Correlation of BOLD Signal with Linear and Nonlinear Patterns of EEG in Resting State EEG-Informed fMRI

Portnova, Galina V.; Tetereva, Alina; Балаев, В.В.; Atanov, Mikhail; Skiteva, Lyudmila I.; Ushakov, Vadim L.; Ivanitsky, Alexey; Martynova, Olga

doi:10.3389/fnhum.2017.00654

Cited by 32 publications

(21 citation statements)

References 68 publications

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“…A total of 10 feature values were calculated for DASM from four electrodes. 3) Correlation (ρ a,b ), where EEG spectral powers are correlated with different regions of the brain that directs attention [14] and was computed as,…”

Section: Feature Extractionmentioning

confidence: 99%

Emotion Classification in Response to Tactile Enhanced Multimedia using Frequency Domain Features of Brain Signals

Raheel

Majid

Anwar

et al. 2019

2019 41st Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC)

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Tactile enhanced multimedia is generated by synchronizing traditional multimedia clips, to generate hot and cold air effect, with an electric heater and a fan. This objective is to give viewers a more realistic and immersing feel of the multimedia content. The response to this enhanced multimedia content (mulsemedia) is evaluated in terms of the appreciation/emotion by using human brain signals. We observe and record electroencephalography (EEG) data using a commercially available four channel MUSE headband. A total of 21 participants voluntarily participated in this study for EEG recordings. We extract frequency domain features from five different bands of each EEG channel. Four emotions namely: happy, relaxed, sad, and angry are classified using a support vector machine in response to the tactile enhanced multimedia. An increased accuracy of 76.19% is achieved when compared to 63.41% by using the time domain features. Our results show that the selected frequency domain features could be better suited for emotion classification in mulsemedia studies.

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Section: Feature Extractionmentioning

confidence: 99%

Emotion Classification in Response to Tactile Enhanced Multimedia using Frequency Domain Features of Brain Signals

Raheel

Majid

Anwar

et al. 2019

2019 41st Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC)

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“…It is important to note that the neural activity we consider here only represents the low-frequency component of the synaptic activity, which the BOLD signal is most sensitive to. This is based on studies showing that the amplitude and power of BOLD are directly related to low-frequency electrical activity as measured by EEG (Lu et al, 2007;He et al, 2008;Portnova et al, 2018). We are currently unable to capture high-frequency neural activity because the processes of neurovascular coupling responsible for the conversion of fast synaptic/spiking responses to slow dynamics remain to be unclear.…”

Section: Approximations and Processes Involved In The Modelmentioning

confidence: 99%

Biophysically based method to deconvolve spatiotemporal neurovascular signals from fMRI data

Pang

Aquino

Robinson

et al. 2018

Journal of Neuroscience Methods

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“…Furthermore, the FD was found to be useful in terms of detecting the level of arousal (47). In our previous study, we also observed a significant positive correlation between the FD of the EEG signal and the fMRI BOLD signal in certain regions, including the limbic system (48). Thus, the FD in the control group could be used as a measure of arousal, since it represents a higher level of emotional reactivity and lability than that seen in the patient group.…”

Section: Discussionmentioning

confidence: 78%

Lack of a Sense of Threat and Higher Emotional Lability in Patients With Chronic Microvascular Ischemia as Measured by Non-linear EEG Parameters

Portnova

2020

Front. Neurol.

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We aimed to investigate the non-linear features of the electroencephalogram (EEG) findings in patients with chronic microvascular ischemia (CMI) in order to determine the brain correlates of emotional impairment that could impact the risk of developing acute ischemia. We compared the EEG responses of patients with CMI and age-matched healthy volunteers to non-verbal emotionally charged sounds. We analyzed the EEG data, the psychological assessment of the stimuli, and the results of neuropsychological and behavioral testing. We assessed the (in)stability of the envelope's amplitude by calculating its average frequency and the ratio of its standard deviation to its mean. The non-linear features were lower in the patient group in the resting state. The emotional stimulation induced a decrease in the frequency of the envelope's amplitude in all subjects. Changes in the fractal dimension during stimulation were only seen in the patient group, and they correlated with symptoms of emotional lability. The lower ratio of the alpha-rhythm envelope's standard deviation to its mean in the right hemisphere correlated with a higher sense of threat. The EEG and behavioral correlates of emotional impairment in patients with CMI were found.

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Correlation of BOLD Signal with Linear and Nonlinear Patterns of EEG in Resting State EEG-Informed fMRI

Cited by 32 publications

References 68 publications

Emotion Classification in Response to Tactile Enhanced Multimedia using Frequency Domain Features of Brain Signals

Emotion Classification in Response to Tactile Enhanced Multimedia using Frequency Domain Features of Brain Signals

Biophysically based method to deconvolve spatiotemporal neurovascular signals from fMRI data

Lack of a Sense of Threat and Higher Emotional Lability in Patients With Chronic Microvascular Ischemia as Measured by Non-linear EEG Parameters

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