脑血管病患者经颅磁刺激运动诱发电位的研究

采用经颅磁刺激运动诱发电位（ＭＥＰ）对７２例脑血管病（ＣＶＤ）患者和５０例正常人进行检测。结果：ＣＶＤ患者瘫痪侧上肢磁刺激无反应或皮层潜伏期和中枢传导时间（ＣＭＣＴ）较正常对照组和健侧显著延长（Ｐ＜０．００１）；瘫痪侧下肢磁刺激无反应或ＣＭＣＴ较正常对照组和健侧显著延长（Ｐ＜０．０５）。脑出血与脑梗塞患者ＭＥＰ异常率无显著差异（Ｐ＞０．０５），而与临床病情轻重和病变部位密切相关。提示ＭＥＰ能客观反映ＣＶＤ患者中枢运动传导通路功能受损的情况。     

The latency distribution of motor evoked potentials in patients with multiple sclerosis

Objective

To compare the individual latency distributions of motor evoked potentials (MEP) in patients with multiple sclerosis (MS) to the previously reported results in healthy subjects (Firmin et al., 2011).

Methods

We applied the previously reported method to measure the distribution of MEP latencies to 16 patients with MS. The method is based on transcranial magnetic stimulation and consists of a combination of the triple stimulation technique with a method originally developed to measure conduction velocity distributions in peripheral nerves.

Results

MEP latency distributions in MS typically showed two peaks. The individual MEP latency distributions were significantly wider in patients with MS than in healthy subjects. The mean triple stimulation delay extension at the 75% quantile, a proxy for MEP latency distribution width, was 7.3 ms in healthy subjects and 10.7 ms in patients with MS.

Conclusions

In patients with MS, slow portions of the central motor pathway contribute more to the MEP than in healthy subjects. The bimodal distribution found in healthy subjects is preserved in MS.

Significance

Our method to measure the distribution of MEP latencies is suitable to detect alterations in the relative contribution of corticospinal tract portions with long MEP latencies to motor conduction.     

Quantification of Uhthoff's phenomenon in multiple sclerosis: a magnetic stimulation study.

OBJECTIVE: To quantify temperature induced changes (=Uhthoff phenomenon) in central motor conduction and their relation to clinical motor deficits in 20 multiple sclerosis (MS) patients. METHODS: Self-assessment of vulnerability to temperature and clinical examination were performed. We used motor evoked potentials to measure central motor conduction time (CMCT) and applied the triple stimulation technique (TST) to assess conduction failure. The TST allows an accurate quantification of the proportion of conducting central motor neurons, expressed by the TST amplitude ratio (TST-AR). RESULTS: Temperature induced changes of TST-AR were significantly more marked in patients with prolonged CMCT (P=0.037). There was a significant linear correlation between changes of TST-AR and walking velocity (P=0.0002). Relationships were found between pronounced subjective vulnerability to temperature and (i) abnormal CMCT (P=0.02), (ii) temperature induced changes in TST-AR (P=0.04) and (iii) temperature induced changes in walking velocity (P=0.04). CMCT remained virtually unchanged by temperature modification. CONCLUSIONS: Uhthoff phenomena in the motor system are due to varying degrees of conduction block and associated with prolonged CMCT. In contrast to conduction block, CMCT is not importantly affected by temperature. SIGNIFICANCE: This is the first study quantifying the Uhthoff phenomenon in the pyramidal tract of MS patients. The results suggest that patients with central conduction slowing are particularly vulnerable to develop temperature-dependent central motor conduction blocks.     

