Motor cortex excitability in restless legs syndrome

BACKGROUND AND PURPOSE: A review of the literature shows that the transcranial magnetic stimulation (TMS) is a useful neurophysiological tool to investigate the pathophysiology of the restless legs syndrome (RLS). In this study we used TMS to define motor cortical excitability in RLS subjects. PATIENTS AND METHODS: Six RLS patients and two healthy control subjects underwent TMS (single and paired) examination using two protocols: (1) the evaluation of motor cortical excitability changes occurring at various times after a repetitive finger movement task; (2) the evaluation of the time course of intracortical motor activity tested with pairs of magnetic stimuli applied at inter-stimulus intervals of 1-6 ms. RESULTS: Subjects affected by RLS do not show the normal fluctuations of motor cortical excitability usually found after a bimanual finger movement task. The intracortical inhibition was reduced in RLS subjects. CONCLUSIONS: These results compared with the other studies suggest a modification in the central circuits and suppose a reduction or alteration in the cortical plasticity.     

Motor cortex excitability after thalamic infarction.

Transcranial magnetic stimulation was used to map hand muscle representations in the motor cortex of a patient in whom infarction of the sensory thalamus deprived the sensorimotor cortex of sensory input. The threshold for activation of the motor cortex on the affected side was higher and the cortical representational maps of individual muscles were less well defined than those on the normal side. It is concluded that electrophysiological changes in cortical organisation can be demonstrated following withdrawal of, or imbalance in sensory afferent activity to the cerebral cortex in humans.     

Motor cortex excitability after thalamic infarction.

OBJECTIVE: We examined 8 patients with hemihypesthesia due to an ischemic thalamic lesion to explore the effects of a central sensory dysfunction on motor cortex excitability. METHODS: Motor excitability was assessed using transcranial magnetic stimulation techniques and electrical peripheral nerve stimulation. Motor function was evaluated by the Nine-Hole-Peg Test and measurement of hand grip strength. The affected side was compared with the non-lesioned side and with an age-matched control group. RESULTS: Patients had a loss of inhibition and an increase of facilitation in the motor cortex of the affected side. The silent period was prolonged and motor function was impaired on the affected side. CONCLUSIONS: A thalamic lesion can modulate motor cortical excitability. SIGNIFICANCE: This study suggests that, under normal conditions, somatosensory afferents influence inhibitory and excitatory properties in the motor cortex.     

Motor cortex excitability in patients with cerebellar degeneration.

OBJECTIVES: To study motor cortex (M1) excitability and the effect of subthreshold transcranial magnetic stimulation (TMS) in patients with cerebellar degeneration and normals performing a reaction time (RT) task. METHODS: Time to wrist flexion after a visual go-signal was measured. TMS was always delivered at 90% of resting motor evoked potential (MEP) threshold. In one experiment, test TMS was delivered at various intervals after the go-signal. In half the trials priming TMS was also given with the go-signal. A second experiment examined the effect on RT of M1 and occipital priming stimulation alone. RESULTS: M1 excitability, measured as the likelihood of producing MEPs in the wrist flexor muscles, increased immediately after the go-signal in the patients and stayed high until movement. In controls, excitability rose gradually. This difference was largely eliminated by priming TMS. RT was longer in the patient group, but improved with priming TMS. Occipital priming produced less effect on RT than M1 stimulation in both controls (P=0.008) and patients (P=0.0004). CONCLUSIONS: M1 excitability prior to movement in an RT task increases abnormally early in cerebellar patients. This may reflect compensation for deficient thalamocortical drive. Subthreshold TMS can partially normalize the prolonged RT and abnormal excitability rise in cerebellar patients.     

