Your search keyword '"Isolated effective coherence"' showing total 9 results

1. Brain connectivity for constructing new face representations in typical adults versus a prosopagnosic patient

Author

Olivares, Ela I., Bosch-Bayard, Jorge F., Urraca, Ana S., Jiménez-Bascuñán, Alba, Biscay, Rolando J., and Iglesias, Jaime

Published

2025

2. Comparison of brain functions between healthy participants and methamphetamine users with various addiction histories: Data analysis based on EEG and fNIRS.

Author

Gu, Xuelin, Li, Xiaoou, and Yang, Banghua

Subjects

*ELECTROENCEPHALOGRAPHY, *FISHER discriminant analysis, *METHAMPHETAMINE, *CONVOLUTIONAL neural networks, *LARGE-scale brain networks, *ADDICTIONS, *TRANSCRANIAL direct current stimulation

Abstract

The electroencephalogram (EEG) rhythm and functional near-infrared spectroscopy (fNIRS) activation levels have not been compared between a healthy control group (HCG) and methamphetamine user group (MUG) with different addiction histories. This study used 64-electrode EEG and fNIRS to conduct an experiment that analyzed the resting and craving states. The EEG and fNIRS data of 56 participants were collected, including 14 healthy participants, 14 methamphetamine users with an addiction history of 0.5–5 years, 14 users with an addiction history of 5–10 years, and 14 users with an addiction history of 10–15 years. Isolated effective coherence (iCoh) within the brain network was used to process the EEG data. Statistical analysis was performed to compare differences in iCoh among the delta, theta, alpha, beta, and gamma bands and explore oxyhemoglobin activation levels in the ventrolateral prefrontal cortex, dorsolateral prefrontal cortex, orbitofrontal cortex, and frontopolar prefrontal cortex (FPC) of the control group. Finally, the Kmeans, Gaussian mixed model (GMM), linear discriminant analysis (LDA), support vector machine (SVM), Bayes, and convolutional neural networks (CNN) algorithms were used to classify methamphetamine users based on drug and neutral images. A 3-class accuracy was achieved. Changes in EEG and fNIRS activation levels of HCG and MUG with varied addiction histories were demonstrated. [ABSTRACT FROM AUTHOR]

Published

2024

3. Association between the Rostral Anterior Cingulate Cortex and Anterior Insula in the Salience Network on Response to Antidepressants in Major Depressive Disorder as Revealed by Isolated Effective Coherence.

Author

Minami, Shota, Kato, Masaki, Ikeda, Shunichiro, Yoshimura, Masafumi, Ueda, Satsuki, Koshikawa, Yosuke, Takekita, Yoshiteru, Kinoshita, Toshihiko, and Nishida, Keiichiro

Subjects

*SALIENCE network, *MENTAL depression, *CINGULATE cortex, *INSULAR cortex, *ANTIDEPRESSANTS, *MAGNETIC induction tomography

Abstract

Introduction: Functional connectivity is attracting increasing attention for understanding the pathophysiology of depression and predicting the therapeutic efficacy of antidepressants. In this study, we evaluated effective connectivity using isolated effective coherence (iCoh), an effective functional connectivity analysis method developed from low-resolution brain electromagnetic tomography (LORETA) and estimated its practical usefulness for predicting the reaction to antidepressants in theta and alpha band iCoh values. Methods: We enrolled 25 participants from a depression treatment randomized study (the GUNDAM study) in which electroencephalography was performed before treatment. We conducted iCoh between the rostral anterior cingulate cortex (rACC) and anterior insula (AI), which are associated with the salience network. The patients were divided into responder and nonresponder groups at 4 weeks after the start of treatment, and iCoh values were compared between the two groups. Additionally, the sensitivity and specificity of iCoh were calculated using the receiver-operating characteristic (ROC) curve. Results: The Mann-Whitney U test showed significantly weaker connectivity flow from the rACC to the left AI in the alpha band in the responder group. The ROC curve for the connectivity flow from the rACC to the left AI in the alpha band showed 82% sensitivity and 86% specificity. Discussion/Conclusion: These findings suggest the pathological importance of effective connectivity flow from the rACC to the left AI in the alpha and theta bands and suggest its usefulness as a biomarker to distinguish responders to antidepressants. [ABSTRACT FROM AUTHOR]

