Multi-dimensional electrical impedance myography of the tongue as a potential biomarker for amyotrophic lateral sclerosis.

OBJECTIVE: In amyotrophic lateral sclerosis (ALS) bulbar disease biomarkers are lacking. We evaluated a novel tongue electrical impedance myography (EIM) system, utilising both 2D and 3D electrode configurations for detection of tongue pathology. METHODS: Longitudinal multi-frequency phase angle spectra were recorded from 41 patients with ALS (baseline, 3 and 6 months) and 30 healthy volunteers (baseline and 6 months). ALS functional rating scale-revised (ALSFRS-R) data and quantitative tongue strength measurements were collected. EIM data were analysed for reliability (intra-class correlation coefficient; ICC) and differences between patients and volunteers ascertained using both univariate (Mann-Whitney U test) and multivariate techniques (feature selection and L2 norm). RESULTS: The device produced highly reliable data (pooled ICC: 0.836). Significant EIM differences were apparent between ALS patients and healthy volunteers (P < 0.001). EIM data demonstrated a significant relationship to tongue strength and bulbar ALSFRS-R scores (P < 0.015). The EIM recordings revealed a group level longitudinal change over 6 months and consistently identified patients in whom symptoms or tongue strength changed. CONCLUSIONS: The novel EIM tongue system produces reliable data and can differentiate between healthy muscle and ALS-related disease. SIGNIFICANCE: Tongue EIM utilising multiple frequencies and electrode configurations has potential as a bulbar disease biomarker in ALS.

Imaging muscle as a potential biomarker of denervation in motor neuron disease.

OBJECTIVE: To assess clinical, electrophysiological and whole-body muscle MRI measurements of progression in patients with motor neuron disease (MND), as tools for future clinical trials, and to probe pathophysiological mechanisms in vivo. METHODS: A prospective, longitudinal, observational, clinicoelectrophysiological and radiological cohort study was performed. Twenty-nine patients with MND and 22 age-matched and gender-matched healthy controls were assessed with clinical measures, electrophysiological motor unit number index (MUNIX) and T2-weighted whole-body muscle MRI, at first clinical presentation and 4 months later. Between-group differences and associations were assessed using age-adjusted and gender-adjusted multivariable regression models. Within-subject longitudinal changes were assessed using paired t-tests. Patterns of disease spread were modelled using mixed-effects multivariable regression, assessing associations between muscle relative T2 signal and anatomical adjacency to site of clinical onset. RESULTS: Patients with MND had 30% higher relative T2 muscle signal than controls at baseline (all regions mean, 95% CI 15% to 45%, p<0.001). Higher T2 signal was associated with greater overall disability (coefficient -0.009, 95% CI -0.017 to -0.001, p=0.023) and with clinical weakness and lower MUNIX in multiple individual muscles. Relative T2 signal in bilateral tibialis anterior increased over 4 months in patients with MND (right: 10.2%, 95% CI 2.0% to 18.4%, p=0.017; left: 14.1%, 95% CI 3.4% to 24.9%, p=0.013). Anatomically, contiguous disease spread on MRI was not apparent in this model. CONCLUSIONS: Whole-body muscle MRI offers a new approach to objective assessment of denervation over short timescales in MND and enables investigation of patterns of disease spread in vivo. Muscles inaccessible to conventional clinical and electrophysiological assessment may be investigated using this methodology.

Sensory ganglionopathy with livedoid vasculopathy controlled by immunotherapy.

INTRODUCTION: Livedoid vasculopathy is a rare dermatological condition characterized by painful ulceration, atrophic scarring, and persistent livedo reticularis. The pathogenesis is unclear. METHODS: We report a patient with biopsy-proven livedoid vasculopathy who developed a progressive sensory ganglionopathy with profound sensory ataxia. Serial nerve conduction assessments were undertaken. RESULTS: Combined treatment with prednisolone and mycophenolate mofetil failed to control the ganglionopathy. After addition of rituximab, both symptoms and nerve conduction studies showed stabilization. CONCLUSIONS: Sensory ganglionopathies associated with autoimmune and inflammatory conditions may be characterized by a sub-population of "sick" dorsal root ganglia that can be rescued with aggressive immunotherapy.

A prospective pilot study measuring muscle volumetric change in amyotrophic lateral sclerosis.

Our objective was to investigate the potential of muscle volume, measured with magnetic resonance (MR), as a biomarker to quantify disease progression in patients with amyotrophic lateral sclerosis (ALS). In this longitudinal pilot study, we first sought to determine the stability of volumetric muscle MR measurements in 11 control subjects at two time-points. We assessed feasibility of detecting atrophy in four patients with ALS, followed at three-month intervals for 12 months. Muscle power and MR volume were measured in thenar eminence (TEm), first dorsal interosseous (1DIO), tibialis anterior (TA) and tongue. Changes over time were assessed using linear regression models and t-tests. Results demonstrated that, in controls, no volumetric MR changes were seen (mean volume variation in all muscles < 5%, p > 0.1). In patients, between-subject heterogeneity was identified. Trends for volume loss were found in TEm (mean, - 26.84%, p = 0.056) and TA (- 8.29%, p = 0.077), but not in 1DIO (- 18.47%, p = 0.121) or tongue (< 5%, p = 0.367). In conclusion, volumetric muscle MR appears a stable measure in controls, and progressive volume loss was demonstrable in individuals with ALS in whom clinical weakness progressed. In this small study, subclinical atrophy was not demonstrable using muscle MR. Clinico-radiological discordance between muscle weakness and MR atrophy could reflect a contribution of upper motor neuron pathology.

A novel MPZ gene mutation in exon 2 causing late-onset demyelinating Charcot-Marie-Tooth disease.

The myelin protein zero gene (MPZ) encodes the major structural protein component of myelin in the peripheral nervous system. More than 120 mutations in MPZ have been detected so far. Clinical phenotypes include CMT1B, CMT2, Dejerine-Sottas syndrome, and congenital hypomyelination neuropathy. We report a new previously unreported mutation in the MPZ gene causing a demyelinating peripheral neuropathy. The initial apparent absence of a family history resulted in the patient being treated for an inflammatory neuropathy with some subjective improvement. We subsequently identified another affected member of the same family with the same genotype leading to the correct diagnosis. Both the affected individuals had an 8-base pair deletion, c.160_167delTCCCGGGT in MPZ exon 2.