TY - JOUR
T1 - Effects of single-pulse transcranial magnetic stimulation (TMS) on functional brain activity
T2 - A combined event-related TMS and evoked potential study
AU - Thut, G.
AU - Northoff, G.
AU - Ives, J. R.
AU - Kamitani, Y.
AU - Pfennig, A.
AU - Kampmann, F.
AU - Schomer, D. L.
AU - Pascual-Leone, A.
N1 - Funding Information:
The work was supported by a grant of the Swiss National Science Foundation (no. 823A-061230) to G.T. and in part by grants from the National Institutes of Health (EY12091 and MH60734) to A.P.L. and the German Research Foundation (Heisenberg Grant, no 304/4-1) to G.N. We wish to thank Denis Brunet and Christoph Michel for providing the software used for VEP map analysis. This work was possible thanks to the support and assistance of the Harvard-Thorndike General Clinical Research Center (NCRR MO1 RR01032). J.R.I. and A.P.-L. hold a patent right on the EEG system applied in this study.
PY - 2003/11
Y1 - 2003/11
N2 - Objective: To further evaluate the potential of slew-rate limiting amplifiers to record electrophysiological signals in spite of concurrent transcranial magnetic stimulation (TMS), and to explore the effects of single-pulse TMS on electroencephalographic (EEG) correlates of functional brain activity. Methods: Visual-evoked potentials (VEPs) to checkerboards were recorded in 7 right-handed subjects, while single-pulse TMS was applied to the occipital pole either at visual stimulus onset, during the build-up or at the expected peak of the early VEP component P1 (VIS&TMS). Timing of TMS was individually adjusted based on each subject's VEP-latency. A condition of TMS without concurrent visual stimulation (TMSalone) served for subtraction purposes (VIS&TMS minus TMSalone) to partial out TMS-related contaminations of the EEG signal. Results: When TMS was applied at visual stimulus onset, VEPs (as calculated by subtraction) perfectly matched control VEPs to visual stimulation alone. TMS at around P1, in contrast, modified the targeted (P1) and the subsequent VEP component (N1), independently of whether TMS was given at build-up or peak. Conclusions: The retrieval of regular VEPs with concomitant TMS at visual stimulus onset suggests that the employed EEG system and subtraction procedure are suited for combined EEG-TMS studies. The VEP changes following TMS at around P1 provide direct clues on the temporal dynamics of TMS pulse effects on functional activity in the human brain. Our data suggest effects of relatively long duration (∼100 ms) when TMS is applied while functional neuronal activity evolves.
AB - Objective: To further evaluate the potential of slew-rate limiting amplifiers to record electrophysiological signals in spite of concurrent transcranial magnetic stimulation (TMS), and to explore the effects of single-pulse TMS on electroencephalographic (EEG) correlates of functional brain activity. Methods: Visual-evoked potentials (VEPs) to checkerboards were recorded in 7 right-handed subjects, while single-pulse TMS was applied to the occipital pole either at visual stimulus onset, during the build-up or at the expected peak of the early VEP component P1 (VIS&TMS). Timing of TMS was individually adjusted based on each subject's VEP-latency. A condition of TMS without concurrent visual stimulation (TMSalone) served for subtraction purposes (VIS&TMS minus TMSalone) to partial out TMS-related contaminations of the EEG signal. Results: When TMS was applied at visual stimulus onset, VEPs (as calculated by subtraction) perfectly matched control VEPs to visual stimulation alone. TMS at around P1, in contrast, modified the targeted (P1) and the subsequent VEP component (N1), independently of whether TMS was given at build-up or peak. Conclusions: The retrieval of regular VEPs with concomitant TMS at visual stimulus onset suggests that the employed EEG system and subtraction procedure are suited for combined EEG-TMS studies. The VEP changes following TMS at around P1 provide direct clues on the temporal dynamics of TMS pulse effects on functional activity in the human brain. Our data suggest effects of relatively long duration (∼100 ms) when TMS is applied while functional neuronal activity evolves.
KW - EEG-guided TMS
KW - Electroencephalography
KW - Occipital cortex
KW - Single-pulse
KW - Transcranial magnetic stimulation
KW - Visual-evoked potential
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U2 - 10.1016/S1388-2457(03)00205-0
DO - 10.1016/S1388-2457(03)00205-0
M3 - Article
C2 - 14580605
AN - SCOPUS:0142249254
SN - 1388-2457
VL - 114
SP - 2071
EP - 2080
JO - Clinical Neurophysiology
JF - Clinical Neurophysiology
IS - 11
ER -