Myotonia congenita: mutation spectrum of CLCN1 in Spanish patients

Myotonia congenita (MC) is a Mendelian inherited genetic disease caused by the mutations in the CLCN1 gene, encoding the main skeletal muscle ion chloride channel (ClC-1). The clinical diagnosis of MC should be suspected in patients presenting myotonia, warm-up phenomenon, a characteristic electromyographic pattern, and/or family history. Here, we describe the largest cohort of MC Spanish patients including their relatives (up to 102 individuals). Genetic testing was performed by CLCN1 sequencing and multiplex ligation-dependent probe amplification (MLPA). Analysis of selected exons of the SCN4A gene, causing paramyotonia congenita, was also performed. Mutation spectrum and analysis of a likely founder effect of c.180+3A>T was achieved by haplotype analysis and association tests. Twenty-eight different pathogenic variants were found in the CLCN1 gene, of which 21 were known mutations and seven not described. Gross deletions/duplications were not detected. Four probands had a pathogenic variant in SCN4A. Two main haplotypes were detected in c.180+3A>T carriers and no statistically significant differences were detected between case and control groups regarding the type of haplotype and its frequencies. A diagnostic yield of 51% was achieved; of which 88% had pathogenic variants in CLCN1 and 12% in SCN4A. The existence of a c.180+3A>T founder effect remains unsolved.

Implicaciones anestésicas de las distrofias musculares / Anesthetic implications of muscular dystrophies

Abstract Introduction: Muscular dystrophies are a group of genetic diseases characterized by the compromised synthesis or regeneration of the muscle contractile proteins. Although they belong to the same group of diseases, they have different characteristics in their clinical presentation and in their genetic origin. These diseases are classified as orphan as they have a low incidence among the general population, but represent a huge anesthetic challenge, particularly among the pediatric population. Objective: To describe the main clinical aspects of muscular dystrophies, their etiology, anesthetic implications, and the major complications that may occur during the perioperative management. Methodology: A review article is discussed based on a systematic search of the literature to produce a descriptive review. The main source of information is case reports obtained from databases as PubMed, Google Scholar, and websites specialized in rare diseases, to describe the main anesthetic implications of muscular dystrophies. Results: A total of 65 references were identified by the authors in accordance with the relevance of the topic for the final review. Conclusion: Muscular dystrophies are a heterogeneous group of diseases that share a common etiology due to direct injury of the muscle fiber with a progressive and systemic compromise. Each type of muscular dystrophy is different in terms of its clinical presentation, genetic origin, and anesthetic risks which are mainly cardiovascular complications due to malignant arrhythmias, acute rhabdomyolysis triggered by drugs used in anesthesia, and perioperative respiratory failure.

Resumen Introducción: Las distrofias musculares son un grupo de enfermedades genéticas que se caracterizan por compromiso en la síntesis o regeneración de las proteínas contráctiles del musculo. Aunque pertenecen al mismo grupo de enfermedades tienen características muy diferentes en su presentación clínica y en su origen genético. Estas enfermedades se clasifican como huérfanas debido a que tienen una incidencia muy baja en la población general, pero representan un enorme reto anestésico, especialmente en la población pediátrica. Objetivo: Describir los principales aspectos clínicos de las distrofias musculares, su etiología, implicaciones anestésicas y principales complicaciones que pueden ocurrir durante el perioperatorio. Metodología: Se presenta un artículo de revisión basado en una búsqueda sistemática de la literatura para una revisión descriptiva, donde la principal fuente de información son los reportes de caso obtenidos en las bases de datos de pubmed, google académico y páginas web especializadas en enfermedades raras, con el propósito de describir las principales implicaciones anestésicas de este grupo de enfermedades. Resultados: Se obtuvo un total de 65 referencias bibliográficas las cuales fueron seleccionadas por los autores de acuerdo con la relevancia del tema para la revisión final. Conclusión: Las distrofias musculares son un grupo heterogéneo de enfermedades que comparten una etiología común que es la lesión directa en la fibra muscular con un compromiso sistémico progresivo. Se diferencian en su presentación clínica, origen genético y riesgos anestésicos que son principalmente complicaciones cardiovasculares por arritmias malignas, rabdomiolisis aguda desencadenada por fármacos utilizados en la anestesia y falla respiratoria perioperatoria.

