Electromyography and nerve conduction study in autosomal dominant olivopontocerebellar atrophy

Electrophysiological evaluation of spinocerebellar ataxias 1, 2 and 3

INTRODUCTION

Subclinical neuropathy is an important feature of spinocerebellar ataxias (SCA) but the true prevalence and electrophysiological characteristics in genetically proven patients of SCA 1, 2 and 3 are largely unknown.

METHODS

We prospectively compared the electrophysiological characteristics of neuropathy in 61 genetically confirmed cases of SCA (SCA1=28, SCA2=16 and SCA3=17). Nerve conduction studies were performed in at least one sensory and one motor nerve, in right upper and lower limb using standard methods.

RESULTS

The mean age of patients and duration of illness were comparable among SCA groups (mean age (years): SCA1-34.1±12.7, SCA2-35.2±13.9 and SCA3-38.1±11.3; mean duration (years): SCA1-5.4, SCA2-6.1, and SCA3-4.4). Electrophysiological evidence of neuropathy was highest in SCA1 (96.4%), followed by SCA3 (94.1% and SCA2 (87.5%). A mixed sensorimotor neuropathy was commonly observed in all the subgroups (SCA1-78.6%, SCA2-50%, and SCA3-41.2%). Pure sensory neuropathy was most common in SCA3 (55.9%), followed by 31.3% in SCA2 and 17.9% in SCA1. Pure motor neuropathy was uncommon (6.3% in SCA2 and none in SCA1 and SCA3).

CONCLUSIONS

Electrophysiological evidence of mixed sensorimotor and pure sensory neuropathy is seen in all the three subtypes of SCAs, while pure motor neuropathy is distinctly uncommon.

Multimodal neurophysiological study of SCA2 and SCA3 autosomal dominant hereditary spinocerebellar ataxias

BACKGROUND

The spinocerebellar ataxias (SCA) are a group of genetic neurodegenerative diseases, clinically and pathologically heterogeneous, characterized by slowly progressive cerebellar ataxia.

OBJECTIVE

To identify the neural pathways affected neurophysiologically, correlate the findings with the size of CAG expansion and determine the contribution of neurophysiological studies in the differential diagnosis of the two most prevalent genotypes in Spain, SCA2 and SCA3.

METHOD

We examined 10 SCA2 and 12 SCA3 patients by electromyography, electroneurography motor and sensory, multimodal evoked potentials, transcranial magnetic stimulation, blink reflex and masseter reflex. In the statistical analysis linear regression studies were performed, and the, Spearman correlation coefficient and nonparametric test U of Mann-Whitney calculated.

RESULTS

We detected the presence of a predominantly sensory neuropathy in most SCA2 patients and in a minority of SCA3 patients; the central somatosensory pathway showed significant defects in both populations. We recorded a high incidence of brain-stem electrophysiological abnormalities in SCA2 patients; in particular, the masseter reflex was abnormal in all SCA2 patients, remaining intact in all SCA3 patients. The study of cortico-spinal pathway showed a greater percentage of abnormalities in both populations than in previous studies.

CONCLUSION

SCA2 is a model of sensory neuronopathy with central and peripheral axonopathy. Studies of brain-stem pathways show a higher incidence of abnormalities in SCA2 patients. SCA3 patients show major changes in the central somatosensory pathway with relative normality of the electroneurography. The masseter reflex was the most useful test in the differential diagnosis between both genotypes.

Electrophysiological features in patients and presymptomatic relatives with spinocerebellar ataxia type 2

Motor and sensitive nerve conduction studies, visual (VEP), brainstem auditory (BAEP) and somatosensory (SSEP) evoked potentials in 82 patients with spinocerebellar ataxia type 2 (SCA2), 62 presymptomatics relatives and 80 controls, correlating it with CAG repeat, disease duration and ataxia score were assessed. All the groups showed differences in the amplitude of sensory action potentials in median and sural nerves. Sural amplitude was negatively correlated with disease duration and ataxia score. Differences among patients and controls in the mean latency and conduction velocity of sensory action potentials were found. Abnormal morphology and replicability of SSEPs and BSAEPs were found in patients and presymptomatics. Moreover, consistent increase in latencies of P40 component of SSEPs, III and V peaks and I-III interpeak of BSAEPs was found in patients. A positive correlation was found between latency of III and V waves, I-III and III-V interpeak latencies of BSAEPs and disease duration. CAG repeat and electrophysiological markers assessed were not correlative. Electrophysiological alterations in the SCA2 appeared in presymptomatic stages. These alterations are consistent markers which could be used to evaluate the progression of the disease.

Anterior horn cell disease and olivopontocerebellar hypoplasia

To date, fewer than 30 cases of anterior horn cell disease with associated olivopontocerebellar hypoplasia have been reported. We describe five patients and review the literature on this uncommon disorder. In addition to a syndrome of progressive spinal muscular atrophy similar to that seen in Werdnig-Hoffmann disease, this disorder is characterised by hypoplasia of the olivary nuclei, pons, and cerebellum. Additional clinical features may include dysmorphism, abnormal eye movements, stridor, congenital joint contractures, and enlarged kidneys. Pontocerebellar hypoplasia may be associated with posterior fossa cystic malformations, cerebral atrophy, and a demyelinating neuropathy.

