Contractile properties and magnetic resonance imaging-assessed fat replacement of muscles in myotonia congenita.

BACKGROUND AND PURPOSE: Myotonia congenita (MC) is a muscle channelopathy in which pathogenic variants in a key sarcolemmal chloride channel Gene (CLCN1) cause myotonia. This study used muscle magnetic resonance imaging (MRI) to quantify contractile properties and fat replacement of muscles in a Danish cohort of MC patients. METHODS: Individuals with the Thomsen (dominant) and Becker (recessive) variants of MC were studied. Isometric muscle strength, whole-body MRI, and clinical data were collected. The degree of muscle fat replacement of thigh, calf, and forearm muscles was quantitively calculated on Dixon MRI as fat fractions (FFs). Contractility was evaluated as the muscle strength per contractile muscle cross-sectional area (PT/CCSA). Muscle contractility was compared with clinical data. RESULTS: Intramuscular FF was increased and contractility reduced in calf and in forearm muscles compared with controls (FF = 7.0-14.3% vs. 5.3-9.6%, PT/CCSA = 1.1-4.9 Nm/cm2 vs. 1.9-5.8 Nm/cm2 [p < 0.05]). Becker individuals also showed increased intramuscular FF and reduced contractility of thigh muscles (FF = 11.9% vs. 9.2%, PT/CCSA = 1.9 Nm/cm2 vs. 3.2 Nm/cm2 [p < 0.05]). Individual muscle analysis showed that increased FF was limited to seven of 18 examined muscles (p < 0.05). There was a weak correlation between reduced contractility and severity of symptoms. CONCLUSIONS: Individuals with MC have increased fat replacement and reduced contractile properties of muscles. Nonetheless, changes were small and likely did not impact clinically on their myotonic symptoms.

Clinical and molecular characterization of myotonia congenita using whole-exome sequencing in Egyptian patients.

BACKGROUND: Myotonia Congenita (MC) is a rare disease classified into two major forms; Thomsen and Becker disease caused by mutations in the CLCN1 gene, which affects muscle excitability and encodes voltage-gated chloride channels (CLC-1). While, there are no data regarding the clinical and molecular characterization of myotonia in Egyptian patients. METHODS: Herein, we report seven Egyptian MC patients from six unrelated families. Following the clinical diagnosis, whole-exome sequencing (WES) was performed for genetic diagnosis. Various in silico prediction tools were utilized to interpret variant pathogenicity. The candidate variants were then validated using Sanger sequencing technique. RESULTS: In total, seven cases were recruited. The ages at the examination were ranged from eight months to nineteen years. Clinical manifestations included warm-up phenomenon, hand grip, and percussion myotonia. Electromyography was performed in all patients and revealed myotonic discharges. Molecular genetic analysis revealed five different variants. Of them, we identified two novel variants in the CLCN1 gene ( c.1583G > C; p.Gly528Ala and c.2203_2216del;p.Thr735ValfsTer57) and three known variants in the CLCN1 and SCN4A gene. According to in silico tools, the identified novel variants were predicted to have deleterious effects. CONCLUSIONS: As the first study to apply WES among Egyptian MC patients, our findings reported two novel heterozygous variants that expand the CLCN1 mutational spectrum for MC diagnosis. These results further confirm that genetic testing is essential for early diagnosis of MC, which affects follow-up treatment and prognostic assessment in clinical practice.

Neutral lipid storage disease with myopathy and myotonia associated to pathogenic variants on PNPLA2 and CLCN1 genes: case report.