Botulinum toxin for treating unilateral apraxia of eyelid opening in a patient with congenital myotonia / Tratamento da apraxia de abertura palpebral unilateral em portador de miotonia congênita com botulinum toxin

ABSTRACT A 37-year-old female presented with severe apraxia of lid opening (ALO) affecting the right upper lid associated with Becker congenital myotonia (MC). The patient had a history of right upper lid ptosis for 25 years that was exacerbated over the previous month with severe incapacity to open her right eye. No other associated neurological or ophthalmic symptoms were observed. The patient was treated with botulinum toxin (BoNT-A) injection into the pretarsal and lateral canthus region of the orbicularis oculi of the affected eyelid. Treatment with BoNT-A is an effective method of managing ALO in Becker MC. This is the first case of unilateral ALO in the course of Becker MC that was successfully treated with injections of botulinum toxin.

RESUMO Trata-se de uma mulher de 37 anos apresentando grave apraxia de abertura da pálpebra (AAP) superior direita associada com miotomia congênita de Becker (MC). A paciente há 25 anos apresentava ptose palpebral a direita e há um mês desenvolveu incapacidade de abertura do olho direito. Não havia associação com outro sintoma neurológico ou oftalmológico. A paciente recebeu injeção de botulinum toxin (BoNT-A) no músculo orbicular a direita, na região pretarsal e no canto lateral. A BoNT-A foi efetiva para o tratamento da AAP associada com miotomia congênita de Becker.

Electrophysiological characteristics of R47W and A298T mutations in CLC-1 of myotonia congenita patients and evaluation of clinical features

Myotonia congenita (MC) is a genetic disease that displays impaired relaxation of skeletal muscle and muscle hypertrophy. This disease is mainly caused by mutations of CLCN1 that encodes human skeletal muscle chloride channel (CLC-1). CLC-1 is a voltage gated chloride channel that activates upon depolarizing potentials and play a major role in stabilization of resting membrane potentials in skeletal muscle. In this study, we report 4 unrelated Korean patients diagnosed with myotonia congenita and their clinical features. Sequence analysis of all coding regions of the patients was performed and mutation, R47W and A298T, was commonly identified. The patients commonly displayed transient muscle weakness and only one patient was diagnosed with autosomal dominant type of myotonia congenita. To investigate the pathological role of the mutation, electrophysiological analysis was also performed in HEK 293 cells transiently expressing homo- or heterodimeric mutant channels. The mutant channels displayed reduced chloride current density and altered channel gating. However, the effect of A298T on channel gating was reduced with the presence of R47W in the same allele. This analysis suggests that impaired CLC-1 channel function can cause myotonia congenita and that R47W has a protective effect on A298T in relation to channel gating. Our results provide clinical features of Korean myotonia congenita patients who have the heterozygous mutation and reveal underlying pathophyological consequences of the mutants by taking electrophysiological approach.

Phenotypic Difference of CLCN1 Gene Variant (A313T) in a Korean Family with Myotonia Congenita

Myotonia congenita (MC) is a hereditary disease of the chloride channels of skeletal muscle caused by mutation of CLCN1. It characteristically manifests as delayed relaxation of the skeletal muscle or myotonia. It has a wide phenotypic variability, ranging from asymptomatic to severe disability. However, it is uncommon for a phenotypic difference to appear within a family. We report the first Korean family with the p.A313T mutation exhibiting marked phenotypic variability.

A mechanical engineer cannot open his fist - myotonia congenita.

Myotonia congenita is a rare congenital neurological disorder, not encountered by many physicians in their clinical practice. Two types are described Thomsen and Becker. The former autosomal dominant, presents at early age and less aggressive as in our patient. Backer is autosomal recessive more aggressive and with muscle weakness. In these disorders group of skeletal muscles contract longer and slow to relax due to mutation in CLCN1 gene leading to chloride channelopathy. They present with difficulty to initiate an action but can do it normally after repeated attempts. Hand and facial muscles are involved in Thomsen disease; they are not weak or atrophic but might have cramps. Diagnosis of Myotonia congenita is clinical and confirmed by electromyography. Many other clinical conditions have myotonia, dystrophic and non-dystrophic. Physiotherapy and membrane stabilizing drugs like anti-epileptics are of choice but with varying success. Genetic counseling is an important part of management of these cases.