Motor cortex excitability and fatigue in multiple sclerosis: a transcranial magnetic stimulation study

We investigated electrophysiological correlates of fatigue in patients with multiple sclerosis (MS). Transcranial magnetic stimulation (TMS) was used to explore motor excitability in three groups of subjects: MS patients with fatigue (MS-F), MS patients without fatigue (MS-NF) and healthy control subjects. All participants had to perform a fatiguing hand-grip exercise. TMS was performed prior to and after the exercise. Prior to the motor task, MS-F patients had less inhibition in the primary motor cortex compared to both other groups. Postexercise, intracortical inhibition was still reduced in the MS-F patients compared to the MS-NF patients. In MS-F patients the postexercise time interval for normalization of the motor threshold was correlated with the fatigue severity. We conclude that MS patients with fatigue have an impairment of inhibitory circuits in their primary motor cortex. The results also indicate that fatigue severity is associated with an exercise-induced reduction of membrane excitability.     

Motor cortex excitability in transient global amnesia

Abstract.Objective: To investigate the physiology of motor cortical areas in patients with transient global amnesia (TGA).Materials and methods: We performed transcranial magnetic stimulation (TMS) and single photon emission computed tomography (SPECT) in 13 patients during and after the acute phase of a typical episode of TGA. Measures of cortical excitability included motor threshold (MT) to magnetic stimulation, cortical silent period (SP) duration and intracortical inhibition (ICI) using a paired-pulse TMS technique.Results: We found thalamic hypoperfusion and an ipsilateral significantly decreased ICI during the acute phase of TGA.Conclusions: Reduced activity in inhibitory circuits may explain why PET studies of patients with TGA showed neocortical hypometabolism. Our findings are consistent with the hypothesis that frontal cortex dysfunction probably due to damage affecting the thalamocortical circuits may play an important role in the pathogenesis of the syndrome.     

Corticomotor excitability and perception of effort during sustained exercise in the chronic fatigue syndrome.

OBJECTIVE: We have investigated the possibility of a central basis for the complaints of fatigue and poor exercise tolerance in subjects with chronic fatigue syndrome (CFS). METHODS: Transcranial magnetic stimulation of the motor cortex was used to measure sequential changes in motor evoked potential (MEP) amplitude, post-excitatory silent period (SP) duration and twitch force of the biceps brachii muscle during a 20% maximum isometric elbow flexor contraction maintained to the point of exhaustion. Ten patients with post-infectious CFS and 10 age- and sex-matched control subjects were studied. Results were analysed using non-parametric repeated measures analysis of variance (Friedman's test) and Mann-Whitney U-tests for intra- and inter-group comparisons respectively. RESULTS: Mean endurance time for the CFS group was lower (13.1+/-3.2 min, mean +/- SEM) than controls (18.6+/-2.6 min, P < 0.05) and CFS subjects reported higher ratings of perceived exertion. During the exercise period MEP amplitude and SP duration increased in both groups but to a lesser extent in CFS subjects. Interpolated twitch force amplitude also increased during exercise, being more pronounced in CFS subjects. CONCLUSION: The findings are in keeping with an exercise-related diminution in central motor drive in association with an increased perception of effort in CFS.     

Motor and occipital cortex excitability in migraine patients

OBJECTIVE: We evaluated motor and occipital cortex excitability in migraine patients using transcranial magnetic stimulation. METHODS: In this study, we included 15 migraine patients with aura (MwA), 15 patients without aura (MwoA) between attacks, and 31 normal healthy controls. Motor thresholds at rest, amplitudes of motor evoked potentials, central motor conduction time and cortical silent period were measured by stimulation of the motor cortex by using 13.5 cm circular coil and recording from abductor digiti minimi muscle. Additionally, phosphene production and the threshold of phosphene production was determined by stimulation of the visual cortex with the same coil. RESULTS: No significant differences were observed between the groups with respect to the motor thresholds, Motor evoked potential max/compound muscle action potential max (MEPmax/Mmax) amplitudes, central motor conduction times and duration of cortical silent period. Although not statistically significant, the proportion of the migraineurs with phosphene generation (90%) was found to be higher than that of normal controls (71%). Phosphene threshold levels in migraine patients, however, were significantly lower than those of the controls with MwA patients having the lowest levels. CONCLUSION: Our findings indicate that the occipital cortex, but not the motor cortex, is hyperexcitable in migraine patients.     

