Hava Hafner

Motor and somatosensory conduction in cervical myelopathy and radiculopathy.

Study Design. Motor and sensory conduction times were measured in patients with cervical myelopathy and radiculopathy. The results were compared with those of control subjects. Objective. To evaluate the clinical value of the combined use of motor-evoked potentials with F wave recording and somatosensory-evoked potentials in cervical myelopathy and radiculopathy. Summary of Background Data. Electromyography and somatosensory-evoked potentials provide only indirect information on the motor pathways. The development of magnetic transcranial stimulation has provided a direct and reliable physiologic insight into the motor system. Methods. Magnetic stimulation of the motor cortex and nerve roots with F wave recording was used to assess central and peripheral motor conduction times. Somatosensory conduction was evaluated by somatosensory-evoked potentials. Results. Significant prolongation of the central sensory and motor conduction times was found in the group with myelopathy. These findings were much more pronounced in patients who had multiple level spondylotic stenosis of the spinal canal than in those harboring a single disc herniation compressing the spiral cord. In Contrast to somatosensory-evoked potentials, motor-evoked potentials combined with F wave recording showed marked Impairment of peripheral conduction. In patients with radiculopathy. Conclusion. Motor-evoked potentials associated with F wave recording was suitable for the evaluation of patients with radiculopathy, The severity of conduction impairment in patients with myelopathy can be assessed by combined motor-evoked potentials and somatosensory-evoked potentials.

Effect of electroconvulsive therapy on cortical excitability in patients with major depression: a transcranial magnetic stimulation study

OBJECTIVE The antidepressant action of electro-convulsive therapy (ECT) and repetitive transcranial magnetic stimulation (rTMS) may be related to their ability to modulate cortical excitability. The aim of this study was to investigate changes in cortical excitability following ECT in patients with major depression (MD) and to compare therapeutic efficacy of ECT combined with rTMS to that of ECT alone. METHODS Twenty-two patients with MD were assigned to receive ECT and right prefrontal 1 Hz rTMS (n=12) or ECT with sham rTMS (n=10). ECT was given twice weekly and rTMS was applied on the remaining 4 days, throughout 3 weeks. The resting motor threshold (rMT) and motor evoked potential (MEP)/M-wave area ratio were evaluated before and 6 h after the first, third and sixth ECT session. The active motor threshold (aMT), intra-cortical inhibition (ICI) and intra-cortical facilitation (ICF) were measured at baseline and 24 h after the last ECT. RESULTS There were no significant differences in the degree of clinical improvement and measures of cortical excitability in the ECT+active rTMS group as compared to the ECT+sham rTMS group. Marked clinical improvement observed in 19 out of the 22 patients was associated with a significant increase of the MEP/M-wave area ratio, decrease of the aMT and reduction of the ICI in the left hemisphere. CONCLUSIONS The antidepressant effect of ECT was associated with an enhancement of left hemispheric excitability. rTMS did not add to the beneficial effect of ECT. However, the small sample size and the robust effect of ECT might have obscured a potential therapeutic effect of rTMS. SIGNIFICANCE Measures of cortical excitability may provide insight to our understanding of the mechanism of action of ECT and might be useful for the assessment of treatment response.

Altered excitability of the motor cortex after minor head injury revealed by transcranial magnetic stimulation.

SummaryThis study attempts to find out whether the motor evoked potential (MEP) elicited by single pulse and slow-rate (1 Hz) repetitive transcranial magnetic stimulation (TMS) can disclose concealed subclinical impairments in the cerebral motor system of patients with minor head injury.The motor response to single pulse TMS (STMS) of the patient groups was characterized by significantly higher threshold compared with that of the control group. The central motor conduction time, as well as the peripheral conduction time were normal in all patients pointing to cortical impairment.Two main patterns of MEP changes in response to repetitive TMS (RTMS) were observed in the patient group. A. – progressive decrease of the MEP amplitude throughout the stimulation session to a near complete abolition. B. – irregularity of the amplitude and the waveform of the MEP in a chaotic form. The MEP latency remained stable during the whole stimulation session. The MEP abnormalities recovered gradually over the period of a few months.The higher threshold of the motor response to STMS and the abnormal patterns of the MEP to RTMS seem to reflect transient impairment of cortical excitability or “cortical fatigue” in patients who sustained minor head injures. Further study is needed to evaluated the extent and the pathophysiological mechanisms of the central nervous system fatigue phenomenon following head injury.

