Sahar Seifzadeh scite author profile

Sahar Seifzadeh

4Publications

27Citation Statements Received

0Citation Statements Given

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Affiliations

Islamic Azad University, Science and Research Branch, Qazvin Islamic Azad University, University of Tabriz

Publications

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Cortical Activation Changes Associated with Autonomous Sensory Meridian Response (ASMR): Initial Case Report

Seifzadeh¹,

Moghimi²,

Torkamani³

et al. 2021

fbt

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The Autonomous Sensory Meridian Response (ASMR) is a unique phenomenon to provoke a sense of relaxation that has been proposed for a few years. This phenomenon suggests acoustic-visual stimuli for cultivating a peaceful environment for the mind as well as a tingling sensation. Some studies suggest that this phenomenon is comparable with mindfulness; surprisingly, published articles in this regard are growing increasingly to examine how it happens scientifically. Some studies have been done on neuroimaging techniques, including functional Magnetic Resonance Imaging (fMRI), biological methods such as heart rate and skin conductance, and questionnaires to assess the impact of ASMR videos. In this paper, we intend to determine the effect of ASMR videos on EEG signals. The FFT absolute power analysis (Pre versus Post ASMR) revealed a declined delta band power generally. On the other hand, there are no significant changes in theta band power. The central region demonstrated a rise in alpha band power as well as a slight decrease in the occipital region. Moreover, such an increase was evident in post-ASMR in the beta1 (Sensorimotor wave (12-15 Hz)) band frequency, generally, especially in the frontal region. Besides, Gamma 1 has been increased in the central region, and Gamma 2 has also be increased in frontoparietal regions in both hemispheres. These results indicate the cognitive process as well as sensorimotor, tingling sensations features of ASMR.

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Fast and Efficient Four‑class Motor Imagery Electroencephalography Signal Analysis Using Common Spatial Pattern– Ridge Regression Algorithm for the Purpose of Brain– Computer Interface

et al. 2017

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A cortex-like model for animal recognition based on texture using feature-selective hashing

Seifzadeh

Faez

2014

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QEEG-based neural correlates of decision making in a well-trained eight year-old chess player

Alipour

Seifzadeh

Aligholi

et al. 2017

JIN

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The neurocognitive substrates of decision making (DM) in the context of chess has appealed to researchers' interest for decades. Expert and beginner chess players are hypothesized to employ different brain functional networks when involved in episodes of critical DM upon chess. Cognitive capacities including, but not restricted to pattern recognition, visuospatial search, reasoning, planning and DM are perhaps the key determinants of rewarding and judgmental decisions in chess. Meanwhile, the precise neural correlates of DM in this context has largely remained elusive. The quantitative electroencephalography (QEEG) is an investigation tool possessing a proper temporal resolution in the study of neural correlates of cognitive tasks at cortical level. Here, we used a 22-channel EEG setup and digital polygraphy in a well-trained 8 year-old boy while engaged in playing chess against the computer. Quantitative analyses were done to map and source-localize the EEG signals. Our analyses indicated a lower power spectral density (PSD) for higher frequency bands in the right hemisphere upon DM-related epochs. Moreover, the information flow upon DM blocks in this particular case was more of posterior towards anterior brain regions.

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Sahar Seifzadeh

Cortical Activation Changes Associated with Autonomous Sensory Meridian Response (ASMR): Initial Case Report

Fast and Efficient Four‑class Motor Imagery Electroencephalography Signal Analysis Using Common Spatial Pattern– Ridge Regression Algorithm for the Purpose of Brain– Computer Interface

A cortex-like model for animal recognition based on texture using feature-selective hashing

QEEG-based neural correlates of decision making in a well-trained eight year-old chess player

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