BACKGROUND: Neutral lipid storage disease with myopathy (NLSD-M) is an autosomal recessive disease that manifests itself around the 3rd to 4th decade with chronic myopathy predominantly proximal in the shoulder girdle. Clinical myotonia is uncommon. We will report a rare case of association of pathogenic variants on PNPLA2 and CLCN1 genes with a mixed phenotype of NLSD-M and a subclinical form of Thomsen's congenital myotonia. CASE PRESENTATION: We describe a patient with chronic proximal myopathy, subtle clinical myotonia and electrical myotonia on electromyography (EMG). Serum laboratory analysis disclosure hyperCKemia (CK 1280 mg/dL). A blood smear analysis showed Jordan's anomaly, a hallmark of NLSD-M. A genetic panel was collected using next-generation sequencing (NGS) technique, which identified two pathogenic variants on genes supporting two different diagnosis: NLSD-M and Thomsen congenital myotonia, whose association has not been previously described. CONCLUSIONS: Although uncommon, it is important to remember the possibility of association of pathogenic variants to explain a specific neuromuscular disease phenotype. The use of a range of complementary methods, including myopathy genetic panels, may be essential to diagnostic definition in such cases.

Non-dystrophic myotonia: 2-year clinical and patient reported outcomes.

INTRODUCTION/AIMS: Consistency of differences between non-dystrophic myotonias over time measured by standardized clinical/patient-reported outcomes is lacking. Evaluation of longitudinal data could establish clinically relevant endpoints for future research. METHODS: Data from prospective observational study of 95 definite/clinically suspected non-dystrophic myotonia participants (six sites in the United States, United Kingdom, and Canada) between March 2006 and March 2009 were analyzed. Outcomes included: standardized symptom interview/exam, Short Form-36, Individualized Neuromuscular Quality of Life (INQoL), electrophysiological short/prolonged exercise tests, manual muscle testing, quantitative grip strength, modified get-up-and-go test. Patterns were assigned as described by Fournier et al. Comparisons were restricted to confirmed sodium channelopathies (SCN4A, baseline, year 1, year 2: n = 34, 19, 13), chloride channelopathies (CLCN1, n = 32, 26, 18), and myotonic dystrophy type 2 (DM2, n = 9, 6, 2). RESULTS: Muscle stiffness was the most frequent symptom over time (54.7%-64.7%). Eyelid myotonia and paradoxical handgrip/eyelid myotonia were more frequent in SCN4A. Grip strength and combined manual muscle testing remained stable. Modified get-up-and-go showed less warm up in SCN4A but remained stable. Median post short exercise decrement was stable, except for SCN4A (baseline to year 2 decrement difference 16.6% [Q1, Q3: 9.5, 39.2]). Fournier patterns type 2 (CLCN1) and 1 (SCN4A) were most specific; 40.4% of participants had a change in pattern over time. INQoL showed higher impact for SCN4A and DM2 with scores stable over time. DISCUSSION: Symptom frequency and clinical outcome assessments were stable with defined variability in myotonia measures supporting trial designs like cross over or combined n-of-1 as important for rare disorders.

[On the Conceptual History of Myotonia Congenita: The Contributions of Julius Thomsen and Adolph Seeligmüller]. / Zur Konzeptgeschichte der Myotonia congenita: Die Beiträge von Julius Thomsen und Adolph Seeligmüller.

Myotonia congenita was first described as an entity in 1876 by Julius Thomsen. Shortly later in the same year it was criticized by Adolph Seeligmüller who extended the clinical findings. Charles Bell, Moritz Benedict and Ernst von Leyden had already partly described the symptoms of the disease before 1876, but did not recognize this as a new entity. A comparison of the publications of Thomsen and Seeligmüller in 1876 and of Seeligmüller's textbook published in 1887, as well as the today's genetically proven disease shows that Seeligmüller correctly criticized two aspects of Thomsen's publication: (i) Thomsen suspected the pathogenesis to be in "one half of the brain's activity, the will" with "seat in the cerebrospinal system" and (ii) he made the assumption of a coordination disorder in the sense of an ataxia [1]. Due to a better understanding of the pathogenesis enabled by Seeligmüller's postulate of a "more difficult mobile muscle substance" [2] without excluding an inborn affection of the lateral cords of the spinal cord, it would have been entirely justified to recognize Seeligmüller's contribution to the conceptual history of Myotonia congenita by including his name in the eponym [3].

[Rhabdomyolysis - the chamaeleon of the intensive care unit]. / Rhabdomyolyse ­ das Chamäleon auf der Intensivstation.