Polyneuropathy in autosomal dominant cerebellar ataxias: phenotype-genotype correlation

Autosomal dominant cerebellar ataxias (ADCAs) are clinically and genetically heterogeneous neurodegenerative disorders. The aim of this study was to evaluate electrophysiologically peripheral nervous system involvement in each of the groups studied and its correlation with the number of CAG repeats. Forty patients with ADCA were clinically and electrophysiologically investigated. Thirty-five patients belonged to the ADCA type I group (SCA1, 12; SCA2, 10; SCA3, 13) and five to the ADCA type II group. Axonal sensory or sensorimotor polyneuropathy was found in 42% of the SCA1 patients, 80% of the SCA2 patients, and 54% of the SCA3 patients, whereas electrophysiological studies were normal in all those with ADCA type II. The number of CAG repeats was significantly higher in SCA1 patients with polyneuropathy than in those without polyneuropathy (P = 0.01), whereas the reverse was observed in SCA3/MJD (Machado-Joseph disease) patients (P = 0.05). We conclude that axonal polyneuropathy is often associated with ADCA type I, but its frequency varies according to factors such as the locus responsible and the number of CAG repeats.

Correlation of peripheral nerve fiber loss and trinucleotide repeats in Machado-Joseph disease

BACKGROUND

Machado-Joseph disease (MJD) is a dominantly inherited cerebellar ataxia associated with spasticity, ophthalmoplegia and dystonia. There has been no report of electrophysiological or histological alterations of the peripheral nervous system in patients with MJD.

METHODS

Four patients with MJD were identified by polymerase chain reaction. The peripheral nerves of these patients were subjected to electrophysiological testing and histological study. Correlation analyses were made between various clinical parameters and the electrophysiological and histological changes.

RESULTS

Electrophysiological studies demonstrated a marked reduction of sensory action potential, acute denervation changes on needle EMG, as well as mild decrease in the compound motor action potential. Light microscopy of the sural nerves revealed clear loss of myelinated fibers, and morphometry studies showed a loss of large myelinated fibers. Moreover, the severity of these pathological changes was found to be related to the CAG repeat length in the MJD gene.

CONCLUSION

Our findings indicated that the peripheral nervous system was frequently affected in patients with MJD. These findings were similar to those seen in Friedreich's ataxia, suggesting a loss of sensory and motor fibers probably following a lesion of the dorsal root ganglion and the anterior horns in the spinal cord. Furthermore, the number of CAG repeats seems to have an inverse relationship to the extent of pathological changes of the peripheral nerves.

Transcranial magnetic stimulation in multiple system and late onset cerebellar atrophies

Central motor conduction time (CMCT) after transcranial magnetic stimulation (TMS) of the cortex, electromyography and nerve conduction velocity were performed in 24 patients with multiple system (MSA) and late onset cerebellar atrophy (LOCA) (often olivopontocerebellar atrophy--OPCA -). CMCT was abnormal in 7 patients with OPCA and one with LOCA. CMCT abnormalities (43% of cases) and increased threshold (68%) were more often found within OPCA group than in another multisystem atrophy and LOCA. Reduction in amplitude of the response after TMS was significantly correlated with cerebral hemispheres's atrophy. Increased threshold was correlated with upper vermal hemisphere atrophy and enlargement of the fourth ventricle. Electrophysiologic signs of mixed peripheral neuropathy were found in 8 patients. TMS abnormalities were not related to peripheral nerve involvement. Marked variation in CMCT suggests heterogeneity in these diseases. However, the percentage of CMCT abnormalities in OPCA group suggests that TMS seems to play a role in the neurophysiological diagnosis of these heterogeneous disorders.

Peripheral neuropathy in late onset spinocerebellar ataxia

We studied 10 patients with late onset spinocerebellar ataxia including electrophysiological and muscle biopsy examinations. Nerve conduction studies of eight patients revealed axonal neuropathy, and six cases also showed signs of the involvement of the lower motor neuron. In 9 patients quantitative analysis of single motor unit potentials (MUPs) of the tibialis anterior or biceps brachii muscles showed mild to severe neuropathic changes and in all 10 patients the histopathological examination of the tibialis anterior showed mild to severe neuropathic changes. Neither nerve conduction studies, quantitative MUP analysis, nor histological findings of the muscle were related to the severity of duration of the disease.

Involvement of somatosensory and visual pathways in late onset ataxia

Nerve conduction studies, median nerve somatosensory (SEPs) and pattern-reversal visual evoked potentials (VEPs) were recorded in 10 patients with late onset ataxia. Nine patients had dysfunction of somatosensory pathways, eight of them axonal polyneuropathy in nerve conduction measurements, and four had also impaired impulse conduction along the visual pathways. Abnormalities in records of evoked potentials occurred as prolonged latencies rather than reduced amplitudes. The observed dysfunction of peripheral and central pathways was not related to the duration or the severity of the clinical involvement by the disease. It is emphasized, however, that there seemed to be a relationship between the prolonged SEP latencies and the impaired peripheral nerve conduction values and between the diminished VEP amplitudes and the most delayed VEP latencies.

Sensory and motor peripheral neuropathy in olivopontocerebellar atrophy

We report the findings of an electrophysiological study in 9 patients affected by olivopontocerebellar atrophy, 4 with a dominant form and 5 with a sporadic form. Superficial peroneal nerve biopsy was obtained from 2 patients. The electrophysiological alterations were signs of collateral reinnervation and loss of motor units, decrease in sensory potential amplitude and increase in distal motor latency. Only a slight reduction in motor and sensory conduction velocity was observed in some cases. Nerve biopsy showed slight reduction of the number of myelinated fibres. In the first case, fibre diameter distribution was unimodal, due to reduction of myelinated fibres of large diameter, in the second case there was no significant alteration of the fibre distribution. In both cases short internodes were present with no signs of segmental demyelination, remyelination or axonal degeneration. The alterations observed in the peripheral nervous system are probably secondary to a lesion of the posterior root ganglion and the anterior horn cell in the spinal cord.