三重刺激技术定量评价多系统萎缩患者重复经颅磁刺激治疗效果二例分析

研究背景既往研究显示,初级运动皮质予重复经颅磁刺激可以改善皮质脊髓束损害。本研究采用三重刺激技术定量评价2例以帕金森综合征为主要表现的多系统萎缩(MSA-P)患者重复经颅磁刺激前后皮质脊髓束功能变化,探讨重复经颅磁刺激对皮质脊髓束损害的改善作用。方法 2例MSA-P型患者(1例为62岁男性,1例为44岁女性),病程1年,均接受重复经颅磁刺激,采用小指展肌三重刺激技术波幅比和统一多系统萎缩评价量表第二部分(UMSARSⅡ)评价治疗前后皮质脊髓束功能和运动功能。结果 2例MSA-P型患者治疗前小指展肌三重刺激技术波幅比为28.30%和69.10%,UMSARSⅡ评分22和20分;治疗后即刻小指展肌三重刺激技术波幅比为58.40%和71.70%,UMSARSⅡ评分16和12分,其中例1随访至重复经颅磁刺激后2个月,治疗后1和2个月小指展肌三重刺激技术波幅比分别为90.70%和50.70%,UMSARSⅡ评分17和23分。结论采用三重刺激技术可以定量评价重复经颅磁刺激对MSA-P型患者皮质脊髓束损害的改善作用。     

磁刺激运动诱发肌电位对运动机能评价的临床应用

目的：观察磁刺激运动诱发肌电位对运动机能的评价。方法：用磁刺激装置对正常人１２例，运动障碍患者３１例进行了经颅脑刺激，记录运动诱发肌电位。结果：受检测的４３例，无一例引起头痛和感觉异常，也无癫痫及意识障碍等副作用。正常人中，诱发肌电位的潜伏期相对恒定，振幅在个体间虽存有差异，但同一例左右侧几乎相同。对２０例单侧肢体功能障碍的肌力按体征分级，比较患侧和健侧的诱发肌电位，发现患侧振幅较健侧明显减低。对肌力０～２级的病例，不能诱发出肌电位。结论：磁刺激运动诱发肌电位，在临床上可在数量上正确评价肢体的运动机能，并且经颅磁刺激法是安全的。     

Transcranial magnetic stimulation: specific and non-specific facilitation of magnetic motor evoked potentials

Summary Different physiological mechanisms of facilitation of latencies and amplitudes of magnetic motor evoked potentials (MEPs) were evaluated in a cohort of 140 healthy volunteers. The potentials were induced at the vertex and recorded at the abductor pollicis brevis. The aim of the present investigation was to compare physiological mechanisms which presumably facilitate motor pathways at the cortical level with those known to occur during contraction of small hand muscles. When compared with MEPs at rest, the maximum average decrease of latencies (1.5, SD 1.1 ms) as well as the highest increase of peak to peak amplitudes (2.6, SD 2.1 mV) was observed during exertion of a voluntary background force, at the muscle recorded from. Pre-innervation of a neighbouring muscle (abductor digiti minimi) led to a lesser average decrease of latencies by 1.0, SD 1.1 ms and an average increase of amplitudes by only 0.5, SD 1.5 mV. Non-specific manoeuvres, like sticking out the tongue or counting aloud, reduced mean latencies slightly by 0.4 ms, SD 0.8 ms and 0.3 SD 0.85 ms respectively, but increased amplitudes markedly by an average of 1.0, SD 1.6 mV and 0.8, SD 1.4mV respectively. It is concluded that facilitation of MEPs by non-specific manoeuvres occurs and must be taken into account when evaluating MEPs.     

Early disturbances in multimodal evoked potentials as a prognostic factor for long-term disability in relapsing-remitting multiple sclerosis patients

Objective

The aim of this study was to investigate whether early alterations in evoked potentials (EPs) have a prognostic value in relapsing-remitting multiple sclerosis (RRMS).

Altered response to repetitive transcranial magnetic stimulation in patients with chronic primary insomnia

BackgroundWe aimed at evaluating the amplitude changes of the motor evoked potentials (MEPs) induced by of low-frequency (LF) repetitive transcranial magnetic stimulation (rTMS) over the primary motor cortex (M1) in10 patients with primary insomnia (PI) and in 10 age-matched healthy controls.MethodsMedian peak-to-peak MEP amplitudes were assessed in all subjects at three times: at baseline (T₀), after the first train of a single rTMS session (T₁), and after the whole rTMS procedure (T₂). This consists of 20 trains of 1 Hz stimulation with 50 stimuli per train and an intertrain interval of 30 s.ResultsResting motor threshold (RMT) and MEPs amplitude did not differ between the two groups at T₀. A reduction of MEP size was observed at both T₁ and T₂ in all subjects, but this was significantly less pronounced in patients than in control subjects.ConclusionsThe lack of MEP inhibition reflects an altered response to LF rTMS in patients with PI. These rTMS findings are indicative of an altered cortical plasticity in inhibitory circuits within M1 in PI. Subjects with PI exhibited an impairment of the LTD-like mechanisms induced by inhibitory rTMS, thus providing further support to the involvement of GABA neurotransmission in the pathophysiology of PI.     