The Overlap between Fibromyalgia Syndrome and Myotonia Congenita

BACKGROUND: Fibromyalgia syndrome (FMS) is a complex disorder characterized by chronic widespread pain (CWP), multiple areas of tenderness, sleep disturbance, fatigue, and mood or cognitive dysfunction. Myotonia congenita (MC) is an inherited myopathic disorder that is caused by mutations in the gene encoding the skeletal muscle chloride channel, which can infrequently manifest as generalized muscle cramps or myalgia. CASE REPORT: The first case was a 33-year-old woman who complained of CWP and chronic headache occurring during pregnancy, and the second case was a 37-year-old man with CWP and depression who suffered from cold-induced muscle cramps. These two patients were initially diagnosed with FMS by rheumatologists, based on CWP of longer than 3 months duration and mechanical tenderness in specific body regions. However, these two FMS patients were subsequently also diagnosed with MC. CONCLUSIONS: These two cases are the first report of an overlap of CWP between FMS and MC.

Cómo evaluar un paciente con miotonía / How to evaluate a patient with myotonia

Introducción: la miotonía es un desorden del músculo, caracterizado por una relajación demorada del músculo esquelético después de la contracción voluntaria o por efecto de la percusión. Desarrollo: se comenta la fisiopatología a la luz de los conocimientos actuales en relación a los defectos genéticos ligados a las canalopatías. Se discute el diagnóstico positivo y diferencial, la clasificación, las principales formas clínicas y el tratamiento. Conclusiones: a pesar de un conocimiento creciente de la base genética de estos desórdenes, los rasgos clínicos y el electro diagnóstico permanecen como aliados insuperables en el diagnóstico positivo y diferencial de las mismas. Sobre las miotonías no distróficas existen algunas respuestas, con muchas más interrogantes tanto en su reconocimiento clínico como en su clasificación y tratamiento.

Introduction: myotonia is a muscle disorder, characterized by a delayed relaxation of a skeletal muscle after a voluntary contraction or by percussion. Development: the physiopathology in the light of current knowledge regarding genetic defects associated with channelopathies is presented. Positive and differential diagnosis, classification, main clinical forms and treatment are discussed. Conclusions: despite a growing understanding of the genetic basis of these disorders, clinical features and the electro-diagnostic remain as insuperable allies in positive and differential diagnosis. On myotonia no dystrophica there are some answers, with many more questions both its medical examination and its classification and treatment.

Diagnóstico y tratamiento de las miotonías congénitas menos frecuentes / Diagnosis and treatment of less common myotonia congenita

Las miotonías no-distróficas son un grupo importante de canalopatías del músculo esquelético caracterizadas por excitabilidad alterada de la membrana celular. Hoy día se reconocen muchos fenotipos clínicos distintos con un rango de severidad que oscila desde la miotonía neonatal severa con compromiso respiratorio hasta el ataque miotónico ligero que producen las Parálisis Periódicas.Objetivo: analizar y discutir la fisiopatología, cuadro clínico y criterios diagnósticos de las miotonías no distróficas menos frecuentes de la práctica clínica.Desarrollo: las mutaciones genéticas específicas en los canales de voltaje del cloruro y de sodio son la causa en la mayoría de los pacientes. Estudios recientes han permitido las correlaciones más precisas entre el genotipo, patrón electrofisiológico y fenotipo clínico. Se comenta además el criterio diagnóstico de cada canalopatía en particular.Conclusiones: a pesar de los adelantos significativos en la clínica, genética molecular y fisiopatología de estos desórdenes existen problemas importantes no resueltos, tales como la utilidad de los estudios neurofisiológicos para identificar el posible genotipo, la ausencia de una historia natural de las canalopatías actualmente, aun cuando está disponible el estudio de genética molecular, la asociación de las miotonías congénitas con los cambios miopáticos, la relación de las miopatías congénitas con las miotonías congénitas y por último la posibilidad de un tratamiento más especifico y adecuado en ausencia de ensayos clínicos farmacológicos aleatorizados que permitan en el futuro tratar y prevenir el daño de los canales iónicos

