Utility of Paraneoplastic Antibody Testing in the Diagnosis of Motor Neuron Disease

OBJECTIVE

To evaluate the role of paraneoplastic autoantibody testing in the diagnosis of motor neuron disease (MND).

BACKGROUND

There have been rare case reports of paraneoplastic MND that have prompted many physicians to test for paraneoplastic autoantibodies in patients with MND. Our study is the first to determine the utility of such testing.

METHODS

Retrospective chart review of patients with MND from a tertiary referral center from 2007 to 2014.

RESULTS

Of 316 patients with MND reviewed, 44% (n = 138) were evaluated by a Mayo Clinic paraneoplastic autoantibody panel. Of note, 73% of these patients (n = 101) were diagnosed with amyotrophic lateral sclerosis, fulfilling possible, probable, or definite revised El Escorial criteria. Of note, 9% of patients (13/138) of those who had paraneoplastic antibody testing performed were positive for at least 1 paraneoplastic antibody. Three patients had negative testing for malignancy. None had a different disease course than expected.

CONCLUSIONS

Testing for paraneoplastic antibodies does not seem to change the diagnosis, management, or outcome in the setting of MND and is therefore of limited value.

Patterns of Weakness, Classification of Motor Neuron Disease, and Clinical Diagnosis of Sporadic Amyotrophic Lateral Sclerosis

When approaching a patient with suspected motor neuron disease (MND), the pattern of weakness on examination helps distinguish MND from other diseases of peripheral nerves, the neuromuscular junction, or muscle. MND is a clinical diagnosis supported by findings on electrodiagnostic testing. MNDs exist on a spectrum, from a pure lower motor neuron to mixed upper and lower motor neuron to a pure upper motor neuron variant. Amyotrophic lateral sclerosis (ALS) is a progressive mixed upper and lower motor neuron disorder, most commonly sporadic, which is invariably fatal. This article describes a pattern approach to identifying MND and clinical features of sporadic ALS.

Acute motor axonal neuropathy associated with pandemic H1N1 influenza A infection

Background

Guillain–Barre syndrome (GBS) is a well known entity that has many infectious agents reported as antecedent events. The spectrum of GBS includes acute inflammatory demyelinating polyneuropathy (AIDP), acute motor axonal neuropathy (AMAN), acute motor sensory axonal neuropathy (AMSAN), and some other variants like Miller-Fisher syndrome (MFS).

Methods

Patient with AMAN variant of GBS after severe bilateral pneumonia and ARDS due to the novel pandemic H1N1 influenza A virus is presented.

Results

28-year-old white female was admitted to our Intensive Care Unit during the influenza pandemic because of severe ARDS due to bilateral pneumonia. The course of the disease was complicated with the new onset tetraplegia due to the AMAN variant of GBS. Treatment with plasma exchange was conducted and the patient had satisfactory recovery.

Conclusion

We report a case of AMAN variant of GBS associated with proven H1N1 influenza A infection. This virus has not been reported previously as the agent of antecedent infection that induced this disorder. Risk factors for other causes of ICU neuromuscular weakness are usually present in the ICU patients and should not be the reason for reluctance in active quest for GBS. Once the diagnosis of GBS is established or suspected the treatment with plasma exchange or intravenous immune globulin is indicated.

Motor neurone disease: a practical update on diagnosis and management

Motor neurone disease (MND) is an adult-onset neurodegenerative disease which leads inexorably via weakness of limb, bulbar and respiratory muscles to death from respiratory failure three to five years later. Most MND is sporadic but approximately 10% is inherited. In exciting recent breakthroughs two new MND genes have been identified. Diagnosis is clinical and sometimes difficult--treatable mimics must be excluded before the diagnosis is ascribed. Riluzole prolongs life by only three to four months and is only available for the amyotrophic lateral sclerosis (ALS) form of MND. Management therefore properly focuses on symptom relief and the preservation of independence and quality of life. Malnutrition is a poor prognostic factor. In appropriate patients enteral feeding is recommended although its use has yet to be shown to improve survival. In ALS patients with respiratory failure and good or only moderately impaired bulbar function non-invasive positive pressure ventilation prolongs life and improves quality of life.

Primary lateral sclerosis, hereditary spastic paraplegia and amyotrophic lateral sclerosis: Discrete entities or spectrum?

Among the motor neuron diseases, three share the clinical features of prominent upper motor neuron signs--amyotrophic lateral sclerosis (ALS), primary lateral sclerosis (PLS) and the hereditary spastic paraplegias (HSP). While genetic testing can assist in the identification of several variants of the latter, in the remaining cases, including those in which spasticity may be associated with amyotrophy, clinical differentiation of the three disorders may prove difficult. In this paper we review the evidence that these are distinct disorders and conclude that, for ALS and PLS particularly, there may be justification in considering them as single points along a continuum of multisystem disorders with conspicuous motor neuron involvement. Only through the development and application of exacting clinical diagnostic criteria to epidemiological studies, along with greater numbers of post-mortem examinations, however, will these questions be answered fully.

The complex relation between genotype and phenotype in motor neuron disease

The success in mapping genetic loci and identifying mutant genes in familial neurodegenerative disease has outpaced our ability to understand the linkage between genotype and phenotype of disease. The results have led to a backlog of genetic information with limited clarification of underlying disease mechanisms. A major dilemma is how mutations in widely expressed proteins lead to degeneration or dysfunction of small subsets of neurons. The problem raises fundamental questions as to the nature and interrelation of pathways that maintain the homeostasis of differentiated neurons. The issue also bears on the pathogenesis of sporadic forms of disease and prospective efficacy of therapeutic applications. This review examines the problem as it relates to motor neuron disease.

