Electromyography guides toward subgroups of mutations in muscle channelopathies

Fournier, Emmanuel; Arzel, Marianne; Sternberg, Damien; Vicart, Savine; Laforêt, Pascal; Eymard, B.; Willer, Jean-Claude; Tabti, Nacira; Fontaine, Bertrand

doi:10.1002/ana.20241

Cited by 256 publications

(331 citation statements)

References 23 publications

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“…*McNemar xnot expressed in the muscle). A standardized protocol ensuring reproducible and painless electrophysiological testing of skeletal muscle excitability was used (28). Briefly, compound muscle action potentials were recorded from the right and left abductor digiti minimi muscles after supramaximal electrical stimulation of the ulnar nerves at the wrists.…”

Section: Tonementioning

confidence: 99%

Sulfonylurea Therapy Benefits Neurological and Psychomotor Functions in Patients With Neonatal Diabetes Owing to Potassium Channel Mutations

et al. 2015

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OBJECTIVENeonatal diabetes secondary to mutations in potassium-channel subunits is a rare disease but constitutes a paradigm for personalized genetics-based medicine, as replacing the historical treatment with insulin injections with oral sulfonylurea (SU) therapy has been proven beneficial. SU receptors are widely expressed in the brain, and we therefore evaluated potential effects of SU on neurodevelopmental parameters, which are known to be unresponsive to insulin. RESEARCH DESIGN AND METHODSWe conducted a prospective single-center study. Nineteen patients (15 boys aged 0.1-18.5 years) were switched from insulin to SU therapy. MRI was performed at baseline. Before and 6 or 12 months after the switch, patients underwent quantitative neurological and developmental assessments and electrophysiological nerve and muscle testing. RESULTSAt baseline, hypotonia, deficiencies in gesture conception or realization, and attention disorders were common. SU improved HbA 1c levels (median change 21.55% [range 23.8 to 0.1]; P < 0.0001), intelligence scores, hypotonia (in 12 of 15 patients), visual attention deficits (in 10 of 13 patients), gross and fine motor skills (in all patients younger than 4 years old), and gesture conception and realization (in 5 of 8 older patients). Electrophysiological muscle and nerve tests were normal. Cerebral MRI at baseline showed lesions in 12 patients, suggesting that the impairments were central in origin. CONCLUSIONSSU therapy in neonatal diabetes secondary to mutations in potassium-channel subunits produces measurable improvements in neuropsychomotor impairments, which are greater in younger patients. An early genetic diagnosis should always be made, allowing for a rapid switch to SU.Neonatal diabetes is a rare condition that develops during the first months of life with an estimated incidence of 1 in 90,000 newborns (1,2). Neonatal diabetes can be permanent or transient, relapsing around puberty after a period of remission. We recently reported that 42% of patients in a large cohort had a heterozygous

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Section: Tonementioning

confidence: 99%

Sulfonylurea Therapy Benefits Neurological and Psychomotor Functions in Patients With Neonatal Diabetes Owing to Potassium Channel Mutations

et al. 2015

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“…Abnormal CMAP amplitude is observed in approximately 70% to 80% of patients with periodic paralysis (19,20). The electrophysiological pattern observed in our patients (pattern V; CMAP declines after long exercise without preliminary increment) is more frequently associated with mutations in Ca 2ϩ or K ϩ channel CACNA1A, KCNJ2, and SCN4A genes (13,21,22). Whether isolated neuromuscular defects may be induced by some CLDN19 mutations thus accounting for channelopathies of unknown origin remains to be tested.…”

Section: Discussionmentioning

confidence: 74%

“…A needle electromyography showed neither nerve conduction defect nor myotonic or paramyotonic abnormalities. Muscle-channel dysfunction was thus explored by recording surface compound motor action potential (CMAP) changes after exercise tests (repeating short exercises at room temperature and, after cooling, an extended period of exercise, as described by Fournier et al [13]). CMAP amplitude correlates with the number of functional muscle fibers.…”