Myotonia non-dystrophica is an important group of skeletal muscle channelopathies characterized by altered excitability of cell membrane. Nowadays are recognized many different clinical phenotypes with a severity level, ranging from severe neonatal myotonia with respiratory compromise to mild myotonic attack produced by periodical paralysis. Objective: to analyze and discuss the physiopathology, clinical picture and diagnostic criteria of myotonia non-dystrophica less frequent in clinical practice.Development: the specific genetic mutations in the chloride and sodium voltage channels are the cause in the majority of patients. Recent studies have allowed more precise correlations between genotype, electrophysiologic pattern and clinical phenotype. In addition each channelopathy diagnosis criterion is discussed.Conclusions: despite significant advances in the clinic, molecular genetics and physiopathology of these disorders, there are important unresolved issues, such as the usefulness of neurophysiologic studies to identify possible genotype, the absence of a natural history on channelopathy currently, even when is available the study of molecular genetics, the association of myotonia congenita with myopathic changes, the relationship of myotonia congenita with congenital myopathies and finally the possibility of a more specific and appropriate treatment in the absence of randomized pharmacologic clinical trials to enable in the future treating and preventing ionic channels damage

Clinical Characteristics and Analysis of CLCN1 in Patients with "EMG Disease"

BACKGROUND AND PURPOSE: While the etiology and clinical features of "EMG disease" - which is characterized by diffusely increased insertional activity on needle electromyography (EMG) in the absence of neuromuscular disease - are not well known, some authorities believe it may be a form of myotonia congenita (MC). The aims of this study were to determine the clinical features of EMG disease and its relationship with CLCN1 mutations in patients. METHODS: The detailed clinical and electrophysiological features of EMG disease were evaluated in six patients. All 23 coding exons and exon-intron boundaries in CLCN1 gene were analyzed by direct sequencing to detect nucleotide changes. RESULTS: The common clinical symptoms of EMG disease were chronic muscle stiffness or generalized myalgia, which were aggravated in a cold environment. Four patients complained of action myotonia several times a year. Short trains of provoked positive sharp waves were documented on needle EMG, but myotonic discharges, fibrillation potentials, and fasciculations were not. Increased insertional activity was identified at the asymptomatic muscles studied. One novel heterozygous mutation was identified in one patient following genetic testing for CLCN1 mutations (c.1679T>C, p.Met560Thr). CONCLUSIONS: The clinical features of EMG disease might be quite similar to those of MC, but CLCN1 mutation was found in only one subject. It is thus difficult to accept that EMG disease lies within the phenotypic spectrum of MC. Additional testing is needed to verify the pathogenetic cause of the diffusely increased insertional activity associated with this condition.

Novel CLCN1 Mutations and Clinical Features of Korean Patients with Myotonia Congenita

Myotonia congenita (MC) is a form of nondystrophic myotonia caused by a mutation of CLCN1, which encodes human skeletal muscle chloride channel (CLC-1). We performed sequence analysis of all coding regions of CLCN1 in patients clinically diagnosed with MC, and identified 10 unrelated Korean patients harboring mutations. Detailed clinical analysis was performed in these patients to identify their clinical characteristics in relation to their genotypes. The CLCN1 mutational analyses revealed nine different point mutations. Of these, six (p.M128I, p.S189C, p.M373L, p.P480S, p.G523D, and p.M609K) were novel and could be unique among Koreans. While some features including predominant lower extremity involvement and normal to slightly elevated creatine kinase levels were consistently observed, general clinical features were highly variable in terms of age of onset, clinical severity, aggravating factors, and response to treatment. Our study is the first systematic study of MC in Korea, and shows its expanding clinical and genetic spectrums.