Brain-stem trigeminal and auditory evoked potentials in multiple sclerosis: physiological insights

Thirty-six patients with multiple sclerosis were evaluated by means of brain-stem trigeminal and auditory evoked potentials. The brain-stem auditory evoked potentials (BAEPs) were abnormal in 26 patients (72.2%). Brain-stem trigeminal evoked potentials (BTEPs) yielded similar results, showing distorted waveforms and/or prolonged latencies in 25 patients (69.4%). As expected, the MRI proved to be the most efficient single test, revealing plaques in 86.4% of the patients evaluated. However, the diagnostic accuracy of MRI was lower than that provided by the combination of the BTEP and BAEP (88.9%). Moreover, in patients having signs of brain-stem involvement, the BTEP, alone and in combination with the BAEP, proved to be more sensitive than the MRI in revealing brain-stem lesions. Correlation between clinical and BTEP findings could be found only in those patients who presented with signs of trigeminal involvement such as trigeminal neuralgia or dysesthesiae. The analysis of the BTEP waveforms showed two distinct types of abnormality-a peripheral type and a central type-suggesting plaques in distinct locations. Both the BTEP and the BAEP demonstrated a correlation with the clinical course of the disease and the condition of the patient at the time of the evaluation. Relapse of the disease was associated with a marked prolongation of the central conduction time in the BTEP and in the BAEP, suggesting the application of such studies to the monitoring of unstable patients in the evaluation of new therapeutic protocols.

Short latency trigeminal evoked potentials: normative data and clinical correlations

A very short latency trigeminal evoked potential (STEP) to electrical stimulation of the upper lip has been recorded from over the scalp. This potential consists of 5 distinct peaks within the 12 msec range. Normative data were obtained from 25 healthy volunteers. The impact of the stimulus rate and intensity on the response was studied in each subject. These results were compared to those of 19 patients suffering from lesions involving the trigeminal system in its peripheral aspect or the brain-stem. The STEP was consistently abnormal whenever the involved side was stimulated. Changes in peak latencies and in interpeak latency differences (IPLD) correlated well with clinical and radiological findings and improved with the removal of the offending lesion. The STEP proved to be a reliable method for evaluating the trigeminal system in its peripheral and central pathways; it may thus serve as an additional parameter for studying brain-stem functions.

Dissociation of somatosensory and motor evoked potentials in non-comatose patients after head injury.

OBJECTIVES This study was performed to evaluate the clinical value of combined use of somatosensory evoked potentials (SEPs) and motor evoked potentials (MEPs) in patients with different brain lesions after head trauma. METHODS A total of 64 patients with minor and moderate head injury were investigated by means of SEPs recorded over the parietal and frontal areas and MEPs following single-pulse transcranial magnetic stimulation (sTMS) and slow-rate repetitive transcranial magnetic stimulation (rTMS). RESULTS In almost 50% of the patients, a dissociated impairment of somatosensory and motor evoked potentials was found. This dissociation was related to different distribution of SEP and MEP abnormalities in head injury subgroups. The higher threshold to sTMS and increased variability of the MEP amplitude during slow-rate rTMS were the most prominent features in patients with focal brain contusions, suggesting impairment of the cortical excitability. SEP abnormalities, as well as central conduction impairments, were more noticeable in patients with diffuse brain injury. CONCLUSIONS A combined analysis of SEPs and MEPs may improve the assessment of cortical dysfunctions and central conduction abnormalities in non-comatose patients with head injury. A slow-rate rTMS may be considered as a complementary technique to the evaluation of the threshold in assessment of the excitability of the motor cortex in minor and moderate head injury.

Monitoring of brain-stem trigeminal evoked potentials. Clinical applications in posterior fossa surgery

Brain-stem trigeminal evoked potentials (BTEPs) were monitored intraoperatively in 17 patients during posterior fossa surgery. Satisfactory BTEP recording was performed in all patients without technical problems or interfering with the activity of the operating team. The BTEP was not altered by anesthetic agents or muscle relaxants. Intraoperative monitoring of the BTEP showed wave form alterations or increasing peak latencies in 10 patients. Among these patients, the BTEP demonstrated a dynamic correlation with the surgical process in 8 instances. Two major causative surgical manipulations were identified: cerebellar retraction in 4 cases and tumor dissection from the brain-stem in 6 cases. Withholding the dissection of the tumor, readjusting a cerebellar retractor or further modifying the surgical attitude resulted in partial or complete return of the wave form in 7 patients. The BTEP at the end of surgery proved to correlate with the immediate surgical outcome in most instances. We concluded that the intraoperative monitoring of the BTEP was feasible and suggested, despite the small number of patients, a potential value in the survey of brain-stem functions during posterior fossa surgery.

The value of motor and somatosensory evoked potentials in evaluation of cervical myelopathy in the presence of peripheral neuropathy.

