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Cited 14 time in webofscience Cited 15 time in scopus
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Hemodynamic responses in rat brain during transcranial direct current stimulation: a functional near-infrared spectroscopy study

Authors
Han, Chang-HeeSong, HyunaKang, Yong-GukKim, Beop-MinIm, Chang-Hwan
Issue Date
Jun-2014
Publisher
The Optical Society
Citation
Biomedical Optics Express, v.5, no.6, pp 1812 - 1821
Pages
10
Indexed
SCIE
SCOPUS
Journal Title
Biomedical Optics Express
Volume
5
Number
6
Start Page
1812
End Page
1821
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/25868
DOI
10.1364/BOE.5.001812
ISSN
2156-7085
Abstract
In the present study, we monitored hemodynamic responses in rat brains during transcranial direct current stimulation (tDCS) using functional near-infrared spectroscopy (fNIRS). Seven rats received transcranial anodal stimulation with 200 mu A direct current (DC) on their right barrel cortex for 10 min. The concentration changes of oxygenated hemoglobin (oxy-Hb) were continuously monitored during stimulation (10 min) and after stimulation (20 min). The trend of hemodynamic response changes was modeled using linear regression, and the relationship between incremental and decremental rates of oxy-Hb was investigated by correlation analysis. Our results showed that the oxy-Hb concentration was almost linearly increased and decreased during and after stimulation, respectively. In addition, a significant negative correlation (p < 0.05) was found between the rate of increase of oxy-Hb during stimulation and the rate of decrease of oxy-Hb after stimulation, indicating that the recovery time after tDCS may not depend on the total amount of hemodynamic changes in the stimulated brain area. Our results also demonstrated considerable individual variability in the rate of change of hemodynamic responses even with the same direct current dose to identical brain regions. This suggests that individual differences in tDCS after-effects may originate from intrinsic differences in the speed of DC stimulation "uptake" rather than differences in the total capacity of DC uptake, and thus the stimulation parameters may need to be customized for each individual in order to maximize tDCS after-effects. (C) 2014 Optical Society of America
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