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Role of intracortical mechanisms in the late part of the silent period to transcranial stimulation of the human motor cortex 总被引:3,自引:0,他引:3
J.P. Brasil-Neto A. Cammarota J. Valls-Solé A. Pascual-Leone M. Hallett L. G. Cohen 《Acta neurologica Scandinavica》1995,92(5):383-386
Transcranial magnetic stimulation (TMS) and transcranial electrical stimulation (TES) of the human motor cortex produce a silent period (SP) following motor evoked potentials (MEPs). The early part of the SP can be explained by decreased alpha motor neuron excitability, whereas the late part is presumably due to suprasegmental mechanisms. In order to determine the level of the suprasegmental contribution to the generation of SPs, we recorded excitatory and inhibitory responses to TMS, TES, and percutaneous electrical brainstem stimulation (PBS) in the voluntarily activated first dorsal interosseous muscle of the hand. Stimulus intensities were set so that PBS and TES induced MEPs with areas equal to or larger than those of MEPs obtained with TMS. This procedure revealed that SPs were 49% and 83% shorter with TES and PBS, respectively, than with TMS. As TMS is more effective than TES or PBS in activating cortical interneurons, these findings support the idea that a significant component of the SP arises from intracortical mechanisms. 相似文献
3.
Physiological analysis of simple rapid movements in patients with cerebellar deficits. 总被引:5,自引:3,他引:2 下载免费PDF全文
M Hallett A Berardelli J Matheson J Rothwell C D Marsden 《Journal of neurology, neurosurgery, and psychiatry》1991,54(2):124-133
Patients with cerebellar deficits made elbow flexion movements as rapidly as possible for three different angular distances. Electromyographic activity of biceps and triceps and the kinematics of the movements were analysed. Results were compared with those of normal subjects making both rapid and slow movements. In the patients, the first agonist burst of the biceps was frequently prolonged regardless of the distance or speed of the movement. The most striking kinematic abnormality was prolonged acceleration time. The pattern of acceleration time exceeding deceleration time was common in patients but uncommon in normal subjects. The best kinematic correlate of the duration of the first agonist burst was acceleration time. Altered production of appropriate acceleration may therefore be an important abnormality in cerebellar dysfunction for attempted rapid voluntary movements. 相似文献
4.
Minimizing blood transfusions during abdominal aortic surgery: recent advances in rapid autotransfusion 总被引:1,自引:0,他引:1
The purpose of this study was to determine what percentage of patients could avoid the transfusion of any homologous bank blood products during elective abdominal aortic surgery with a recently developed semicontinuous, rapid autotransfusion device. Fifty patients (26 with abdominal aortic aneurysms and 24 with aortic occlusive disease) prospectively received intraoperative autologous transfusion (group 1) and were matched for comparison with 50 patients receiving homologous blood without use of any autotransfusion equipment (group 2). For the entire perioperative period, 34 group 1 patients (68%) received only their own autotransfused blood and no other homologous blood components compared with group 2 in which 48 patients (96%) required some bank blood (p less than 0.0001). Rapid autotransfusion reduced usage of homologous red cell transfusion by 75%. The mean postoperative hemoglobin was similar in both groups (group 1, 11.91 gm/dl vs. group 2, 11.90 gm/dl, p = 0.73). Rapid autotransfusion was not associated with significant hemolysis, air embolism, or coagulopathy and did not increase morbidity or death. By eliminating the need for any bank blood components in most patients, rapid autotransfusion minimizes the risk of blood-borne diseases and transfusion reactions. New rapid autotransfusion devices offer a distinct advantage over past equipment and allow significant changes in current transfusion practices during elective abdominal aortic reconstructions. 相似文献
5.