Neurophysiological features of fasciculation potentials evoked by transcranial magnetic stimulation in amyotrophic lateral sclerosis

We report 13 patients with amyotrophic lateral sclerosis in whom fasciculation potentials (FPs) driven by transcranial magnetic stimulation (TMS) were recorded. A total of 18 different FPs were analyzed. TMS-driven fasciculations had a simple morphology and were stable. Complex potentials were never cortically driven. Recruitment by a slight voluntary contraction was verified in 7 of 13 tested FPs. FPs were driven by threshold stimuli in 7 of 10 patients and by stimuli 5% below threshold in 3 of 6. Mapping demonstrated that FPs were driven in an area close to the center of gravity of the muscle cortical area. In one case FPs were evoked from most of the cortical representation area of a very weak muscle. Three other patients with profuse fasciculations associated with other clinical conditions were also studied. No TMS evoked fasciculation was observed in this group. The results of this systematic study suggest that cortically evoked FPs arise centrally, at spinal cord or even more proximally, and can represent a marker of increased corticomotor excitability, which is predominant at an earlier phase but can persist as the disease progresses. Received: 15 April 1999/Received in revised form: 28 July 1999/Accepted: 2 November 1999     

EDSS correlated analysis of median nerve somatosensory evoked potentials in multiple sclerosis

Median nerve somatosensory evoked potentials (SEP) were recorded in 30 patients with multiple sclerosis. The examined patients had an expanded disability status scale (EDSS) between 0 and 6. The primary cortical potential N20, the subcortical potentials P14, N13b, N13a and the peripheral potential P9 were recorded simultaneously. In 5 patients normal SEP were observed (group 1) and in 6 patients there were consecutive disturbances of the somatosensory pathway (group 3). In 19 patients subcortical potentials were abnormal or absent while the following potentials were normal or identified which pattern corresponds to amplification within CNS structures (group 2). The EDSS of groups 1 and 2 were similar and lower than the EDSS of group 3, which indicates that amplification mechanisms could represent a positive prognostic factor in SEP diagnosis of multiple sclerosis. Received: 15 March 2000 / Accepted in revised form: 4 September 2000     

Effects of transcranial direct current stimulation on cognitive dysfunction in multiple sclerosis

BackgroundAround 40%–70% of patients with multiple sclerosis (MS) may experience cognitive impairments during the course of their disease with detrimental effects on social and occupational activities. Transcranial direct current stimulation (tDCS has been investigated in pain, fatigue, and mood disorders related to MS, but to date, few studies have examined effects of tDCS on cognitive performance in MS.ObjectiveThe current study aimed to investigate the effects of a multi-session tDCS protocol on cognitive performance and resting-state brain electrical activities in patients with MS.MethodsTwenty-four eligible MS patients were randomly assigned to real (anodal) or sham tDCS groups. Before and after 8 consecutive daily tDCS sessions over the left dorsolateral prefrontal cortex (DLPFC), patients’ cognitive performance was assessed using the Cambridge Brain Sciences-Cognitive Platform (CBS-CP). Cortical electrical activity was also evaluated using quantitative electroencephalography (QEEG) analysis at baseline and after the intervention.ResultsCompared to the sham condition, significant improvement in reasoning and executive functions of the patients in the real tDCS group was observed. Attention was also improved considerably but not statistically significantly following real tDCS. However, no significant changes in resting-state brain activities were observed after stimulation in either group.ConclusionAnodal tDCS over the left DLPFC appears to be a promising therapeutic option for cognitive dysfunction in patients with MS. Larger studies are required to confirm these findings and to investigate underlying neuronal mechanisms.     