Heterogeneity in motoneuron disease

Recently, mutations in several genes have been identified as primary causes for the degeneration of motoneurons and their axons. Strikingly, mutations in the same genes were associated with clinically different motoneuron syndromes. The identity of these genes also shed light on the mechanisms of motoneuron degeneration and revealed that overlapping motoneuron phenotypes might be caused by heterogeneous molecular mechanisms. Overall, these findings have challenged the diagnostic classification system set by clinical judgement and triggered the notion of heterogeneity in motoneuron disease. It will now be especially relevant to identify the mechanisms and principles that motoneuron diseases have in common, as this will allow us to identify the most relevant therapeutic targets. On the other hand, heterogeneity in motoneuron disease also implies that finding a monotherapy cure for motoneuron disease will be challenging and that pre-clinical testing of therapeutic targets should not be limited to a single animal model.

Are enteroviral receptors different in sporadic motor neuron disease?

Enteroviruses have been suspected to play a part in the pathogenesis of sporadic motor neuron disease (SMND). Intercellular adhesion molecule type-1 (ICAM1) and coxsackie and adenovirus receptor (CAR) act as receptors for a number of enteroviruses. We therefore examined the viral binding domains of ICAM1 and CAR to see if any changes could be found that might predispose to enteroviral infections. Single nucleotide polymorphisms in the ICAM1 viral binding domain, the adjacent intron and a region implicated in other neurological disorders, as well as the CAR viral binding regions in exons 2-5, were compared in 139 SMND patients and 139 matched controls. The distribution of the polymorphisms was similar in both groups. Therefore, based on linkage disequilibrium and genotype it is unlikely that either ICAM1 or CAR is implicated in SMND.

Genetics of motor neuron disease

The number of genes associated with motor neuron degeneration has increased considerably over the past few years. As more gene mutations are identified, the hope arises that certain common themes and/or pathways become clear. In this overview, we focus on recent discoveries related to amyotrophic lateral sclerosis (ALS), spinal muscular atrophies (SMA), and distal hereditary motor neuropathies (dHMN). It is striking that many of the mutated genes that were linked to these diseases encode proteins that are either directly or indirectly involved in axonal transport or play a role in RNA metabolism. We hypothesize that both phenomena are not only crucial for the normal functioning of motor neurons, but that they could also be interconnected. In analogy with the situation after acute stress, axonal mRNA translation followed by retrograde transport of the signal back to the nucleus could play an important role in chronic motor neuron diseases. We hope that information on the genetic causes of these diseases and the insight into the pathologic processes involved could ultimately lead to therapeutic strategies that prevent or at least slow this degenerative process.

Multifocal motor neuropathy with and without conduction block: a single entity?

OBJECTIVE

To assess if multifocal motor neuropathy (MMN) with and MMN without conduction block (CB) are similar or distinct diseases.

METHODS

The authors reviewed the clinical features and responses to IV immunoglobulin (IVIg) treatment of patients with MMN with and without CB at diagnosis, after 4 years of follow-up and at the last examination. They included all patients showing clinical features of MMN who had been followed for at least 4 years: All had asymmetric purely motor weakness with a peripheral nerve distribution, without any sensory, bulbar, or respiratory signs and without any upper motor neuron involvement.

RESULTS

Twenty patients had CB and 13 had no CB. Median follow-up time was 7 years. There were no differences between the two groups in term of age, sex, time from onset to diagnosis, anti-GM1 antibody titers, or CSF data. Nerve distribution, number of affected limb regions, predominant weakness in distal upper extremities, asymmetric weakness, cramps, fasciculations, and Medical Research Council sum-scores in upper and lower limbs were comparable at diagnosis, 4 years of follow-up, and last examination. Few significant differences were observed. Involvement of median nerve was less frequent at 4 years of follow-up (14/20 vs 4/13; p = 0.027) and at the last examination (17/20 vs 5/13; p = 0.009) in patients without CB. Proximal weakness was less frequent in patients with MMN without CB at the last examination (7/20 vs 0/13; p = 0.027). Fewer nerves were involved in patients without CB at the last examination (4.5 vs 2; p = 0.04). Efficacy of IVIg was similar in MNN patients without CB (8/13) and with CB (14/20; p > 0.05).

CONCLUSION

After a median follow-up time of 7 years, patients with and without conduction block showed similar clinical features and a similar response to IV immunoglobulin treatment.

Total antioxidant capacity of cerebrospinal fluid is decreased in patients with motor neuron disease

Oxidative stress has been associated with motor neuron disease (MND). The human body has several antioxidant defense systems to repair the damage caused by oxidative stress. The activity of these systems is thought to be reduced in neurodegenerative diseases, which may increase the level of oxidative damage and be a contributing factor to motor neuron death. In the present study, we compared the total antioxidant capacity (TAC) of human serum and cerebrospinal fluid (CSF) of MND patients with that of a control group including patients with migraine, tension headache and psychiatric disorders. Within-subject serum and CSF TAC were strongly correlated (r=0.639; p=0.000), and CSF TAC was significantly lower in MND patients as compared to controls after adjustment for known influencing factors (112.7 micromol Fe/L+/-11.7 versus 135.2 micromol Fe/L+/-19.7; p=0.012). No differences in serum or CSF TAC were observed among the clinical forms of MND considered in this work. In conclusion, the CSF TAC was strongly correlated with serum TAC, and a decrease in CSF TAC was demonstrated in MND patients compared to controls that was not independent from serum antioxidants, this translating in a systemic (but prevailing in the CNS) oxidative damage in this pathology.