Section: Patientsmentioning

confidence: 99%

Renal, Ocular, and Neuromuscular Involvements in Patients with CLDN19 Mutations

Faguer¹,

Chauveau²,

Pascal³

et al. 2011

Clinical Journal of the American Society of Nephrology

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SummaryBackground and objectives The objective of this study was to describe the renal and extrarenal findings in patients with recessively inherited familial hypomagnesemia with hypercalciuria and nephrocalcinosis (FHHNC) associated with CLDN19 mutations.Design, setting, participants, & measurements Medical records of three patients from two French unrelated families with CLDN19 mutations were retrospectively examined.Results Direct sequencing of CLDN19 identified a known variant (p.Gly20Asp) in all patients and a new missense mutation (p.Val44Met) in one (compound heterozygous). The patients' renal phenotype closely mimicked CLDN16-related nephropathy: low serum Mg 2ϩ (Ͻ0.65 mmol/L) despite oral supplementation, hypercalciuria partly thiazide-sensitive, and progressive renal decline with ESRD reached at age 16 and 22 years in two individuals. Primary characteristics (failure to thrive, recurrent urinary tract infections, or abdominal pain), age at onset (0.8 to 16 years), and rate of renal decline were highly heterogeneous. Ocular involvement was identified in all patients, although two patients did not have visual loss. Additionally, exercise intolerance with pain, weakness, and electromyographical alterations mimicking a Ca 2ϩ /K ϩ channelopathy (pattern V) were observed in two of three individuals. These features persisted despite the normalization of serum K ϩ and Mg 2ϩ after renal transplantation.Conclusions Ocular manifestations, even subtle, and exercise intolerance mimicking mild to moderate periodic paralysis are two symptoms that need to be searched for in patients with FHHNC and may indicate CLDN19 mutations.

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“…Such challenges should not be used for diagnostic purposes in ATS because of the risk of precipitating or worsening cardiac arrhythmias. Electrophysiologic studies are helpful in confirming the presence of skeletal muscle membrane inexcitability using the exercise nerve conduction study protocol first described by McManis et al 14 Fournier et al 15 have further refined this protocol to distinguish patients with known sodium, chloride, and calcium channel mutations according to their response to the short-exercise EMG response pattern. A positive long exercise nerve conduction study has been reported in ATS patients, 16 but no ATS patients have been studied with the more elaborate Fournier protocol to see if they have a unique pattern.…”

Section: Laboratory Investigationsmentioning

confidence: 99%

Management and Treatment of Andersen-Tawil Syndrome (ATS)

Sansone

Tawil

2007

Neurotherapeutics

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Summary: Andersen-Tawil syndrome (ATS) is characterized by periodic paralysis, cardiac arrhythmias, and distinct facial and skeletal features. The majority of patients with ATS (ATS1) have point mutations in the KCNJ2 gene, which encodes the inward-rectifying potassium channel known as Kir2.1. The skeletal muscle and cardiac symptoms are accounted for, in most cases, by a dominant negative effect of the mutations on potassium channel current, resulting in prolonged depolarization of the action potential. Mechanisms of disruption of channel function include abnormal trafficking and assembly of second messengers such as phosphatidylinositol 4,5-bisphosphate, abnormal gating of the channel, and incorrect folding of the Kir2.1 protein. Less apparent is the mechanism by which these mutations account for the typical facial and skeletal abnormalities. The concomitant involvement of cardiac and skeletal muscle in ATS poses unique treatment and management challenges. Because of differences in cardiac and skeletal muscle physiology, drugs that may have a beneficial effect on cardiac function may have a detrimental effect on skeletal muscle and vice versa. We review the clinical, laboratory, and genetic features of this disorder with particular emphasis on treatment and management.

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Electromyography guides toward subgroups of mutations in muscle channelopathies

Cited by 256 publications

References 23 publications

Sulfonylurea Therapy Benefits Neurological and Psychomotor Functions in Patients With Neonatal Diabetes Owing to Potassium Channel Mutations

Sulfonylurea Therapy Benefits Neurological and Psychomotor Functions in Patients With Neonatal Diabetes Owing to Potassium Channel Mutations

Renal, Ocular, and Neuromuscular Involvements in Patients with CLDN19 Mutations

Management and Treatment of Andersen-Tawil Syndrome (ATS)

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