Increased power spectral density in resting-state pain-related brain networks in fibromyalgia

An ongoing interest towards identification based on biosignals, such as electroencephalogram (EEG), magnetic resonance imaging (MRI), is growing in the past decades. Previous studies indicated that the inherent information about brain activity may be used to identify individual during resting-state of eyes open (REO) and eyes closed (REC). Electroencephalographic (EEG) records the data from the scalp, and it is believed that the noisy EEG signals can influence the accuracies of one experiment causing unreliable results. Therefore, the stability and time-robustness of inter-individual features can be investigated for the purpose of individual identification. In this work, we conducted three experiments with the time interval of at least 2 weeks, and used different types of measures (Power Spectral Density, Cross Spectrum, Channel Coherence and Phase Lags) to extract the individual features. The Pearson Correlation Coefficient (PCC) is calculated to measure the level of linear correlation for intra-individual, and Support Vector Machine (SVM) is used to obtain the related classification accuracy. Results show that the classification accuracies of four features were 85–100% for intra-experiment dataset, and were 80–100% for fusion experiments dataset. For inter-experiments classification of REO features, the optimized frequency range is 13–40 Hz for three features, Power Spectral Density, Channel Coherence and Cross Spectrum. For inter-experiments classification of REC, the optimized frequency range is 8–40 Hz for three features, Power Spectral Density, Channel Coherence and Cross Spectrum. The classification results of Phase Lags are much lower than the other three features. These results show the time-robustness of EEG, which can further use for individual identification system.

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How does upper extremity Fugl-Meyer motor score relate to resting-state EEG in chronic stroke? A power spectral density analysis

Clinical Neurophysiology ◽

10.1016/j.clinph.2019.01.007 ◽

2019 ◽

Vol 130 (5) ◽

pp. 856-862 ◽

Cited By ~ 5

Author(s):

M. Saes ◽

C.G.M. Meskers ◽

A. Daffertshofer ◽

J.C. de Munck ◽

G. Kwakkel ◽

...

Keyword(s):

Spectral Density ◽

Upper Extremity ◽

Power Spectral Density ◽

Resting State ◽

Chronic Stroke ◽

Motor Score ◽

Power Spectral ◽

Density Analysis ◽

Power Spectral Density Analysis

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Altered power spectral density in the resting-state sensorimotor network in patients with myotonic dystrophy type 1

Scientific Reports ◽

10.1038/s41598-018-19217-0 ◽

2018 ◽

Vol 8 (1) ◽

Cited By ~ 7

Author(s):

Jin-Sung Park ◽

Jeehye Seo ◽

Hyunsil Cha ◽

Hui-Jin Song ◽

Sang-Hoon Lee ◽

...

Keyword(s):

Spectral Density ◽

Myotonic Dystrophy ◽

Power Spectral Density ◽

Resting State ◽

Myotonic Dystrophy Type 1 ◽

Myotonic Dystrophy Type ◽

Sensorimotor Network ◽

Power Spectral

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Power Spectral Density and Functional Connectivity Changes due to a Sensorimotor Neurofeedback Training: A Preliminary Study

Neural Plasticity ◽

10.1155/2019/7647204 ◽

2019 ◽

Vol 2019 ◽

pp. 1-12 ◽

Cited By ~ 3

Author(s):

Juan L. Terrasa ◽

Guzmán Alba ◽

Ignacio Cifre ◽

Beatriz Rey ◽

Pedro Montoya ◽

...

Keyword(s):

Functional Connectivity ◽

Spectral Density ◽

Power Spectral Density ◽

Resting State ◽

Performance Enhancement ◽

Neurofeedback Training ◽

Functional Changes ◽

Power Spectral ◽

Before And After ◽

Exploratory Procedure

Neurofeedback is a form of neuromodulation based on learning to modify some aspects of cortical activity. Sensorimotor rhythm (SMR) oscillation is one of the most used frequency bands in neurofeedback. Several studies have shown that subjects can learn to modulate SMR power to control output devices, but little is known about possible related changes in brain networks. The aim of this study was to investigate the enhanced performance and changes in EEG power spectral density at somatosensory cerebral areas due to a bidirectional modulation-based SMR neurofeedback training. Furthermore, we also analyzed the functional changes in somatosensory areas during resting state induced by the training as exploratory procedure. A six-session neurofeedback protocol based on learning to synchronize and desynchronize (modulate) the SMR was implemented. Moreover, half of the participants were enrolled in two functional magnetic resonance imaging resting-state sessions (before and after the training). At the end of the training, participants showed a successful performance enhancement, an increase in SMR power specific to somatosensory locations, and higher functional connectivity between areas associated with somatosensory activity in resting state. Our research increases the better understanding of the relation between EEG neuromodulation and functional changes and the use of SMR training in clinical practice.