Myotonia congenita Thomsen is a rare genetic disease caused by mutations in the skeletal muscle chloride channel gene (CLCN1). Although this channelopathy may cause disabling muscle symptoms, patient's daily routine can be almost inconspicuous. Nevertheless, during illness or acute diseases this neuromuscular disease may worsen and get clinically apparent up to severe rhabdomyolysis. Within this case report we describe and discuss the treatment of a patient with Myotonia congenita Thomsen treated at our hospital's intensive care unit. Rhabdomyolysis with acute renal failure and necessity of dialysis during the ICU stay was attributed to the initial reason for emergency hospitalization - an aortic dissection. Nevertheless, in this case the patient's myotonia caused rhabdomyolysis and initially led us on a wrong path. Diagnosis of the real cause of rhabdomyolysis is often difficult, although an early and adequate therapy may prevent complications. This case report demonstrates the importance of a thorough anamnesis with all aspects of the patient's history.

Value of short exercise and short exercise with cooling tests in diagnosis of recessive form of myotonia congenita (Becker disease) - are sex differences important?

INTRODUCTION: In myotonia congenita (MC), activation with exercise or cooling can induce transient changes in compound motor action potential (CMAP) parameters, thus providing a guide to genetic analysis. MATERIAL AND METHODS: We performed the short exercise test (SET) and the short exercise test with cooling (SETC) in 30 patients with genetically confirmed Becker disease (BMC) to estimate their utility in the diagnosis of BMC. RESULTS: Although we observed a significant decrease in CMAP amplitude immediately after maximal voluntary effort in both tests in the whole BMC group, in men this decline was significantly smaller than in women, especially in SET. Clinical implications/future directions: In men with a clinical suspicion of BMC, a small decrease in CMAP amplitude in SET together with a typical decline in SETC does not exclude the diagnosis of BMC. Our results show a sex-specific difference in chloride channel function in BMC, which needs further investigation.

Making sense of missense variants in TTN-related congenital myopathies.

Mutations in the sarcomeric protein titin, encoded by TTN, are emerging as a common cause of myopathies. The diagnosis of a TTN-related myopathy is, however, often not straightforward due to clinico-pathological overlap with other myopathies and the prevalence of TTN variants in control populations. Here, we present a combined clinico-pathological, genetic and biophysical approach to the diagnosis of TTN-related myopathies and the pathogenicity ascertainment of TTN missense variants. We identified 30 patients with a primary TTN-related congenital myopathy (CM) and two truncating variants, or one truncating and one missense TTN variant, or homozygous for one TTN missense variant. We found that TTN-related myopathies show considerable overlap with other myopathies but are strongly suggested by a combination of certain clinico-pathological features. Presentation was typically at birth with the clinical course characterized by variable progression of weakness, contractures, scoliosis and respiratory symptoms but sparing of extraocular muscles. Cardiac involvement depended on the variant position. Our biophysical analyses demonstrated that missense mutations associated with CMs are strongly destabilizing and exert their effect when expressed on a truncating background or in homozygosity. We hypothesise that destabilizing TTN missense mutations phenocopy truncating variants and are a key pathogenic feature of recessive titinopathies that might be amenable to therapeutic intervention.

Diagnostic yield of muscle biopsy in infants: Retrospective analysis of clinical and histopathologic findings.

The aim was to define the clinical and histopathologic findings of infants who underwent muscle biopsy and identify the diagnostic yield of muscle biopsy in this cohort. Infants who underwent muscle biopsy from January 2010 to March 2017 at a tertiary hospital were included in the study (N = 87; 64 boys (73.6%), 23 girls (26.4%); age range 0 - 2 years; mean age 9.73 ± 7.04 months). Clinical and histopathologic data were obtained from medical records. Developmental delay (64.4%) and hypotonia (59.8%) were the most frequent clinical findings, and mitochondrial disease (61%) was the most frequent clinical diagnosis, followed by muscular dystrophy (15.9%) and congenital myopathy (11.5%). Creatine kinase level was normal in 65.9% and > 1,000 U/L in 17.1%. Specific pathologic findings were identified from 38 biopsies (43.7%). The most frequent pathologic findings were features compatible with mitochondrial/metabolic myopathy (14 patients, 16.1%) and muscular dystrophy (12 patients, 13.8%). Myopathic changes were present in 7 biopsy samples (8.0%) and neurogenic changes in 5 (5.7%). The clinical and pathologic diagnoses were compatible in 24 patients (63.2%). The diagnostic yield of muscle biopsy remains significant, especially in this age group. Mitochondrial disease is a major diagnostic challenge, and muscle biopsy helps to support the clinical diagnosis and guide further studies.