Clinical and molecular diagnosis of a Costa Rican family with autosomal recessive myotonia congenita (Becker disease) carrying a new mutation in the CLCN1 gene

Myotonia congenita is a muscular disease characterized by myotonia, hypertrophy, and stiffness. It is inherited as either autosomal dominant or recessive known as Thomsen and Becker diseases, respectively. Here we confirm the clinical diagnosis of a family diagnosed with a myotonic condition many years ago and report a new mutation in the CLCN1 gene. The clinical diagnosis was established using ocular, cardiac, neurological and electrophysiological tests and the molecular diagnosis was done by PCR, SSCP and sequencing of the CLCN1 gene. The proband and the other affected individuals exhibited proximal and distal muscle weakness but no hypertrophy or muscular pain was found. The myotatic reflexes were lessened and sensibility was normal. Electrical and clinical myotonia was found only in the sufferers. Slit lamp and electrocardiogram tests were normal. Two affected probands presented diminution of the sensitive conduction velocities and prolonged sensory distal latencies. The clinical spectrum for this family is in agreement with a clinical diagnosis of Becker myotonia. This was confirmed by molecular diagnosis where a new disease-causing mutation (Q412P) was found in the family and absent in 200 unaffected chromosomes. No latent myotonia was found in this family; therefore the ability to cause this subclinical sign might be intrinsic to each mutation. Implications of the structure-function-genotype relationship for this and other mutations are discussed. Adequate clinical diagnosis of a neuromuscular disorder would allow focusing the molecular studies toward the confirmation of the initial diagnosis, leading to a proper clinical management, genetic counseling and improving in the quality of life of the patients and relatives.

La miotonía congénita es una enfermedad muscular caracterizada por miotonía, hipertrofia y rigidez. Se presenta con dos patrones de herencia, autosómica dominante en cuyo caso recibe el nombre de miotonía de Thomsen, o autosómica recesiva conocida como miotonía de Becker. En este trabajo se confirmó el diagnóstico clínico presuntivo hecho hace algunos años en una familia con una condición miotónica y se reporta una nueva mutación en el gen CLCN1. El diagnóstico clínico se estableció después de estudios oculares, cardíacos, neurológicos y electrofisiológicos. El diagnóstico molecular fue hecho mediante la PCR, SSCP y secuenciación del gen CLCN1. El caso índice y los otros individuos afectados exhibieron debilidad muscular proximal y distal, pero no se encontró hipertrofia ni dolor muscular. Los reflejos miotáticos estuvieron disminuidos y la sensibilidad fue normal. Se encontró miotonía clínica y eléctrica solo en los individuos afectados. Las pruebas de lámpara de hendidura y electrocardiograma resultaron normales. Dos individuos afectados presentaron disminución de las velocidades de conducción sensitiva y latencias distales sensoriales prolongadas. El cuadro clínico concuerda con la miotonía de Becker, lo cual se confirmó con el hallazgo de una mutación responsable de la enfermedad en el gen CLCN1 (Q412P), la cual se encontró en la familia y estuvo ausente en 200 cromosomas provenientes de la población general. No se encontró miotonía latente, por lo que probablemente la habilidad de causar este signo subclínico es intrínsica de cada mutación. Afinar el diagnóstico clínico diferencial de las enfermedades neuromusculares permitiría enfocar los estudios moleculares hacia la confirmación del diagnóstico inicial en forma eficiente, lo cual permitiría un manejo clínico y asesoramiento genético más adecuados y una mejora en la calidad de vida de los pacientes y sus familias.

A Case of Becker's Type Congenital Myotonia / 영남의대학술지

Congenital myotonia is a hereditary disorder of the skeletal muscle. The most characteristic features of the disease are myotonia and variable muscular hypertrophy. Molecular biologic investigations have revealed that mutations in the gene of the human skeletal muscle chloride ion channel protein are a cause of the disease. The Becker's type congenial myotonia is clinically similar to the autosomal dominantly inherited congenital myotonia (Thomsen's disease). Both disorders are characterized electrophysiologically by increased excitability of muscle fibers, reflected in clinical myotonia. In general, Becker's type congenital myotonia is more severe than Thomsen's disease in muscular hypertrophy and weakness. The authors recently experienced a 25-year-old female patient who has no family-related disease history and who has conspicuous muscular hypertrophy and the stiffness with muscles which occurred from the age of 3 or 4. Clinically she showed the authors a percussion myotonia. On electrophysiological study, exercise and repetitive stimulation of the abductor digiti quinti muscle disclosed a decline in the compound muscle action potential. Biopsy of biceps muscle revealed enlargement of muscle fibers with marked nuclear internalization. After the oral taking the Mexiletine, the patient showed a favorable turn a little with her stiffness of muscles. So we authors are reporting one case of Becker's type congenital myotonia with review of literatures.