Amyotrophic Lateral Sclerosis: Diffusion-Tensor and Chemical Shift MR Imaging at 3.0 T

PURPOSE

To prospectively determine whether diffusion-tensor magnetic resonance (MR) imaging in conjunction with two-dimensional chemical shift imaging can assist in identifying upper motor neuron involvement and whether disease severity and duration can be predicted based on imaging parameters in patients with amyotrophic lateral sclerosis (ALS).

MATERIALS AND METHODS

Institutional review board approval and informed consent were obtained for this HIPAA-compliant study. Fifteen patients with ALS (12 men, three women; mean age, 57.3 years) with clinical evidence of upper motor neuron involvement and 10 healthy control subjects (five men and five women; mean age, 49.4 years) were studied. Fractional anisotropy (FA) and apparent diffusion coefficient (ADC) were measured from the corticospinal tracts at the level of the internal capsule. Average N-acetylaspartate (NAA)/creatine-phosphocreatine (Cr) and NAA/choline-containing compounds (Cho) ratios were calculated from the precentral gyrus. Student t test, multiple linear regression analysis, and Spearman correlation coefficients were employed to quantify relationships between imaging and clinical parameters.

RESULTS

Patients with ALS exhibited significantly reduced FA values and NAA/Cr and NAA/Cho ratios compared with values in control subjects (P<.05) for both affected and nonaffected sides of the brain. ADC was elevated significantly in the affected side (P<.05) and was an independent predictor of disease duration after adjusting for age; however, FA values and NAA/Cr ratios for the affected side were even stronger predictors of disease duration. Moderate but statistically significant correlation was found between the FA values for the affected side and the ALS Functional Rating Scale Revised (ALSFRS-R) score (r=0.51, P<.05). The NAA/Cr ratio also correlated with both the ALSFRS-R and upper motor neuron scores (r=0.50 and 0.54, respectively; P<.05).

CONCLUSION

Diffusion-tensor and two-dimensional chemical shift MR imaging spectroscopy can be used to identify upper motor neuron involvement and predict disease duration in patients with ALS.

The natural history of primary lateral sclerosis

OBJECTIVE

To define the syndrome of primary lateral sclerosis (PLS) and disorders that contain features of both ALS and PLS, to determine the time beyond which PLS is less likely to become ALS clinically, and to determine the outcome of people with PLS and those who develop lower motor neuron (LMN) signs.

METHODS

The authors reviewed the records of all 39 patients initially diagnosed with PLS in 1984 to 2004. Diagnostic subgroups were defined based on clinical features. The authors used Kaplan-Meier methods to estimate the time to diagnosis, linear regression analyses to assess function, and a Cox proportional hazard model to assess survival in subgroups.

RESULTS

Of the 39 patients, 29 had only upper motor neuron (UMN) signs on initial evaluation. Thirteen of the 29 were later classified as having UMN-dominant ALS (UMN-D) because they acquired evidence of denervation by EMG (3.17 years) or examination (3.67 years). Sixteen of the 29 patients, classified as clinically pure PLS, retained only UMN signs and a normal EMG (mean follow-up 8.7 years). Ten patients who met criteria for ALS at the initial visit were used as controls. The UMN-dominant ALS group had lower functional scores (p = 0.033) than the PLS group, and similar scores to those with ALS. Survival was longer in both the PLS group (p = 0.027) and the UMN-D group (p = 0.067) than the ALS group.

CONCLUSIONS

Clinically pure PLS can be defined by isolated UMN signs 4 years after symptom onset, and is a syndrome of slow progression with high levels of function. Prior to the fourth year, the diagnosis of PLS cannot be made with certainty because many patients develop LMN signs. UMN-dominant ALS, defined by predominantly UMN disease with minor LMN signs, has disability similar to ALS, but slower progression.

Survival in two variants of tau-negative frontotemporal lobar degeneration: FTLD-U vs FTLD-MND

Pathologic diagnoses in frontotemporal lobar degeneration (FTLD) include tau-positive FTLD and tau-negative FTLD. Two variants of tau-negative FTLD are FTLD with motor neuron disease (FTLD-MND) and FTLD with motor neuron disease type inclusions but without motor neuron disease (FTLD-U). An analysis of patient outcomes in these cases reveals that FTLD-MND has significantly shorter survival than FTLD-U, suggesting that FTLD-MND is a more aggressive disease process.

Clinicopathologic analysis of frontotemporal and corticobasal degenerations and PSP

OBJECTIVE

To examine the relationship between early clinical features, pathologies, and biochemistry of the frontotemporal lobar degenerations (FTLDs), progressive supranuclear palsy (PSP), and corticobasal degeneration (CBD).

METHODS

The authors conducted pathologic reexamination with the most recent immunohistochemistry of all cases diagnosed with FTLD, PSP, and CBD between 1970 and 2004. The authors also reviewed the early clinical features for clinical diagnosis and application of published research criteria.

RESULTS

Of 127 cases analyzed, 57 had a pathologic diagnosis of FTLD, 49 PSP, and 21 CBD. Of these, 38 were clinically reclassified as frontal variant frontotemporal dementia (FTD), 13 as progressive non-fluent aphasia (PNFA), 21 as CBD-like, 33 as PSP-like, and 13 with frontotemporal dementia with coexisting motor neuron disease (FTD-MND). The authors were unable to classify nine cases. All cases of FTD-MND were tau-negative and had pathologic evidence of motor neuron degeneration. All cases classified as PSP-like or CBD-like had tau-positive pathology. Of the 13 cases with PNFA, PSP and CBD accounted for almost 70% of the cases, while FTD was almost equally divided between tau-positive and tau-negative diseases.