Published

2022

4. Resting-state EEG power and coherence vary between migraine phases.

Author

Cao, Zehong, Lin, Chin-Teng, Chuang, Chun-Hsiang, Lai, Kuan-Lin, Yang, Albert, Fuh, Jong-Ling, and Wang, Shuu-Jiun

Subjects

*BRAIN, *CHI-squared test, *FUNCTIONAL assessment, *ELECTROENCEPHALOGRAPHY, *FISHER exact test, *MIGRAINE, *PROBABILITY theory, *PSYCHOLOGICAL tests, *RESEARCH funding, *T-test (Statistics), *CASE-control method, *NEURAL pathways, *DATA analysis software, *DIARY (Literary form), *MANN Whitney U Test, *ONE-way analysis of variance

Abstract

Background: Migraine is characterized by a series of phases (inter-ictal, pre-ictal, ictal, and post-ictal). It is of great interest whether resting-state electroencephalography (EEG) is differentiable between these phases. Methods: We compared resting-state EEG energy intensity and effective connectivity in different migraine phases using EEG power and coherence analyses in patients with migraine without aura as compared with healthy controls (HCs). EEG power and isolated effective coherence of delta (1-3.5 Hz), theta (4-7.5 Hz), alpha (8-12.5 Hz), and beta (13-30 Hz) bands were calculated in the frontal, central, temporal, parietal, and occipital regions. Results: Fifty patients with episodic migraine (1-5 headache days/month) and 20 HCs completed the study. Patients were classified into inter-ictal, pre-ictal, ictal, and post-ictal phases ( n = 22, 12, 8, 8, respectively), using 36-h criteria. Compared to HCs, inter-ictal and ictal patients, but not pre- or post-ictal patients, had lower EEG power and coherence, except for a higher effective connectivity in fronto-occipital network in inter-ictal patients ( p < .05). Compared to data obtained from the inter-ictal group, EEG power and coherence were increased in the pre-ictal group, with the exception of a lower effective connectivity in fronto-occipital network ( p < .05). Inter-ictal and ictal patients had decreased EEG power and coherence relative to HCs, which were 'normalized' in the pre-ictal or post-ictal groups. Conclusion: Resting-state EEG power density and effective connectivity differ between migraine phases and provide an insight into the complex neurophysiology of migraine. [ABSTRACT FROM AUTHOR]

Published

2016

5. Assessing direct paths of intracortical causal information flow of oscillatory activity with the isolated effective coherence (iCoh)

Author

Roberto D Pascual-Marqui, Rolando J Biscay, Jorge eBosch-Bayard, Dietrich eLehmann, Kieko eKochi, Toshihiko eKinoshita, Naoto eYamada, and Norihiro eSadato

Subjects

LORETA, Causal intracortical connectivity, isolated effective coherence, resting state electrophysiological connectivity, alpha oscillation connectivity, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Functional connectivity is of central importance in understanding brain function. For this purpose, multiple time series of electric cortical activity can be used for assessing the properties of a network: the strength, directionality, and spectral characteristics (i.e. which oscillations are preferentially transmitted) of the connections. The partial directed coherence (PDC) of Baccala and Sameshima (2001) is a widely used method for this problem. The three aims of this study are: (1) To show that the PDC can misrepresent the frequency response under plausible realistic conditions, thus defeating the main purpose for which the measure was developed; (2) To provide a solution to this problem, namely the isolated effective coherence (iCoh), which consists of estimating the partial coherence under a multivariate autoregressive model, followed by setting all irrelevant associations to zero, other than the particular directional association of interest; and (3) To show that adequate iCoh estimators can be obtained from non-invasively computed cortical signals based on exact low resolution electromagnetic tomography (eLORETA) applied to scalp EEG recordings. To illustrate the severity of the problem with the PDC, and the solution achieved by the iCoh, three examples are given, based on: (1) Simulated time series with known dynamics; (2) Simulated cortical sources with known dynamics, used for generating EEG recordings, which are then used for estimating (with eLORETA) the source signals for the final connectivity assessment; and (3) EEG recordings in rats. Lastly, real human recordings are analyzed, where the iCoh between six cortical regions of interest are calculated and compared under eyes open and closed conditions, using 61-channel EEG recordings from 109 subjects. During eyes closed, the posterior cingulate sends alpha activity to all other regions. During eyes open, the anterior cingulate sends theta-alpha activity to other frontal regions.

