Article (Scientific journals)
La stimulation percutanée électrique et magnetique du cortex moteur chez l'homme. Aspects physiologiques et applications cliniques.
MAERTENS DE NOORDHOUT, Alain; Rothwell, J. C.; Day, B. L. et al.
1989In Revue Neurologique, 145 (1), p. 1-15
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Keywords :
Central Nervous System Diseases/physiopathology; Electric Stimulation; Electromyography; Humans; Magnetics; Motor Cortex/physiology/physiopathology; Muscle Contraction; Neural Conduction
Abstract :
[en] The new techniques of percutaneous electric and magnetic stimulation of the motor cortex in conscious man provide a unique opportunity of functional testing of the central motor pathways. These techniques seem to be safe and no immediate or delayed adverse reactions have been reported. The physiological studies so far performed suggest that the structures which are preferentially excited by these methods are the fast conducting pyramidal neurones. It has been shown that a single cortical stimulus is able to activate spinal motoneurones repeatedly. This phenomenon can easily be explained if the cortical stimulus generates multiple descending volleys in the central motor pathways. By comparison with experiments of stimulation of the exposed motor cortex in animals, it is likely that electric brain stimulation directly activates the axons of the pyramidal neurons at their origin and to a lesser extent also recruits these neurons transsynaptically, via some cortical interneurones. Magnetic stimulation of the brain at the vertex seems to act mostly by the latter mechanism. These different modes of action of the two methods of cortical stimulation explain the latency differences of the EMG responses obtained with either technique. Increased excitability of the spinal motoneurones and the existence of multiple descending volleys in response to a single cortical stimulus result in shortening of the latencies and greater amplitude of the responses recorded during voluntary contraction of the target muscle. Stimulation of the motor cortex has been used in pilot studies conducted on patients suffering from various disorders of the central motor pathways, such as multiple sclerosis, cervical spondylosis, motor neurone disease or stroke. The sensitivity of the technique looks promising. In M.S., the EMG responses usually show an increased central conduction latency, a reduced amplitude and a prolonged duration. The severity of the electrophysiological abnormalities is not very well correlated with clinical weakness, but the correlations seems to be better with hyperreflexia and the presence of brisk finger flexor jerks. The same abnormalities are observed in cervical spondylosis, although to a lesser extent. In motor neurone disease, the responses have a moderately increased latency and their size and duration are markedly reduced. Patients with acute hemispheric stroke usually show absent responses on the contralateral side. Finally, electric cortical stimulation can be very useful in monitoring the functional integrity of descending motor tracts during surgical operations performed on the spinal cord.
Disciplines :
Neurology
Author, co-author :
MAERTENS DE NOORDHOUT, Alain  ;  Centre Hospitalier Universitaire de Liège - CHU > Neurologie CHR
Rothwell, J. C.
Day, B. L.
Thompson, P. D.
Delwaide, Paul ;  Université de Liège - ULiège > Services généraux (Faculté de médecine) > Relations académiques et scientifiques (Médecine)
Marsden, C. D.
Language :
French
Title :
La stimulation percutanée électrique et magnetique du cortex moteur chez l'homme. Aspects physiologiques et applications cliniques.
Alternative titles :
[en] Percutaneous electric and magnetic stimulation of the motor cortex in man. Physiological aspects and clinical applications
Publication date :
1989
Journal title :
Revue Neurologique
ISSN :
0035-3787
eISSN :
2213-0004
Publisher :
Masson, Paris, France
Volume :
145
Issue :
1
Pages :
1-15
Peer reviewed :
Peer Reviewed verified by ORBi
Available on ORBi :
since 28 December 2011

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