CONCLUSION

Frontotemporal lobar degeneration, corticobasal degeneration (CBD), and progressive supranuclear palsy (PSP) have overlapping clinical features. The prediction of tau-positive pathology from a CBD or PSP-like presentation is good, while the frontotemporal dementia (FTD)-motor neuron disease syndrome almost certainly predicts motor neuron degeneration. Surprisingly, PSP and CBD accounted for most cases classified as progressive non-fluent aphasia. Frontal variant FTD is an unpredictable disease in terms of its biochemistry.

A novel method for automated EMG decomposition and MUAP classification

OBJECTIVE

This paper proposes a novel method for the extraction and classification of individual motor unit action potentials (MUAPs) from intramuscular electromyographic signals.

METHODOLOGY

The proposed method automatically detects the number of template MUAP clusters and classifies them into normal, neuropathic or myopathic. It consists of three steps: (i) preprocessing of electromyogram (EMG) recordings, (ii) MUAP detection and clustering and (iii) MUAP classification.

RESULTS

The approach has been validated using a dataset of EMG recordings and an annotated collection of MUAPs. The correct identification rate for MUAP clustering is 93, 95 and 92% for normal, myopathic and neuropathic, respectively. Ninety-one percent of the superimposed MUAPs were correctly identified. The obtained accuracy for MUAP classification is about 86%.

CONCLUSION

The proposed method, apart from efficient EMG decomposition addresses automatic MUAP classification to neuropathic, myopathic or normal classes directly from raw EMG signals.

Diagnostic investigation and multidisciplinary management in motor neuron disease

Amyotrophic lateral sclerosis (ALS) is the most common adult-onset motor neuron disease. ALS is a progressive neurodegenerative disorder, involving motor neurons in the cerebral cortex, brainstem and spinal cord, presenting with a combination of upper and lower motor neuron signs. Etiology remains undetermined, although a multifactorial origin is widely accepted including genetic factors, auto-immunity, oxidative stress, glutamate excitotoxicity and abnormal neurofilament aggregation. The absence of specific diagnostic testing, and variable clinical presentations make the diagnosis of ALS challenging, relying upon correlation of clinical, electrophysiological and neuroimaging data. The disease is relentlessly progressive, with dysarthria, dysphagia, tetraparesis, and respiratory insufficiency due to ongoing respiratory muscle paresis. There is no specific treatment for ALS. Riluzole, a glutamate antagonist, is the only FDA approved drug for ALS, but has only a modest effect on survival. The multiplicity and progressiveness of the disabilities in ALS, highlights the need for a coordinated multidisciplinary rehabilitation program managing symptoms, respiratory care, dysphagia and nutrition, dysarthria and communication, physical and occupational therapy. The main goals are to prolong independence, prevent complications and improve quality of life.

The future of motor neuron disease: the challenge is in the genes

Adult-onset motor neuron disease (MND) includes sporadic and familial forms of amyotrophic lateral sclerosis (ALS), lower motor neuron disease including progressive and segmental spinal muscular atrophy (LMND) and primary lateral sclerosis (PLS). ALS/MND can be considered to be a spectrum of neurodegenerative diseases characterised by a preferential degeneration of upper and/or lower motor neurons. ALS and LMND have a complex multifactorial aetiology and a large clinical variability. This combination warrants an increasing genomics approach in future research. Genomics is the structural and functional study of genomes--i. e. the complete set of chromosomes and the genes they contain. Several methods may help to understand gene functions, and every method has led to its own "omics". The study of the complex relationship between on the one hand genomics data, transcriptomics data, proteomics data, and interactomics data and on the other hand the phenotype, is called "phenomics". In phenomics, the extensive and detailed phenotyping by the clinician is a prerequisite for meaningful associations. As a consequence, in ALS/MND clinicians have the task to agree about different clinical subtypes in order to make these associations and hence to gain further insight into the complex pathogenesis and identification of diagnostic markers in ALS/MND. Also, several new approaches in the treatment of ALS/MND are here discussed, including the viral delivery of protective compounds, RNA-interference, and stem cell therapy. Further, we argue that a future challenge is to allow for patients to have early access to multidisciplinary centres with specialist knowledge of ALS/MND. These centres can apply specific models of care for people with ALS/MND, but must be designed in a patient-centred format. Ultimately, these models should be assessed according to their outcomes.

Frontotemporal lobar degeneration with motor neuron disease-type inclusions predominates in 76 cases of frontotemporal degeneration

This report presents the largest series of consecutive, neuropathologically confirmed cases of frontotemporal degeneration (FTD). Prior studies have found dementia lacking distinctive histology (DLDH) to be the most common pathology underlying the clinical diagnosis of FTD. In this series of 76 cases, 29 (38%) were found to have frontotemporal lobar degeneration with motor neuron disease-type inclusions (FTLD-MND-type) or FTLD-MND (with ALS), the most common neuropathological classification in our series. Only eight (11%) were classified as Pick's disease. Several cases originally designated as DLDH could be reclassified as FTLD-MND-type based on current recommendations for classification of FTD.