Published

2014

6. Assessing direct paths of intracortical causal information flow of oscillatory activity with the isolated effective coherence (iCoh).

Author

Pascual-Marqui, Roberto D., Biscay, Rolando J., Bosch-Bayard, Jorge, Lehmann, Dietrich, Kieko Kochi, Toshihiko Kinoshita, Naoto Yamada, and Sadato, Norihiro

Subjects

BRAIN function localization, MAGNETIC induction tomography, ELECTROENCEPHALOGRAPHY, ELECTRIC potential, AUTOREGRESSIVE models

Abstract

Functional connectivity is of central importance in understanding brain function. For this purpose, multiple time series of electric cortical activity can be used for assessing the properties of a network: the strength, directionality, and spectral characteristics (i.e., which oscillations are preferentially transmitted) of the connections. The partial directed coherence (PDC) of Baccala and Sameshima (2001) is a widely used method for this problem. The three aims of this study are: (1) To show that the PDC can misrepresent the frequency response under plausible realistic conditions, thus defeating the main purpose for which the measure was developed; (2) To provide a solution to this problem, namely the ''isolated effective coherence'' (iCoh), which consists of estimating the partial coherence under a multivariate autoregressive model, followed by setting all irrelevant associations to zero, other than the particular directional association of interest; and (3) To show that adequate iCoh estimators can be obtained from non-invasively computed cortical signals based on exact low resolution electromagnetic tomography (eLORETA) applied to scalp EEG recordings. To illustrate the severity of the problem with the PDC, and the solution achieved by the iCoh, three examples are given, based on: (1) Simulated time series with known dynamics; (2) Simulated cortical sources with known dynamics, used for generating EEG recordings, which are then used for estimating (with eLORETA) the source signals for the final connectivity assessment; and (3) EEG recordings in rats. Lastly, real human recordings are analyzed, where the iCoh between six cortical regions of interest are calculated and compared under eyes open and closed conditions, using 61-channel EEG recordings from 109 subjects. During eyes closed, the posterior cingulate sends alpha activity to all other regions. During eyes open, the anterior cingulate sends theta-alpha activity to other frontal regions. [ABSTRACT FROM AUTHOR]

Published

2014

7. Resting-State Isolated Effective Connectivity of the Cingulate Cortex as a Neurophysiological Biomarker in Patients with Severe Treatment-Resistant Schizophrenia

Author

Sakiko Tsugawa, Zafiris J. Daskalakis, Fumi Masuda, Yoshihiro Noda, Karin Matsushita, Kamiyu Ogyu, Daniel M. Blumberger, Shiori Honda, Masataka Wada, Masaru Mimura, Takahiro Miyazaki, Yudai Kikuchi, Shinya Fujii, Ryosuke Tarumi, and Shinichiro Nakajima

Subjects

Cingulate cortex, lcsh:Medicine, Medicine (miscellaneous), resting-state electroencephalography, Article, 03 medical and health sciences, default mode network, 0302 clinical medicine, Neuroimaging, Cortex (anatomy), medicine, isolated effective coherence, posterior cingulate cortex, causal effective connectivity, Anterior cingulate cortex, Default mode network, Resting state fMRI, business.industry, lcsh:R, 030227 psychiatry, anterior cingulate cortex, medicine.anatomical_structure, Posterior cingulate, Laterality, business, Neuroscience, 030217 neurology & neurosurgery, treatment-resistant schizophrenia

Abstract

Background: The neural basis of treatment-resistant schizophrenia (TRS) remains unclear. Previous neuroimaging studies suggest that aberrant connectivity between the anterior cingulate cortex (ACC) and default mode network (DMN) may play a key role in the pathophysiology of TRS. Thus, we aimed to examine the connectivity between the ACC and posterior cingulate cortex (PCC), a hub of the DMN, computing isolated effective coherence (iCoh), which represents causal effective connectivity. Methods: Resting-state electroencephalogram with 19 channels was acquired from seventeen patients with TRS and thirty patients with non-TRS (nTRS). The iCoh values between the PCC and ACC were calculated using sLORETA software. We conducted four-way analyses of variance (ANOVAs) for iCoh values with group as a between-subject factor and frequency, directionality, and laterality as within-subject factors and post-hoc independent t-tests. Results: The ANOVA and post-hoc t-tests for the iCoh ratio of directionality from PCC to ACC showed significant findings in delta (t45 = 7.659, p = 0.008) and theta (t45 = 8.066, p = 0.007) bands in the left side (TRS &lt, nTRS). Conclusion: Left delta and theta PCC and ACC iCoh ratio may represent a neurophysiological basis of TRS. Given the preliminary nature of this study, these results warrant further study to confirm the importance of iCoh as a clinical indicator for treatment-resistance.

