Bilateral responses of upper limb muscles to transcranial magnetic stimulation in human subjects

被引:84
作者
Bawa, P [1 ]
Hamm, JD [1 ]
Dhillon, P [1 ]
Gross, PA [1 ]
机构
[1] Simon Fraser Univ, Sch Kinesiol, Burnaby, BC V5A 1S6, Canada
基金
加拿大自然科学与工程研究理事会;
关键词
motor evoked potentials; transcranial magnetic stimulation; bilateral responses; ipsilateral responses; phasic movements;
D O I
10.1007/s00221-004-2031-x
中图分类号
Q189 [神经科学];
学科分类号
071006 ;
摘要
Anatomical and behavioural work on primates has shown bilateral innervation of axial and proximal limb muscles, and contralateral control of distal limb muscles. The following study examined if a clear boundary exists between the distal and proximal upper limb muscles that are controlled contralaterally or bilaterally. The right motor cortical area representing the upper limb was stimulated, while surface EMG was recorded bilaterally from various upper limb muscles during rest and phasic voluntary contractions. Peak-to-peak amplitude of motor evoked potential (MEP) was measured for each muscle on both sides. The ratio R = (ipsilateral MEP: contralateral MEP) was calculated for seven pairs of muscles. For each of the seven pairs, R was less than 1.0, implying that for each muscle and subject, the contralateral control is stronger. The boundary where R changed from almost zero to a clearly measurable magnitude depended on the subject. Ipsilateral MEPs from trapezius and pectoralis could be recorded with a small background contraction from almost all subjects; on the other hand, in deltoid and biceps brachii, ipsilateral MEPs were observed only with bimanual phasic contractions. The forearm and hand muscles, in general, did not show any ipsilateral MEPs. Major differences between subjects lay in the presence or the absence of ipsilateral MEPs in biceps brachii and deltoid, without defining a sharp boundary between proximal and distal muscles.
引用
收藏
页码:385 / 390
页数:6
相关论文
共 29 条
[1]   Ipsilateral motor responses to focal transcranial magnetic stimulation in healthy subjects and acute-stroke patients [J].
Alagona, G ;
Delvaux, V ;
Gérard, P ;
De Pasqua, V ;
Pennisi, G ;
Delwaide, PJ ;
Nicoletti, F ;
de Noordhout, AM .
STROKE, 2001, 32 (06) :1304-1309
[2]   CEREBRAL CONTROL OF CONTRALATERAL AND IPSILATERAL ARM, HAND AND FINGER MOVEMENTS IN SPLIT-BRAIN RHESUS-MONKEY [J].
BRINKMAN, J ;
KUYPERS, HGJ .
BRAIN, 1973, 96 (DEC) :653-674
[3]   EVIDENCE FOR BILATERAL INNERVATION OF CERTAIN HOMOLOGOUS MOTONEURON POOLS IN MAN [J].
CARR, LJ ;
HARRISON, LM ;
STEPHENS, JA .
JOURNAL OF PHYSIOLOGY-LONDON, 1994, 475 (02) :217-227
[4]   Corticomotoneuronal synaptic connections in normal man -: An electrophysiological study [J].
de Noordhout, AM ;
Rapisarda, G ;
Bogacz, D ;
Gérard, P ;
De Pasqua, V ;
Pennisi, G ;
Delwaide, PJ .
BRAIN, 1999, 122 :1327-1340
[5]   Neural interactions between motor cortical hemispheres during bimanual and unimanual arm movements [J].
de Oliveira, SC ;
Gribova, A ;
Donchin, O ;
Bergman, H ;
Vaadia, E .
EUROPEAN JOURNAL OF NEUROSCIENCE, 2001, 14 (11) :1881-1896
[6]   The role of the corpus callosum in the coupling of bimanual isometric force pulses [J].
Diedrichsen, J ;
Hazeltine, E ;
Nurss, WK ;
Ivry, RB .
JOURNAL OF NEUROPHYSIOLOGY, 2003, 90 (04) :2409-2418
[7]   Who tells one hand what the other is doing: The neurophysiology of bimanual movements [J].
Donchin, O ;
de Oliveira, SC ;
Vaadia, E .
NEURON, 1999, 23 (01) :15-18
[8]   INTERHEMISPHERIC INHIBITION OF THE HUMAN MOTOR CORTEX [J].
FERBERT, A ;
PRIORI, A ;
ROTHWELL, JC ;
DAY, BL ;
COLEBATCH, JG ;
MARSDEN, CD .
JOURNAL OF PHYSIOLOGY-LONDON, 1992, 453 :525-546
[9]   CONCERNING THE MECHANISM OF RECOVERY IN STROKE HEMIPLEGIA [J].
FISHER, CM .
CANADIAN JOURNAL OF NEUROLOGICAL SCIENCES, 1992, 19 (01) :57-63
[10]   CONTROL OF PROXIMAL AND DISTAL COMPONENTS OF PREHENSION IN CALLOSAL AGENESIS [J].
JAKOBSON, LS ;
SERVOS, P ;
GOODALE, MA ;
LASSONDE, M .
BRAIN, 1994, 117 :1107-1113