Motor cortex excitability in patients with focal epilepsy

We studied the excitability of the motor cortex using, transcranial magnetic stimulation (TMS) in patients with temporal and extratemporal epilepsy. We applied single and paired-pulse TMS to 15 patients with temporal (n = 7), extratemporal (n = 6) and focal epilepsy lateralised to one hemisphere (n = 2). Patients had no antiepileptic drugs in the last 48 h and were seizure free for 4 h prior to testing. We determined the threshold for EMG responses at rest (RMT), the cortically evoked silent period (CSSP) and intracortical inhibition (ICI, intervals of 2-4 ms) and facilitation (ICF, 7-15 ms) and compared the results to those obtained in 17 normal controls. ICI and ICF was reduced in both hemispheres (P < 0.01. ANOVA) compared to the controls. In the hemisphere of seizure origin ('abnormal') there was a reduction of ICF (P < 0.01) and normal ICI, in the 'normal' hemisphere there was a reduced ICI (P < 0.01) and a slight reduction of ICF (P < 0.05). ICF on the 'abnormal' side was reduced (P < 0.05) compared to the 'normal' hemisphere. RMT was increased in two patients, but group comparison of RMT and CSSP showed no significant differences between patients and controls. The results suggest a remote effect of epileptic activity onto the motor cortex leading to an alteration of activity in local inhibitory circuits.     

Motor excitability in a patient with a somatosensory cortex lesion.

OBJECTIVE: We report a patient with an ischemic lesion in right somatosensory cortex who developed dystonic posturing and pseudo-athetotic involuntary left-sided finger movements during voluntary muscle contractions. METHODS: Motor excitability was assessed using transcranial magnetic stimulation techniques and electrical peripheral nerve stimulation. Results obtained from abductor digiti minimi muscles of both hands were compared. RESULTS: On the affected side, silent period duration and intracortical inhibition were reduced, indicating a loss of inhibitory properties. Intracortical facilitation was enhanced. Stimulus-response curves showed a smaller increase of motor evoked potential amplitudes when recorded during muscle relaxation, but not during voluntary muscle activation. CONCLUSIONS: The results suggest that, under normal conditions, somatosensory cortex modifies inhibitory as well as excitatory properties in the motor system.     

Motor cortex excitability correlates with an anxiety-related personality trait.

BACKGROUND: In an earlier study comparing obsessive-compulsive disorder (OCD) patients to psychiatrically screened normals, we found lowered motor evoked potential (MEP) threshold to transcranial magnetic stimulation (TMS) and decreased intracortical inhibition in OCD. We sought to determine whether this pattern was specific to OCD. METHODS: We measured the threshold and amplitude of MEPs to single and paired (subthreshold-suprathreshold; 3, 4, 10, 15 msec intervals) TMS in 46 healthy volunteers (23 women, 23 men) who were given the NEO-PI-R personality inventory. Nineteen of the men also received cognitive and motor tests. RESULTS: The paired-pulse conditioned/unconditioned MEP amplitude ratios correlated with Neuroticism (N), a stable measure of trait-level anxiety and other negative emotions, in the whole sample (r = 0.48; p = 0.0006), and in the men (r = 0.63; p = 0.0009). There were no other significant correlations. CONCLUSIONS: This relationship reflects a factor that contributes to both personality and cortical regulation. It was not statistically significant in women, probably because of confounding hormonal influences on excitability. Decreased intracortical inhibition may be related more to trait anxiety and depression, which are high in OCD, than to OCD itself. However, the MEP threshold (significantly lowered in OCD) was unrelated to N.     

Motor cortex excitability in stroke before and after constraint-induced movement therapy.