Comparative efficacy and safety of skeletal muscle relaxants for spasticity and musculoskeletal conditions: a systematic review

Skeletal muscle relaxants are a heterogeneous group of medications used to treat two different types of underlying conditions: spasticity from upper motor neuron syndromes and muscular pain or spasms from peripheral musculoskeletal conditions. Although widely used for these indications, there appear to be gaps in our understanding of the comparative efficacy and safety of different skeletal muscle relaxants. This systematic review summarizes and assesses the evidence for the comparative efficacy and safety of skeletal muscle relaxants for spasticity and musculoskeletal conditions. Randomized trials (for comparative efficacy and adverse events) and observational studies (for adverse events only) that included oral medications classified as skeletal muscle relaxants by the FDA were sought using electronic databases, reference lists, and pharmaceutical company submissions. Searches were performed through January 2003. The validity of each included study was assessed using a data abstraction form and predefined criteria. An overall grade was allocated for the body of evidence for each key question. A total of 101 randomized trials were included in this review. No randomized trial was rated good quality, and there was little evidence of rigorous adverse event assessment in included trials or observational studies. There is fair evidence that baclofen, tizanidine, and dantrolene are effective compared to placebo in patients with spasticity (primarily multiple sclerosis). There is fair evidence that baclofen and tizanidine are roughly equivalent for efficacy in patients with spasticity, but insufficient evidence to determine the efficacy of dantrolene compared to baclofen or tizanidine. There is fair evidence that although the overall rate of adverse effects between tizanidine and baclofen is similar, tizanidine is associated with more dry mouth and baclofen with more weakness. There is fair evidence that cyclobenzaprine, carisoprodol, orphenadrine, and tizanidine are effective compared to placebo in patients with musculoskeletal conditions (primarily acute back or neck pain). Cyclobenzaprine has been evaluated in the most clinical trials and has consistently been found to be effective. There is very limited or inconsistent data regarding the effectiveness of metaxalone, methocarbamol, chlorzoxazone, baclofen, or dantrolene compared to placebo in patients with musculoskeletal conditions. There is insufficient evidence to determine the relative efficacy or safety of cyclobenzaprine, carisoprodol, orphenadrine, tizanidine, metaxalone, methocarbamol, and chlorzoxazone. Dantrolene, and to a lesser degree chlorzoxazone, have been associated with rare serious hepatotoxicity.

Riluzole for amyotrophic lateral sclerosis (ALS)/motor neuron disease (MND)

BACKGROUND

Riluzole 100 mg probably prolongs survival in patients with amyotrophic lateral sclerosis by about two months and the safety of the drug is not a major concern. The evidence from randomized controlled trials indicates that patients taking riluzole probably survive longer than patients taking placebo. The beneficial effects are very modest and the drug is expensive. Adverse effects from riluzole are relatively minor and for the most part reversible after stopping the drug. Riluzole has been approved for treatment of patients with amyotrophic lateral sclerosis in many countries but not all. Questions persist about its clinical utility because of high cost, modest efficacy and concern over adverse effects.

OBJECTIVES

To examine the efficacy of riluzole in prolonging survival, and in delaying the use of surrogates (tracheostomy and mechanical ventilation) to sustain survival.

SEARCH STRATEGY

Search of the Cochrane Neuromuscular Disease Group Register for randomized trials and enquiry from authors of trials, Aventis (manufacturer of riluzole) and other experts in the field. The most recent search was November 2002.

SELECTION CRITERIA

Randomized trials of adults with diagnosis of amyotrophic lateral sclerosis (ALS), treated with riluzole or placebo. Types of outcome measures: Primary: pooled hazard ratio of tracheostomy-free survival over all time points with riluzole 100 mg. Secondary: per cent mortality as a function of time with riluzole 100 mg and other doses of riluzole; neurologic function, quality of life, muscle strength and adverse events.

DATA COLLECTION & ANALYSIS

We identified four eligible randomized trials. Each reviewer graded them for methodological quality. Data extraction was performed by a single reviewer and checked by two others. We obtained some missing data from investigators and regulatory agencies. We performed meta-analyses with Review Manager 4.1 software using a fixed effects model. A test of drug efficacy was based on the Parmar pooled hazard ratio.

RESULTS

The three trials examining tracheostomy-free survival included a total of 876 riluzole treated patients and 406 placebo treated patients. The data for tracheostomy-free survival was not available from the fourth trial. The methodological quality was acceptable and the three trials were easily comparable, although one trial included older patients in more advanced stages of amyotrophic lateral sclerosis. Riluzole 100 mg per day provided a benefit for the homogeneous group of patients in the first two trials (p=0.039, hazard ratio 0.80, 95% confidence interval 0.64 to 0.99) and there was no evidence of heterogeneity (p=0.33). When the third trial (which included older and more seriously affected patients) is added, there is evidence of heterogeneity (p<0.0001) and the random effects model, which takes this into account results in the overall treatment effect estimate falling just short of significance (p=0.056, hazard ratio 0.84, 95% confidence interval 0.70 to 1.01). This represents a 9% gain in the probability of surviving one year (57% in the placebo and 66% in the riluzole group). In secondary analyses of survival at separate time points, there was a significant survival advantage with riluzole 100 mg at six, nine, 12 and 15 months, but not at three or 18 months. There was a small beneficial effect on both bulbar and limb function, but not on muscle strength. There were no data on quality of life, but patients treated with riluzole remained in a more moderately affected health state significantly longer than placebo-treated patients (weighted mean difference 35.5 days, 95% confidence interval 5.9 to 65.0). A threefold increase in serum alanine transferase was more frequent in riluzole treated patients than controls (weighted mean difference 2.69, 95% confidence interval 1.65 to 4.38).

CONCLUSIONS

Riluzole 100 mg daily is reasonably safe and probably prolongs survival by about two months in patients with ALS. More studies are needed, especially to clarify its effect in older patients (over 75 years), and those with more advanced disease.