Marc Leonardo Jordan Fieldman Norihiro Sadato Gregory Campbell Vicente Ibaez Leonardo Cohen Marie-Pierre Deiber Peter Jezzard Tim Pons Robert Turner Denis Le Bihan Mark Hallett 《Human brain mapping》1995,3(2):83-92
Although motor performance may be enhanced through mental practice, the neurophysiological substrate of mental stimulation (ideation) of a motor task is not well established. We used blood oxygen level-dependent contrast echo planar imaging at 1.5 T to identify regions of increased neural activity during the performance and ideation of a motor task. Five subjects performed a sequential finger-to-thumb opposition task and also imagined themselves performing the task in the absence of actual muscle movement. In all subjects, the left primary sensorimotor cortex showed more activation with actual movement than with motor ideation, but two subjects had significant activation with motor ideation. The left premotor area showed comparable activation with both actual and imagined performance in three subjects. These findings support the involvement of the primary motor area as well as the premotor area in motor ideation. © 1995 Wiley-Liss, Inc. 相似文献
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P Fuhr L G Cohen N Dang T W Findley S Haghighi J Oro M Hallett 《Electroencephalography and clinical neurophysiology》1992,85(1):53-60
It is now known that amputation results in reorganization of central motor pathways, but the mechanism for the changes is unclear. One possibility is alteration of the excitability of the alpha motoneurons. We studied motor reorganization and excitability of alpha motoneurons to Ia input in 6 subjects with unilateral lower limb amputation. A Cadwell MES-10 stimulator was used to deliver transcranial magnetic stimuli through a circular coil centered on the sagittal axis 4 cm anterior to Cz and through an 8-shaped coil positioned over scalp locations 1 cm apart along the coronal axis. Surface EMG was recorded bilaterally from quadriceps femoris, the first muscle immediately proximal to the site of amputation. Excitability of the spinal alpha motoneuron pool to Ia afferents was assessed by determining the ratio of the maximal H reflex to the maximal M response (H/M ratio) elicited in the quadriceps femoris. Stimuli of equal intensity delivered to optimal scalp positions recruited a larger percentage of the alpha motoneuron pool in muscles ipsilateral to the stump than in those contralateral to the stump (P less than 0.01). Mean onset latencies of motor evoked potentials were shorter in ipsilateral muscles than in contralateral muscles (P less than 0.01). Muscles ipsilateral to the stump showed a trend toward activation from a larger number of scalp positions than those contralateral to the stump (P = 0.06). There was no difference in the quadriceps H/M ratios (7.2% ipsilateral vs. 10.9% contralateral). The absence of changes in the excitability of the alpha motoneuron pool in the presence of motor reorganization targeting muscles proximal to the stump suggests that reorganization occurs proximal to the alpha motoneuron level. 相似文献
8.
A brief mechanical or electrical stimulus to peripheral nerve afferents from the upper and lower limbs elicited a small and inconsistent EMG response of the orbicularis oculi muscles. This response was facilitated when the stimuli were delivered at fixed leading time intervals, of 45–300 ms, with respect to a supraorbital nerve electrical stimulus. Also, the peripheral nerve stimulus modified the conventional blink reflex responses, inducing facilitation of R1 and inhibition of R2. These results suggest a complex processing of sensory inputs from the face and the limbs at the brainstem, where they are probably integrated in a network of interneurons influencing the excitability of facial motoneurons. 相似文献
9.
Relevance of stimulus duration for activation of motor and sensory fibers: implications for the study of H-reflexes and magnetic stimulation. 总被引:5,自引:0,他引:5
M Panizza J Nilsson B J Roth P J Basser M Hallett 《Electroencephalography and clinical neurophysiology》1992,85(1):22-29
Electric stimuli with durations of 0.5-1.0 msec are optimal for studies of H-reflexes. It is more difficult to obtain H-reflexes with shorter duration stimuli or with magnetic stimulation. In order to understand this behavior, we studied the excitation thresholds for motor and sensory fibers in the ulnar, median and tibial nerves using both electric and magnetic stimulation. For short duration electrical stimuli (0.1 msec) the threshold for motor fibers is lower than for sensory fibers. For longer duration electric stimuli (1.0 msec) the threshold for sensory fibers is lower. For magnetic stimulation the threshold for motor fibers is much lower than for sensory fibers. Thus, stimulus duration is a critical parameter for sensory fiber excitation, and current magnetic stimulators are not optimal. 相似文献
10.
R Agostino M Hallett J N Sanes 《Electroencephalography and clinical neurophysiology》1992,85(3):190-196
When a fast voluntary movement is performed from a background condition of sustained antagonist muscle activation, there is often a decrease in antagonist muscle activity before the onset of the first agonist muscle burst (AG1) that continues until the onset of the antagonist muscle burst (ANT). We studied how controlling the peak velocity, movement size, and the magnitude of antagonist muscle loading affected antagonist muscle inhibition (AntI). AntI was more pronounced during movements with lower velocity and greater size, and when performed in the direction of heavier background loads, but its variation could not be related to any single kinematic or kinetic variable in all circumstances. When AntI was larger, ANT was smaller, suggesting that AntI does not play a role similar to the premotor silence of the agonist seen before AG1 when the movement is made from a background of sustained agonist contraction. When AntI was larger, the size of AG1 was also smaller, showing that, according to the motor task, different levels of reciprocal inhibition and coactivation occur at the onset of the movement. Both AG1 and AntI produce force in the direction of the desired movement, and the central nervous system selects an appropriate balance between the two, using AntI when possible. 相似文献