OBJECTIVE: To investigate motor cortex excitability in stroke patients and explore excitability changes induced by an intense physiotherapy. METHODS: We studied 12 chronic stroke patients (6 cortical, 6 subcortical lesions) before and after participation in 12 days of constraint-induced movement therapy. Transcranial magnetic stimulation was applied to test intracortical inhibition (ICI), intracortical facilitation, silent periods, amplitudes of motor evoked potentials, and motor thresholds. Motor function was assessed by the Motor Activity Log, the Wolf Motor Function Test, and the Modified Ashworth Scale for spasticity. RESULTS: Motor evoked potential amplitudes and motor thresholds were inversely correlated, indicating that both parameters reflect the function of corticospinal pathways. Before therapy, a motor cortex disinhibition was found in the affected hemisphere. This disinhibition was stronger in patients with cortical lesions. The amount of disinhibition was correlated with the degree of spasticity. After therapy, ICI changes were more pronounced in the affected hemisphere compared with the unaffected side. Both ICI decreases and increases were observed. Motor function tests indicated an improvement in all patients. CONCLUSIONS: Motor cortical disinhibition is present in chronic stroke patients. Therapy-associated changes of motor cortex excitability mainly occur in the lesioned hemisphere by up-regulation or down-regulation of ICI. We replicate that constraint-induced movement therapy improves motor functions in the chronic stage after stroke.     

Relative increase in choline in the occipital cortex in chronic fatigue syndrome

OBJECTIVE: To test the hypothesis that chronic fatigue syndrome (CFS) is associated with altered cerebral metabolites in the frontal and occipital cortices. METHOD: Cerebral proton magnetic resonance spectroscopy (1H MRS) was carried out in eight CFS patients and eight age- and sex-matched healthy control subjects. Spectra were obtained from 20 x 20 x 20 mm3 voxels in the dominant motor and occipital cortices using a point-resolved spectroscopy pulse sequence. RESULTS: The mean ratio of choline (Cho) to creatine (Cr) in the occipital cortex in CFS (0.97) was significantly higher than in the controls (0.76; P=0.008). No other metabolite ratios were significantly different between the two groups in either the frontal or occipital cortex. In addition, there was a loss of the normal spatial variation of Cho in CFS. CONCLUSION: Our results suggest that there may be an abnormality of phospholipid metabolism in the brain in CFS.     

Motor excitability in myopathy.

OBJECTIVE: To explore whether patients with myopathy present changes in motoneuronal excitability. METHODS: Patients with well-defined myopathies were studied with single and paired pulse transcranial magnetic stimulations and electrical nerve stimulations to explore neuronal motor excitability. Motor-evoked potentials were recorded from the clinically unaffected first dorsal interosseous muscle (n=10) and the paretic deltoid muscle (n=8). RESULTS: Compared to an age-matched healthy control group, myopathic patients showed a reduction of intracortical inhibition, enhancements of alpha-motoneuron excitability and increased amplitudes of motor-evoked potentials during target muscle contraction. These alterations were present in clinically affected and clinically unaffected muscles. CONCLUSION: In myopathy, nervous system excitability may be altered, presenting as a motor disinhibition on cortical and subcortical levels.     

Motor cortex excitability during ballistic forearm and finger movements

In a ballistic forearm flexion movement, a centrally programmed triphasic pattern of electromyogram (EMG) is seen with two bursts in biceps and a single burst in triceps. Rapid abduction of the index finger, in contrast, is achieved with a single agonist burst. Transcranial magnetic and electrical stimuli, triggered at the onset of the EMG burst, have been used to probe cortical and spinal cord excitability during and after self-paced ballistic finger and forearm movements. In both, the motor cortex has two phases of increased excitability. The first phase is coincident with the initial agonist burst. The second phase in biceps is associated with the second agonist burst, but in the finger movement, the raised motor cortical excitability is not associated with any EMG. It is argued that the motor program for the two movements may be similar, despite there being large differences in the EMG pattern generated. © 1996 John Wiley & Sons, Inc.