Neuronal intranuclear inclusions distinguish familial FTD-MND type from sporadic cases

Ubiquitin-immunoreactive (ub-ir) neuronal cytoplasmic inclusions are characteristically found in the extramotor cortex in patients with motor neuron disease and dementia (MND-dementia) and a subset of patients with frontotemporal dementia without motor symptoms (FTD-MND type). Recently, ub-ir neuronal intranuclear inclusions have been described in a small number of patients with familial FTD-MND type. To better define the sensitivity and specificity of this pathological change, we examined postmortem tissue from 14 patients with FTD-MND type (8 familial, 6 sporadic), 10 cases of MND-dementia (5 familial, 5 sporadic), and 19 cases of MND with no history of cognitive dysfunction (2 familial, 17 sporadic). Numerous intranuclear inclusions were found in multiple anatomic sites in 6/8 cases of familial FTD-MND. Rare intranuclear inclusions were present in the hippocampal dentate granule cells in 1 case of familial MND-dementia. No sporadic cases had intranuclear inclusions. These findings suggest that intranuclear inclusions are specific for familial FTD and may identify a subset of families with a common molecular pathogenesis. Although intranuclear inclusions are most characteristic of families in which the clinical presentation is pure FTD, they may also be found in some pedigrees with both FTD and MND; further supporting the hypothesis that FTD-MND type and MND-dementia represent a clinicopathological spectrum of disease.

Chronic dysimmune neuropathy. A subclassification based upon the clinical features of 102 patients

The Chronic Dysimmune neuropathies (CDN) are a clinically heterogeneous group of polyneuropathies united by their presumed immune mediated aetiology. At present such neuropathies are classified as Chronic Inflammatory Demyelinating Polyneuropathy (CIDP), Multifocal Motor Neuropathy (MMN) and the Neuropathies in association with serum Paraproteins (Paraproteinaemic Neuropathies). This classification fails to recognise other distinctive syndromes and is limited by heterogeneity within, and overlap between, subgroups. We have refined this clinical subclassification by a review of a consecutive series of 102 unselected patients with CDN referred to a single neurologist. We recognise 6 clinical subtypes of CDN: one sensory ataxic group; three motor-sensory subgroups (chronic motor sensory demyelinating neuropathy, subacute motor sensory demyelinating neuropathy and a multifocal motor sensory neuropathy); and two pure motor subgroups (symmetric pure motor demyelinating neuropathy and multifocal motor neuropathy). This subclassification allows distinct syndromes to be recognised and helps resolve problems of heterogeneity and overlap. Distinction between these subgroups is of immediate practical relevance to patient management. Although steroids are beneficial for most of the subgroups, this is not so for both of the pure motor syndromes which should be treated with intravenous immunoglobulin. Patients with chronic development of Motor Sensory Demyelinating Neuropathy respond less well to steroids than those with a subacute onset. An association was found between elderly patients with Subacute Motor Sensory Demyelinating Neuropathy and carcinomas. Within any clinical subgroup patients behave similarly regardless of the presence of associated paraproteins or nerve specific antibodies.

Sporadic lower motor neuron disease with adult onset: classification of subtypes

The discovery of the genetic basis of hereditary lower motor neuron disease (LMND) and the recognition of multifocal motor neuropathy as a distinct clinical entity necessitate a new classification of LMND. To this end, we studied the clinical and electrophysiological features of 49 patients with sporadic adult-onset LMND in a cross-sectional study. Disease duration was more than 4 years to exclude the majority of patients with amyotrophic lateral sclerosis. Based on the pattern of weakness, we identified three groups: 13 patients with generalized weakness (group 1); eight patients with symmetrical, distal muscle weakness (group 2); and 28 patients with non-generalized asymmetrical weakness of the arms in most patients (group 3). Group 3 could be subdivided into patients with weakness in predominantly the distal (group 3a) or the proximal (group 3b) muscle groups, both with disease progression to adjacent spinal cord segments. Distinctive features of group 1 were an older age at onset, more severe weakness and muscle atrophy, lower reflexes, greater functional impairment, more widespread abnormalities on concentric needle EMG, respiratory insufficiency and serum M-protein. In groups 2 and 3, concentric needle EMG findings also suggested a more widespread disease process. Retrospectively, the prognosis of sporadic adult-onset LMND appears to be favourable, because clinical abnormalities were still confined to one limb in most patients after a median disease duration of 12 years. We propose to classify the patients in the different subgroups as slowly progressive spinal muscular atrophy (group 1), distal spinal muscular atrophy (group 2), segmental distal spinal muscular atrophy (group 3a) and segmental proximal spinal muscular atrophy (group 3b). The described clinical phenotypes may help to distinguish between different LMND forms.

Primary lateral sclerosis: A heterogeneous disorder composed of different subtypes?

OBJECTIVE

To determine identifiable subgroups of patients with primary lateral sclerosis (PLS) with distinct clinical features as a first step in identifying patients likely to have the same disorder.

METHODS

Twenty-five patients meeting previously proposed diagnostic criteria for PLS were seen for examination, measurement of gait and finger tapping speed, and physiologic tests to assess motor pathways. Motor cortex excitability and central motor conduction time were assessed with transcranial magnetic stimulation. Brainstem motor pathways were assessed by the acoustic startle reflex. MRS was performed in a subgroup of patients to assess metabolites in the motor cortex.

RESULTS

Fifty-six percent of the patients with PLS had a similar pattern of symptom progression, which the authors termed ascending. In these patients spasticity began in the legs and progressed slowly and steadily. Spasticity in the arms developed 3.6 years after the legs, on average, and speech impairment followed 1.5 years later. Motor evoked potentials were absent. MRS showed a mean reduction of N-acetylaspartate/creatinine in the motor cortex. The remaining patients with PLS had heterogeneous patterns of symptom progression and physiology.