磁刺激运动诱发电位技术对急性脊髓炎患者预后的影响

目的探讨磁刺激运动诱发电位（MEP）对急性脊髓炎患者预后评估的意义。方法对36例根据病史、体征、脑脊液、磁共振临床确诊的急性脊髓炎患者于发病2周内进行磁刺激运动诱发电位检查,记录检查结果,并于12周后复查。正常对照组为30例健康者。结果急性脊髓炎患者MEP异常形式主要表现为锥体束传导阻滞、潜伏期延长、波幅降低。12周后复查显示,锥体束传导阻滞患者预后较差;而锥体束传导延迟、波幅降低患者预后良好。结论磁刺激运动诱发电位不仅能判断疾病的严重程度,而且对判断预后提供帮助;磁刺激运动诱发电位显示锥体束传导延迟和波幅降低者预后较好,锥体束传导阻滞者预后较差。     

Neurophysiological evaluation of sensorimotor functions of the leg: comparison of evoked cortical potentials following electrical and mechanical stimulation,long-latency muscle responses,and transcranial magnetic stimulation

Summary Twenty-two patients with localized lesions of the central nervous system (unilateral cerebral ischaemia, cervical myelopathy, spinal tumour, familial spastic paraplegia) underwent neurophysiological evaluation of sensorimotor deficits of the leg. Functional methods using muscle stretch as stimulus, i.e. long-latency muscle responses and cortical potentials evoked by dorsiflection of the foot, were compared with transcranial magnetic stimulation and somatosensory evoked cortical potentials following electrical stimulation of the posterior tibial nerve. The functional neurophysiological methods yielded no diagnostic superiority with respect to the procedures using artificial (i.e. magnetic and electrical) stimulation. However, in most cases of missing compound motor action potentials following transcranial magnetic stimulation or missing electrically evoked cortical potentials, the long-latency muscle responses still allowed quantitative assessment of sensorimotor function.     

诊断性经颅磁刺激研究进展

经颅磁刺激是一种无创性神经电生理学技术,经颅磁刺激运动诱发电位已广泛应用于运动皮质兴奋性与皮质延髓束、皮质脊髓束传导功能的评价。近年随着对磁刺激原理的深入了解和刺激线圈、刺激模式的不断多样化,经颅磁刺激在神经病学临床诊断中的应用不断拓展,逐渐形成更加科学和标准化的运动诱发电位操作流程。本文拟对诊断性经颅磁刺激常规刺激模式研究进展、特殊模式刺激方案,以及经颅磁刺激与脑电图、f MRI的联合应用进行综述。     

MRI and motor evoked potential findings in nondisabled multiple sclerosis patients with and without symptoms of fatique

Fatique is a common symptom of multiple sclerosis (MS) even in the early phases of the disease, when neurological disability is usually still not present. To investigate the pathophysiology of fatigue we compared neurophysiological (motor evoked potentials of the four limbs, MEPs) and brain magnetic resonance imaging (MRI) findings in two groups of nondisabled MS patients, those with (n=15) and those without (n=15) fatigue. Fatigue was assessed by an interview and scored by the Fatigue Severity Scale. The two groups were matched for sex, age, disease duration, Expanded Disability Status Scale score, pyramidal Functional System (FS) score, and depression score. MEPs were abnormal in five patients with fatigue and in one patient without fatigue. A significant association was found between the patient scores on the Fatigue Severity Scale, and the burden of MRI lesions (r=0.5; P<0.005). Significantly higher parietal lobe (P<0.05), internal capsule (P<0.05), and periventricular trigone (P<0.05) lesion loads were found in patients with fatigue than in those without. Our results agree with a central nervous system origin of fatigue in MS patients. This symptom might be a consequence either of a functional deafferentation of the cortex due to cortico-subcortical interconnection damage or of a demyelination in critical sites of the CNS, such as the cortico-spinal tract. Received: 15 December 1999, Received in revised form: 15 February 2000, Accepted: 26 February 2000     

Central motor conduction as a measure of disease progression in early multiple sclerosis

