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A novel method for recording neuronal depolarization with recording at 125-825 Hz: implications for imaging fast neural activity in the brain with electrical impedance tomography
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Ion mobility imaging and contrast mechanism of apparent conductivity in MREIT
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PHYSICS IN MEDICINE AND BIOLOGY, 201104
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An electrode addressing protocol for imaging brain function with electrical impedance tomography using a 16-channel semi-parallel system
Fabrizi, L, McEwan, A, Oh, T, Woo, EJ, Holder, DS
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A comparison of two EIT systems suitable for imaging impedance changes in epilepsy
Fabrizi, L, McEwan, A, Oh, T, Woo, EJ, Holder, DS
PHYSIOLOGICAL MEASUREMENT, 200906
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A method for recording resistance changes non-invasively during neuronal depolarization with a view to imaging brain activity with electrical impedance tomography
Gilad O (Gilad, Ori), Ghosh A (Ghosh, Anthony), Oh DI (Oh, Dongin), Holder DS (Holder, David S.)
JOURNAL OF NEUROSCIENCE METHODS, 200905
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In vivo electrical conductivity imaging of a canine brain using a 3 T MREIT system
Kim, HJ, Oh, TI, Kim, YT, Il Lee, B, Woo, EJ, Seo, JK, Lee, SY, Kwon, O, Park, C, Kang, BT, Park, HM
PHYSIOLOGICAL MEASUREMENT, 200810
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Validation of a multi-frequency electrical impedance tomography (mfEIT) system KHU Mark1: impedance spectroscopy and time-difference imaging
Oh TI (Oh, Tong In), Koo H (Koo, Hwan), Lee KH (Lee, Kyung Heon), Kim SM (Kim, Sang Min), Lee J (Lee, Jeehyun), Kim SW (Kim, Sung Wan), Seo JK (Seo, Jin Keun), Woo EJ (Woo, Eung Je)
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Calibration methods for a multi-channel multi-frequency EIT system
Oh, TI, Lee, KH, Kim, SM, Koo, H, Woo, EJ, Holder, D
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Multi-frequency EIT system with radially symmetric architecture: KHU Mark1