CONCLUSIONS

Patients with PLS with an ascending progression of symptoms form a distinct clinical subgroup that may be amenable to investigations of etiology and treatment.

Hereditary motor neuropathies and motor neuron diseases: which is which

When Charcot first defined amyotrophic lateral sclerosis (ALS) he used the clinical and neuropathological pattern of vulnerability as a guideline. Similarly other motor neuron diseases such as the spinal muscular atrophies (SMA) and the motor neuropathies (MN) were grouped following clinical criteria. However, ever since the etiology of these diseases has started to be disclosed by genetics, we have learnt that the limits of the syndromes are not as well defined as our forefathers thought. A mutation leading to ALS can also be associated with the clinical picture of spinal muscular atrophy; even more unexpected is the overlap of the so-called motor neuropathies with the clinical syndrome of slowly progressive ALS or that primary lateral sclerosis (PLS) can be caused by the same gene as that responsible for some cases of ALS. In this review we summarise recent work showing that there is a considerable overlap between CMT, MN, SMA, ALS and PLS. Insights into these phenotypes should lead to study of the variants of motor neuron disease and possibly to a reclassification. This comprehensive review should help to improve understanding of the pathogenesis of motor neuron degeneration and finally may aid the research for urgently needed new treatment strategies, perhaps with validity for the entire group of motor neuron diseases.

Motor neurone disease

Motor neurone disease (MND), or amyotrophic lateral sclerosis (ALS), is a neurodegenerative disorder of unknown aetiology. Progressive motor weakness and bulbar dysfunction lead to premature death, usually from respiratory failure. Confirming the diagnosis may initially be difficult until the full clinical features are manifest. For all forms of the disease there is a significant differential diagnosis to consider, including treatable conditions, and therefore specialist neurological opinion should always be sought. Clear genetic inheritance has been demonstrated in a minority of patients with familial ALS but elucidation of the biological basis of genetic subtypes is also providing important information which may lead to treatments for sporadic forms of the disease. In the absence of curative or disease modifying therapy, management is supportive and requires a multidisciplinary approach. If, as seems likely, complex inherited and environmental factors contribute to the pathogenesis of MND, future treatment may involve a combination of molecular based treatments or restoration of cellular integrity using stem cell grafts.

ALS, motor neuron disease, and related disorders: a personal approach to diagnosis and management

Motor neuron disease, from diagnostic criteria, laboratory evaluation, communication with patients and their families, and the approach to long-term management represents a daunting challenge for many neurologists. Contained herein is a selective and biased discussion of several common dilemmas and questions that reflect recurring themes in the evaluation and management of patients with suspected motor neuron disease. The answers to these questions represent the author's opinions and are colored by personal experience, pearls graciously given to me by other experts in the field, and selected studies from the neuromuscular literature.

Expression of nitric oxide synthases in the anterior horn cells of amyotrophic lateral sclerosis

The authors investigated for a correlation between the expression of nitric oxide synthases (NOSs) with the severity of motor neuronal loss in the anterior horns of patients with amyotrophic lateral sclerosis (ALS). Spinal cords from six patients with ALS and from three normal controls were examined. The sections of cervical, lumbar, and sacral cord including Onuf's nucleus, which are seldom degenerated until the late stage, were stained with three antibodies against NOSs (anti-n-NOS, anti-e-NOS, and anti-i-NOS) using ABC methods. Perikarya of motor neurons in ALS, but not in controls, were immunoreactive against anti-n-NOS and e-NOS. Anti-i-NOS did not recognize the motor neurons of ALS or of controls. The immunoreactivity for n- and e-NOSs was approximately the same in the sections of cervical, lumbar, and sacral cord in ALS. No significant differences in immunoreactivity were observed among the patients with ALS. These results suggest that the expression of NOSs does not immediately affect neuronal loss in ALS.

Does primary lateral sclerosis exist? A study of 20 patients and a review of the literature

The question of whether primary lateral sclerosis (PLS) is a nosological entity distinct from amyotrophic lateral sclerosis (ALS) has been the subject of controversy since it was first described in the nineteenth century. PLS has been defined as a rare, non-hereditary disease characterized by progressive spinobulbar spasticity, related to the selective loss of precentral pyramidal neurones, with secondary pyramidal tract degeneration and preservation of anterior horn motor neurones. In the recent clinical literature, the frontier between ALS and neurodegenerative disease remains poorly defined. We studied 20 patients with a diagnosis of PLS. We carried out a variety of tests in order to determine the presence of a more diffuse neurodegenerative process. We also performed a longitudinal electrophysiological evaluation. Our clinical, electrophysiological and pathological investigations provide evidence that the disease has a heterogeneous clinical presentation and that degeneration is not restricted to the central motor system.

Vecuronium-associated axonal motor neuropathy: a variant of critical illness polyneuropathy?

Neuromuscular blocking agents are routinely used as an adjunct therapy for critically ill patients. Unlike many neuromuscular blocking agents, vecuronium does not cause significant histamine release, which may lead to bronchoconstriction. Due to a short duration of action and limited accumulation, vecuronium has been widely used. Prolonged ventilatory dependence due to persistent neuromuscular blockade has been reported in patients treated with vecuronium. We report a case of an 8-year-old girl who had a primarily motor axonopathy presenting with weakness after extended vecuronium administration with prolonged course of recovery. This primarily motor neuropathy with axonal features may be a variant of critical illness polyneuropathy, a rarely reported condition in pediatric patients.