Recessive myotonia congenita caused by a homozygous splice site variant in CLCN1 gene: a case report.

BACKGROUND: Myotonia congenita is a rare neuromuscular disease, which is characterized by a delay in muscle relaxation after evoked or voluntary contraction. Myotonia congenita can be inherited in a dominant (Thomsen disease) and recessive form (Becker disease) and both are caused by pathogenic variants in the CLCN1 gene. Noncanonical splice site variants are often classified as variants of uncertain significance, due to insufficient accuracy of splice-predicting tools. Functional analysis using minigene plasmids is widely used in such cases. Moreover, functional analysis is very useful in investigation of the disease pathogenesis, which is necessary for development of future therapeutic approaches. To our knowledge only one noncanonical splice site variant in the CLCN1 gene was functionally characterized to date. We further contribute to this field by evaluation the molecular mechanism of splicing alteration caused by the c.1582 + 5G > A in a homozygous state. CASE PRESENTATION: We report a clinical case of an affected 6-y.o boy with athletic appearance due to muscle hypertrophy, calf muscle stiffness, cramping and various myotonic signs in a consanguineous family with no history of neuromuscular disorders. The neurological examination showed percussion-activated myotonia in the hands and legs. Plasma creatine kinase enzyme and transaminases levels were normal. Electromyography at the time of examination shows myotonic runs in the upper and lower extremities. CONCLUSIONS: Functional analysis of the variant in a minigene system showed alteration of splicing leading to loss of function, thereby confirming that the variant is pathogenic.

Brody myopathy demonstrates a pseudo-increment on repetitive nerve stimulation.

INTRODUCTION: Brody myopathy (BM) is a recessive condition caused by mutations in the ATP2A1 gene and usually induces impaired muscle relaxation during and after exercise. Diagnosis relies on needle electromyography showing electrical silence, muscle biopsy with decreased sarcoplasmic reticulum calcium adenosine triphosphatase activity, and genetic analysis. Electrodiagnostic functional analyses are useful in the diagnosis of channelopathies, and thus may be impaired in BM. METHODS: We performed exercise tests and repetitive nerve stimulation (RNS; 10 supramaximal stimuli at 3 Hz) in 10 patients with BM. RESULTS: All participants showed incremental responses on RNS. Compound muscle action potential amplitude was increased and duration was decreased, especially in the ulnar nerve (+30.2 ± 7.1% and - 30.3 ± 2.8%, respectively; both P < .001). DISCUSSION: Easily accessible, this sign, referred to as the Arzel sign, could prove to be a very useful tool in BM diagnosis and in broadening its phenotype.

Brody disease: when myotonia is not myotonia.

A 56-year-old man presented with painless impairment of muscle relaxation on vigorous contraction (eg, eyelid closure, hand grip, running). There were no episodes of paralysis, symptom progression, weakness or extramuscular symptoms. Five of his fifteen siblings had similar complaints. His serum creatine kinase was normal. Electromyography showed electrical silence on muscle relaxation, without myotonic discharges. DMPK, ClCN1 and SCN4A genetic testing was normal, but he had a homozygous pathogenic variant of ATP2A1 (c.1315G>A; pGlu439Lys). Brody disease is a rare autosomal recessive myopathy due to ATP2A1 mutations that reduce sarcoplasmic reticulum calcium-ATPase1 activity, hence delaying muscle relaxation.

Prenatal diagnosis of congenital myopathies and muscular dystrophies.

