting-state network
%K electroencephalography
%U https://journals.sagepub.com/doi/full/10.1177/1550059418812156