We monitored disease progression in 27 patients with clinically or laboratory-supported definite multiple sclerosis by means of clinical assessments [expanded disability status scale (EDSS), and the neurologic rating scale (NRS)] repeated at 6 month intervals for 2 years. Each clinical assessment was accompanied by evoked potentials (EP; visual, brain stem auditory, and somatosensory evoked potentials), motor evoked potentials elicited by magnetic stimulation, and magnetic resonance imaging of the brain and brain stem. Central conduction indices were calculated for each central pathway. According to the EDSS 18 patients deteriorated, eight were unchanged and one improved. The central motor conduction index (CMCI) was the only conduction parameter which correlated significantly with both EDSS and NRS at baseline [rho=0.51 (EDSS); -0.65 (NRS)], at final investigation, and when individual changes from baseline to final investigation were addressed (rho=0.38; -0.38). Individual deteriorations or improvements of the CMCI during the 2 years correlated with changes in both EDSS and NRS (rho = 0.51; -0.38). The MRI parameters did not correlate with the clinical scores. The concordance between MRI and CMCI in detection of disease activity was 63%. We conclude that the CMCI stands out as an objective, accurate and easily obtained outcome parameter.     

A transcranial magnetic stimulation study evaluating methylprednisolone treatment in multiple sclerosis

OBJECTIVE: To investigate the efficacy of two different high doses of intravenous methylprednisolone (IVMP) during Multiple Sclerosis (MS) relapses. BACKGROUND: Transcranial Magnetic Stimulation (TMS) is the most sensitive neurophysiological ascertainment to quantify motor disability, to follow the recovery from an MS relapse, and to detect the response to treatment. DESIGN AND METHOD: Twenty-four clinically definite relapsing - remitting MS patients presenting a relapse were randomly assigned to a treatment for 5 days with IVMP 1 or 2 g/day. The response to treatment of each patient was evaluated through Expanded Disability Status Scale (EDSS), Medical Research Council (MRC) score, and TMS by means of motor evoked potential (MEP) parameters. RESULTS: Motor threshold (MT), central motor conduction time (CMCT) and MRC showed a higher improvement with the highest dose of IVMP. Silent period and EDSS improved with both treatments. CONCLUSION: The dose of 2 g/day of IVMP is more effective in MS relapse.     

Motor cortex inhibition is not impaired in patients with Alzheimer's disease: evidence from paired transcranial magnetic stimulation

Motor cortex excitability was studied by transcranial magnetic stimulation (TMS) in 17 patients with Alzheimer’s disease (AD). Resting and active thresholds for TMS were significantly reduced in AD patients compared to young and aged healthy subjects. The maximum amplitude of the motor response evoked by TMS was also significantly increased in AD patients. We have tested if these changes are related to a modification of the short-lasting intracortical inhibition of the motor cortex by paired conditioning-test TMS. We found no significant differences between AD patients and aged healthy subjects even if there is a slight but significant difference between aged and young normal subjects. We conclude that the modification of excitability of the motor cortex does not result from an impaired intracortical inhibition.     

Transcranial magnetic stimulation and bladder function: A systematic review

ObjectiveWe aimed at assessing the usefulness of motor evoked potentials (MEPs) for exploring the integrity of striated sphincters and pelvic floor motor innervation in normal subjects and of repetitive transcranial magnetic stimulation TMS (rTMS) in patients with neurogenic bladder dysfunction.MethodsA systematic literature search was conducted using PubMed and Embase.ResultsWe identified, reviewed and discussed 11 articles matching the inclusion criteria.ConclusionsThe assessment of MEPs could represent a useful tool in the investigation of patients with urologic disorders. High frequency rTMS can improve detrusor contraction and/or urethral sphincter relaxation in patients with multiple sclerosis and bladder dysfunction. Low frequency (LF) rTMS seems to be an effective treatment of neurogenic lower urinary tract dysfunctions in subjects with Parkinson’s disease and possibly other neurodegenerative disorders. Furthermore, rTMS might have the potential to restore bladder and bowel sphincter function after incomplete spinal cord injury. LF rTMS could also relieve some symptoms of bladder pain syndrome and chronic pelvic pain.SignificanceThe clinical applicability of MEPs appears to be questionable, since a poor reproducibility was detected for all pelvic floor muscles. The use of rTMS in this field is emerging and the results of a few preliminary studies should be replicated in controlled, randomized studies with larger sample sizes.