Published

2020

8. Resting-State Isolated Effective Connectivity of the Cingulate Cortex as a Neurophysiological Biomarker in Patients with Severe Treatment-Resistant Schizophrenia.

Author

Wada, Masataka, Nakajima, Shinichiro, Tarumi, Ryosuke, Masuda, Fumi, Miyazaki, Takahiro, Tsugawa, Sakiko, Ogyu, Kamiyu, Honda, Shiori, Matsushita, Karin, Kikuchi, Yudai, Fujii, Shinya, Blumberger, Daniel M., Daskalakis, Zafiris J., Mimura, Masaru, and Noda, Yoshihiro

Subjects

CINGULATE cortex, BIOMARKERS, SCHIZOPHRENIA, THETA rhythm, ANALYSIS of variance, NETWORK hubs, BRAIN-computer interfaces

Abstract

Background: The neural basis of treatment-resistant schizophrenia (TRS) remains unclear. Previous neuroimaging studies suggest that aberrant connectivity between the anterior cingulate cortex (ACC) and default mode network (DMN) may play a key role in the pathophysiology of TRS. Thus, we aimed to examine the connectivity between the ACC and posterior cingulate cortex (PCC), a hub of the DMN, computing isolated effective coherence (iCoh), which represents causal effective connectivity. Methods: Resting-state electroencephalogram with 19 channels was acquired from seventeen patients with TRS and thirty patients with non-TRS (nTRS). The iCoh values between the PCC and ACC were calculated using sLORETA software. We conducted four-way analyses of variance (ANOVAs) for iCoh values with group as a between-subject factor and frequency, directionality, and laterality as within-subject factors and post-hoc independent t-tests. Results: The ANOVA and post-hoc t-tests for the iCoh ratio of directionality from PCC to ACC showed significant findings in delta (t45 = 7.659, p = 0.008) and theta (t45 = 8.066, p = 0.007) bands in the left side (TRS < nTRS). Conclusion: Left delta and theta PCC and ACC iCoh ratio may represent a neurophysiological basis of TRS. Given the preliminary nature of this study, these results warrant further study to confirm the importance of iCoh as a clinical indicator for treatment-resistance. [ABSTRACT FROM AUTHOR]

Published

2020

9. [Isolated effective coherence analysis of epileptogenic networks in temporal lobe epilepsy using stereo-electroencephalography].

Author

Li Z, Yuan G, Huang P, Wang H, Yao M, and Li C

Subjects

Brain Waves, Humans, Electroencephalography, Epilepsy, Temporal Lobe diagnosis

Abstract

Stereo-electroencephalography (SEEG) is widely used to record the electrical activity of patients' brain in clinical. The SEEG-based epileptogenic network can better describe the origin and the spreading of seizures, which makes it an important measure to localize epileptogenic zone (EZ). SEEG data from six patients with refractory epilepsy are used in this study. Five of them are with temporal lobe epilepsy, and the other is with extratemporal lobe epilepsy. The node outflow (out-degree) and inflow (in-degree) of information are calculated in each node of epileptic network, and the overlay between selected nodes and resected nodes is analyzed. In this study, SEEG data is transformed to bipolar montage, and then the epileptic network is established by using independent effective coherence (iCoh) method. The SEEG segments at onset, middle and termination of seizures in Delta, Theta, Alpha, Beta, and Gamma rhythms are used respectively. Finally, the K-means clustering algorithm is applied on the node values of out-degree and in-degree respectively. The nodes in the cluster with high value are compared with the resected regions. The final results show that the accuracy of selected nodes in resected region in the Delta, Alpha and Beta rhythm are 0.90, 0.88 and 0.89 based on out-degree values in temporal lobe epilepsy patients respectively, while the in-degree values cannot differentiate them. In contrast, the out-degree values are higher outside the temporal lobe in the patient with extratemporal lobe epilepsy. Based on the out-degree feature in low-frequency epileptic network, this study provides a potential quantitative measure for identifying patients with temporal lobe epilepsy in clinical.

Published

2019