Study Design. Patterns and rates of motor-evoked potential (MEP) and somatosensory-evoked potential (SEP) abnormalities were evaluated in 9 patients with combined cervical cord compression and diabetic neuropathy and 15 patients with asymptomatic cervical cord compression. The results were compared with those of 8 patients with pure cervical myelopathy and 7 patients with pure diabetic neuropathy. Objective. To assess the efficacy of MEPs and SEPs in the evaluation of cervical myelopathy in the presence of peripheral neuropathy. Summary of Background Data. Previous studies have demonstrated a high sensitivity of MEPs and SEPs in documenting a functional involvement of motor and somatosensory pathways in pure or preclinical cervical myelopathy. However, there have been no detailed reports on MEPs and SEPs in cervical cord compression associated with peripheral neuropathy. Methods. Central somatosensory conduction was assessed by median and tibial SEPs using peak-to-peak and onset-to-onset methods. Central motor conduction was measured by MEPs and F-waves elicited from upper and lower limb muscles in response to transcranial magnetic stimulation, magnetic stimulation of cervical motor roots, and electrical stimulation of peripheral nerves. Results. MEPs were more sensitive than SEPs in detecting central conduction impairments in patients with either pure or preclinical or combined forms of cervical myelopathy. The rate of MEP abnormalities suggesting the corticospinal tract involvement in the combined cervical cord compression-neuropathy group did not differ significantly from that in the asymptomatic cervical cord compression group but was lower than in the pure cervical myelopathy group. Combined MEP and SEP analysis improved the test sensitivity in detecting clinically “silent” cervical cord dysfunctions. Conclusions. MEPs associated with SEPs are a valuable tool for assessing the presence and severity of cervical cord involvement in combined cervical cord compression and peripheral neuropathy lesions.

Motor cortex disinhibition in normal-pressure hydrocephalus

OBJECT Previous studies have shown a close association between frontal lobe dysfunction and gait disturbance in idiopathic normal-pressure hydrocephalus (iNPH). A possible mechanism linking these impairments could be a modulation of corticospinal excitability. The aim of this study was 2-fold: 1) to determine whether iNPH affects corticospinal excitability; and 2) to evaluate changes in corticospinal excitability following ventricular shunt placement in relation to clinical outcome. METHODS Twenty-three patients with iNPH were examined using single- and paired-pulse transcranial magnetic stimulation of the leg motor area before and 1 month after ventricular shunt surgery. The parameters of corticospinal excitability assessed were the resting motor threshold (rMT), motor evoked potential/M-wave area ratio, central motor conduction time, intracortical facilitation, and short intracortical inhibition (SICI). The results were compared with those obtained in 8 age-matched, healthy volunteers, 19 younger healthy volunteers, and 9 age-matched patients with peripheral neuropathy. RESULTS Significant reduction of the SICI associated with a decrease of the rMT was observed in patients with iNPH at baseline evaluation. Ventricular shunt placement resulted in significant enhancement of the SICI and increase of the rMT in patients who markedly improved, but not in those who failed to improve. CONCLUSIONS This study demonstrates that iNPH affects corticospinal excitability, causing disinhibition of the motor cortex. Recovery of corticospinal excitability following ventricular shunt placement is correlated with clinical improvement. These findings support the view that reduced control of motor output, rather than impairment of central motor conduction, is responsible for gait disturbances in patients with iNPH.

Neuromonitoring in the operating room and intensive care unit: an update.

Several pathophysiological processes cause reversible functional abnormalities before the appearance of any structural, irreversible damage, in which case the observation of these abnormalities can constitute an invaluable warning signal to prevent the occurrence of irreversible neurological sequelae. Several processes occurring in the operating room (OR) and intensive care unit (lCU) belong to this last category and justify the usefulness of clinical neurophysiology as a neuromonitoring tool during surgery and in coma. Recent technological advances offer new concepts in monitoring of brain signals. In ICU and OR, modern computer technology has recently provided a large number of sophisticated neuromonitoring systems. The dimensions of the helmet vary because it is adjustable. Therefore, the helmet takes into consideration the individual head size and shape. Electrodes for electroencephalography (EEG), stimulus-induced brain oscillations, early somatosensory EPs (SEPs), and brainstem auditory EPs (BAEPs) are generally placed according to the International 10–20 System. Improvement in EEG assessment may be obtained with optimal electrode montages and objective spectral parameters. The montages currently in use are symmetrical and favor central and occipital electrodes. Monitoring of carotid endarterectomy (CEA) is necessary when selective shunting is performed. Monitoring techniques differ in many respects, such as the physiological mechanism studied, the invasiveness of the technique, and subjective versus objective assessment.