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The Characteristics of Power Spectral Density in Bipolar Disorder at the Resting State

Clinical EEG and Neuroscience ◽

10.1177/15500594211050487 ◽

2021 ◽

pp. 155005942110504

Author(s):

Masakazu Sunaga ◽

Yuichi Takei ◽

Yutaka Kato ◽

Minami Tagawa ◽

Tomohiro Suto ◽

...

Keyword(s):

Bipolar Disorder ◽

Spectral Density ◽

Power Spectral Density ◽

Frequency Band ◽

Resting State ◽

Anterior Cingulate ◽

Alpha Band ◽

Default Mode ◽

Power Spectral ◽

High Beta

Bipolar disorder (BD) is a common psychiatric disorder, but its pathophysiology is not fully elucidated. The current study focused on its electrophysiological characteristics, especially power spectral density (PSD). Resting state with eyes opened magnetoencephalography data were collected from 21 patients with BD and 22 healthy controls. The whole brain's PSD was calculated from source reconstructed waveforms at each frequency band (delta: 1-3 Hz, theta: 4-7 Hz, alpha: 8-12 Hz, low beta: 13-19 Hz, high beta: 20-29 Hz, and gamma: 30-80 Hz). We compared PSD values on the marked vertices at each frequency band between healthy and patient groups using a Mann-Whitney rank test to examine the relationship between significantly different PSD and clinical measures. The PSD in patients with BD was significantly decreased in lower frequency bands, mainly in the default mode network (DMN) areas (bilateral medial prefrontal cortex, bilateral precuneus, left inferior parietal lobe, and right temporal cortex in the alpha band) and salience network areas (SAL; left anterior insula [AI] at the delta band, anterior cingulate cortex at the theta band, and right AI at the alpha band). No significant differences in PSD were observed at low beta and high beta. PSD was not correlated with age or other clinical scales. Altered PSDs of the DMN and SAL were observed in the delta, theta, and alpha bands. These alterations contribute to the vulnerability of BD through the disturbance of self-referential mental activity and switching between the default mode and frontoparietal networks.

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EEG power spectral density in locked-in and completely locked-in state patients: a longitudinal study

Cognitive Neurodynamics ◽

10.1007/s11571-020-09639-w ◽

2020 ◽

Author(s):

Arianna Secco ◽

Alessandro Tonin ◽

Aygul Rana ◽

Andres Jaramillo-Gonzalez ◽

Majid Khalili-Ardali ◽

...

Keyword(s):

Spectral Density ◽

Power Spectral Density ◽

Resting State ◽

Relevant Information ◽

Eeg Spectrum ◽

Power Spectral ◽

Significant Difference ◽

Communication Ability ◽

The Brain ◽

Lateral Sclerosis

Abstract Persons with their eye closed and without any means of communication is said to be in a completely locked-in state (CLIS) while when they could still open their eyes actively or passively and have some means of communication are said to be in locked-in state (LIS). Two patients in CLIS without any means of communication, and one patient in the transition from LIS to CLIS with means of communication, who have Amyotrophic Lateral Sclerosis were followed at a regular interval for more than 1 year. During each visit, resting-state EEG was recorded before the brain–computer interface (BCI) based communication sessions. The resting-state EEG of the patients was analyzed to elucidate the evolution of their EEG spectrum over time with the disease’s progression to provide future BCI-research with the relevant information to classify changes in EEG evolution. Comparison of power spectral density (PSD) of these patients revealed a significant difference in the PSD’s of patients in CLIS without any means of communication and the patient in the transition from LIS to CLIS with means of communication. The EEG of patients without any means of communication is devoid of alpha, beta, and higher frequencies than the patient in transition who still had means of communication. The results show that the change in the EEG frequency spectrum may serve as an indicator of the communication ability of such patients.

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