Classification and description of frontotemporal dementias

A number of distinct clinical syndromes have been described that are associated with focal degeneration of the frontal and temporal lobes and have a non-Alzheimer pathology. The nosological status of frontotemporal lobar degeneration (FTLD) has been a matter of controversy, in view of the diversity of clinical manifestations and distribution and nature of histopathological change. This paper describes the major clinical syndromes of frontotemporal dementia, progressive aphasia, and semantic dementia; it discusses their underlying pathologies and considers their molecular status. Common histopathological changes are demonstrated across the three clinical syndromes, highlighting the link between these clinical disorders. It has been suggested that these disorders should be regarded as tauopathies on the basis of the tau pathology seen in a number of cases and the mutations in the tau gene in some familial cases. However, in a series of 47 consecutive autopsy series of FTLD, only 36% had tau pathology and 10% mutations in the tau gene, suggesting that FTLD does not constitute a unitary etiological disorder and that its characterization as a tauopathy may be potentially misleading.

Disease status and use of ventilatory support by ALS patients. BDNF Study Group

INTRODUCTION

Use of mechanical ventilation (MV), administered either invasively via tracheostomy, or more commonly non-invasively (CPAP, BiPAP), appears to be increasing in ALS. No prospective databases exist that describe the behavior of physicians and patients and the criteria for instituting MV in ALS.

METHODS

387 placebo patients in a Phase III trial of r-metHuBDNF were followed for 9 months. Although the use of MV was not the primary end-point of the trial, information was gathered regarding it by cataloging respiratory adverse events and tracking health resource utilization.

RESULTS

35 of 387 patients utilized MV during the trial. Twenty-eight (7%) patients received BiPAP. Seven (2%) were tracheotomized without first receiving BiPAP. Forced vital capacity (FVC): BiPAP patients had a mean ( SEM) FVC% of 71.8 +/- 2.8% and ALSFRS of 27.7 +/- 1.0 at baseline; non-BiPAP patients had a mean baseline FVC% of 88.7 +/- 1.0%, and an ALSFRS of 30.3 +/- 0.3. Symptom duration at entry was similar for both groups (2.1 +/- 0.4 years vs. 2.1 +/- 0.1 years). At the time of first use of BiPAP, average FVC% was 47.5 +/- 4.0% and ALSFRS score was 22.4 +/- 1.5. The range of FVC% at start of BiPAP was 15-87. The nine-month survival was 67.9% for BiPAP patients vs. 86% for non-BiPAP patients. The use of BiPAP varied tremendously among the 38 study sites, with some not employing it at all and others using it in as many as 40% of patients.

CONCLUSIONS

Of the 9% of placebo patients who received MV, BiPAP patients were more rapidly progressing than non-BIPAP patients, and showed a greater eventual mortality rate. Patients began MV at a wide range of values of FVC%, and centers differed in their prescribing practices. Factors influencing BiPAP use are complex, and not strictly related to FVC%.

Phenotypic differences between African and white patients with motor neuron disease: a case-control study

There is increasing evidence that race may affect the phenotype in some neurodegenerative diseases. To investigate this in motor neuron disease a retrospective case-control study has been carried out on 15 negroid African and 45 white patients with the disease seen over 8 years. Each African was compared with three age and sex matched white patients with motor neuron disease. There were no statistically significant differences in age of onset or the mean duration of disease in the two groups. The chance of presenting with the "flail arm" variant of motor neuron disease was four times as high in the African group than the white group (odds ratio 4.33, p=0. 05, 95% confidence interval 0.99-18.92). Although no overall differences in survival were seen between the two groups, in those with the flail arm variant, four out of the six African patients had died whereas all six white arm patients were alive at the censoring date of 1 January 1999 (median follow up 38.5 months). It is concluded that race may influence the phenotype and progression of motor neuron disease.

Motor neuron disease: classification and nomenclature

The classification and nomenclature of motor neuron disease, whether sporadic or familial, is confused. For example, both the sporadic and familial motor neuron diseases are phenotypically heterogeneous and, in familial ALS, phenotypic heterogeneity correlates only weakly with different underlying mutations in the SOD1 gene. We propose a classification which is based on underlying causative mechanisms, where these are known, but which also recognizes different clinical phenotypes when the cause is unknown. This classification is flexible, and allows reattribution of clinical syndromes when their causation is understood. Currently uncertain associations--for example, a possible association of ALS with cancer--are given tentative recognition in this classification. In addition, this new classification recognizes geographical clustering and descriptions of unusual motor neuron disorder phenotypes of unknown origin in different parts of the world.

MRI findings in Hirayama's disease: flexion-induced cervical myelopathy or intrinsic motor neuron disease?

Hirayama's disease is a benign juvenile form of focal amyotrophy affecting the upper limbs. Previous studies have suggested that the disorder is a neck flexion induced cervical myelopathy. We report clinical and magnetic resonance imaging findings in nine patients with Hirayama's disease. Cervical imaging of seven patients revealed spinal cord changes consisting of focal atrophy and foci of signal alterations. On neck flexion a forward movement and mild reduction in the anteroposterior diameter of the lower cervical cord against the vertebral bodies was noted in affected individuals as well as in five normal controls. In contrast to earlier reports, none of our patients showed complete obliteration of the posterior subarachnoid space. Measurement of the anteroposterior spinal cord diameter in each vertebral segment (C4-C7) revealed no significant differences in the degree of spinal cord flattening between the two groups. Furthermore, two of our patients had significant degenerative changes in the cervical spine (disc herniation, retrospondylosis) contralateral to the clinically affected side. These degenerative changes resulted in a marked cord compression on neck flexion but were not associated with ipsilateral clinical abnormalities or spinal cord alterations. Our results argue against a flexion-induced cervical myelopathy and support the view that Hirayama's disease is an intrinsic motor neuron disease.