Comparison of Influences on P300 Latency in the Case of Stimulating Supramarginal Gyrus and Dorsolateral Prefrontal Cortex by rTMS

被引:0
作者
Torii, T. [1 ]
Nojima, K. [2 ]
Matsunaga, A. [2 ]
Iwahashi, M. [1 ]
Iramina, K. [2 ]
机构
[1] Tohwa Univ, Dept Med Elect Engn, Minami Ku, 1-1-1 Chikushigaoka, Fukuoka, Japan
[2] Kyushu Univ, Grad Sch Syst Life Sci, Fukuoka 812, Japan
来源
5TH KUALA LUMPUR INTERNATIONAL CONFERENCE ON BIOMEDICAL ENGINEERING 2011 (BIOMED 2011) | 2011年 / 35卷
关键词
rTMS; supramarginal gyrus; dorsolateral prefrontal cortex; ERP; P300; TRANSCRANIAL MAGNETIC STIMULATION; EEG RESPONSES; CONNECTIVITY; INTENSITY;
D O I
暂无
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
The purpose of this study is to investigate influence of P300 latency in the case of stimulating SMG (Supramarginal Gyrus) and DLPFC (Dorsolateral Prefrontal Cortex). P300 of ERP (Event-Related Potentials) is induced by applying Odd-Ball task that is composed by the two sounds with different frequency. The Odd-Ball task was executed before and after magnetic stimulation by rTMS (100 stimuli with 1Hz). We compared the P300 latency before and after the rTMS magnetic stimulation. In the case of stimulating left and right SMG, P300 appeared earlier than in the case of no stimulating left and right SMG. In the case of stimulating left and right DLPFC, P300 appeared later than in the case of no stimulating left and right DLPFC.
引用
收藏
页码:492 / +
页数:2
相关论文
共 21 条
[1]  
BARKER AT, 1985, J GERONTOL B-PSYCHOL, V1, P1106
[2]   Echoplanar BOLD fMRI of brain activation induced by concurrent transcranial magnetic stimulation [J].
Bohning, DE ;
Shastri, A ;
Nahas, Z ;
Lorberbaum, JP ;
Andersen, SW ;
Dannels, WR ;
Haxthausen, EU ;
Vincent, DJ ;
George, MS .
INVESTIGATIVE RADIOLOGY, 1998, 33 (06) :336-340
[3]   Imaging human intra-cerebral connectivity by PET during TMS [J].
Fox, P ;
Ingham, R ;
George, MS ;
Mayberg, H ;
Ingham, J ;
Roby, J ;
Martin, C ;
Jerabek, P .
NEUROREPORT, 1997, 8 (12) :2787-2791
[4]   Neuronal responses to magnetic stimulation reveal cortical reactivity and connectivity [J].
Ilmoniemi, RJ ;
Virtanen, J ;
Ruohonen, J ;
Karhu, J ;
Aronen, HJ ;
Naatanen, R ;
Katila, T .
NEUROREPORT, 1997, 8 (16) :3537-3540
[5]   Measurement of evoked electroencephalography induced by transcranial magnetic stimulation [J].
Iramina, K ;
Maeno, T ;
Nonaka, Y ;
Ueno, S .
JOURNAL OF APPLIED PHYSICS, 2003, 93 (10) :6718-6720
[6]   Effects of transcranial magnetic stimulation on EEG activity [J].
Iramina, K ;
Maeno, T ;
Kowatari, Y ;
Ueno, S .
IEEE TRANSACTIONS ON MAGNETICS, 2002, 38 (05) :3347-3349
[7]   Differences in Evoked EEG by Transcranial Magnetic Stimulation at Various Stimulus Points on the Head [J].
Iwahashi, M. ;
Arimatsu, T. ;
Ueno, S. ;
Iramina, K. .
2008 30TH ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY, VOLS 1-8, 2008, :2570-+
[8]   Prefrontal transcranial magnetic stimulation produces intensity-dependent EEG responses in humans [J].
Kähkönen, S ;
Komssi, S ;
Wilenius, J ;
Ilmoniemi, RJ .
NEUROIMAGE, 2005, 24 (04) :955-960
[9]   The effect of stimulus intensity on brain responses evoked by transcranial magnetic stimulation [J].
Komssi, S ;
Kähkönen, S ;
Ilmoniemi, RJ .
HUMAN BRAIN MAPPING, 2004, 21 (03) :154-164
[10]   Ipsi- and contralateral EEG reactions to transcranial magnetic stimulation [J].
Komssi, S ;
Aronen, HJ ;
Huttunen, J ;
Kesäniemi, M ;
Soinne, L ;
Nikouline, VV ;
Ollikainen, M ;
Roine, RO ;
Karhu, J ;
Savolainen, S ;
Ilmoniemi, RJ .
CLINICAL NEUROPHYSIOLOGY, 2002, 113 (02) :175-184
123