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Analysis of variations in brain states and impact of TES during behavioral task / Sidra Arshad

By: Arshad, Sidra Contributor(s): Supervisor : Dr. Muhammad Nabeel Anwar Material type: Text

TextIslamabad : SMME- NUST; 2024Description: 88p. Soft Copy 30cmSubject(s): MS Biomedical Engineering (BME)DDC classification: 610 Online resources: Click here to access online

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Item type	Current location	Home library	Shelving location	Call number	Status	Date due	Barcode	Item holds
Thesis	School of Mechanical & Manufacturing Engineering (SMME)	School of Mechanical & Manufacturing Engineering (SMME)	E-Books	610 (Browse shelf)	Available		SMME-TH-1028

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This research targeted to investigate the effects of low-gamma High Definition transcranial
alternating current (HD-tACS) at the left DLPFC and primary motor cortex in healthy
individuals performing continuous attention task. We selected an openly accessible dataset from
openneuro.org. Dataset includes within participant implementation of High-Definition tACS
(HD-tACS), stimulating two cephalic regions (frontal & motor) with biphasic stimulation
waveform (30 Hz) with a total 600 stimulation trials in 30 sessions. The physiological data i.e.
EOG, ECG, along with EEG and behavioral data were being recorded over the course of two 70
and 70.5 minutes’ sessions. The demographic data were acquired before and after each session
together with the wellness questionnaires. The participants were given two stimulation doses
separately, with 20 stimulation trials per session. The within-subject results showed significant
differences between the pre- and post-stimulation data (p-value <0.05) in the F30, in each
frequency band. While in M30 session, there was a significant increase in alpha and beta
oscillations (p-value < .05). The gamma oscillations were not altered by low-gamma tACS at
M1, whereas the theta oscillations showed a significant decrease. The phase-locking values
(PLV) of frontal channels decreased in theta, alpha, beta & gamma bands, suggesting a drop in
the attention of participants with the onset of stimulation. Hence, the results indicate, that lowgamma HD-tACS over left DLPFC has the potential to inhibit attention and information
processing. And the low-gamma HD-tACS can improve motor function over the left primary
motor cortex.

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