Congenital myopathies and muscular dystrophies constitute a genetically and phenotypically heterogeneous group of rare inherited diseases characterized by muscle weakness and atrophy, motor delay and respiratory insufficiency. To date, curative care is not available for these diseases, which may severely affect both life-span and quality of life. We discuss prenatal diagnosis and genetic counseling for families at risk, as well as diagnostic possibilities in sporadic cases.

Myotonia in ion channel diseases of muscle.

Ion channel dysfunctions of the muscular cell membrane are usually inheritable, rare diseases. They may become manifest as relatively mild symptoms of muscle stiffness and pain, myotonia or paralysis. We describe two young patients who had an inherited ion channel disease of the muscular cell membrane with mild symptoms. The first patient had a chloride channel dysfunction of the muscular cell membrane, the second one a sodium channel dysfunction. In electromyography findings typical of the respective ion channel disease were detected in both patients. Closer examination of the patients' myotonic sequences occurring in electromyography of the relaxed muscle revealed differences that already enable the evaluation of the type of ion channel disease.

Truncating CLCN1 mutations in myotonia congenita: variable patterns of inheritance.

INTRODUCTION: Myotonia congenita due to protein truncating CLCN1 mutations is associated with variable patterns of inheritance. METHODS: Three family kindreds are described, all of whom possess protein truncating mutations (Y33X, fs503X, R894X). One lineage also has coexistent R894X, A313T, and A320V mutations. RESULTS: The Y33X mutation kinship has autosomal recessive inheritance and a severe phenotype when homozygous. The fs503X family has autosomal dominant inheritance and a moderate-to-severe phenotype. The A313T mutation kindred also has autosomal dominant inheritance but expresses a mild phenotype, except for the more severely affected compound heterozygotes. CONCLUSIONS: Early truncating mutations precluding dimerization are expected to be autosomal recessive and express a severe phenotype, while later mutations may be variable. The pedigrees presented here demonstrate that intrafamilial phenotypic variability may result from a dosage effect of an additional mutation, not necessarily variable expressivity. Mutations that have unexpected patterns of inheritance may represent allelic variability.

Improving Diagnostic Precision: Phenotype-Driven Analysis Uncovers a Maternal Mosaicism in an Individual with RYR1-Congenital Myopathy.

Congenital myopathies (CMs) are rare genetic disorders for which the diagnostic yield does not typically exceed 60% . We performed deep phenotyping, histopathological studies, clinical exome and trio genome sequencing and a phenotype-driven analysis of the genomic data, that led to the molecular diagnosis in a child with CM. We identified a heterozygous variant in RYR1 in the affected child, inherited from her asymptomatic mother. Given the alignment of the clinical and histopathological phenotype with RYR1-CM, we considered the potential existence of a missing second variant in trans in the proband, but also hypothesized that the variant might be mosaic in the mother, as subsequently demonstrated. Our study is an example of how heterozygous variants inherited from asymptomatic parents are frequently dismissed. When the genotype-phenotype correlation is strong, it is recommended to consider a parental mosaicism.

SERCA1 protein expression in muscle of patients with Brody disease and Brody syndrome and in cultured human muscle fibers.

Brody disease is an inherited myopathy associated with a defective function of sarcoplasmic/endoplasmic reticulum Ca(2+)-ATPase 1 (SERCA1) protein. Mutations in the ATP2A1 gene have been reported only in some patients. Therefore it has been proposed to distinguish patients with ATP2A1 mutations, Brody disease (BD), from patients without mutations, Brody syndrome (BS). We performed a detailed study of SERCA1 protein expression in muscle of patients with BD and BS, and evaluated the alternative splicing of SERCA1 in primary cultures of normal human muscle and in infant muscle. SERCA1 reactivity was observed in type 2 muscle fibers of patients with and without ATP2A1 mutations and staining intensity was similar in patients and controls. Immunoblot analysis showed a significant reduction of SERCA1 band in muscle of BD patients. In addition we demonstrated that the wild type and mutated protein exhibits similar solubility properties and that RIPA buffer improves the recovery of the wild type and mutated SERCA1 protein. We found that SERCA1b, the SERCA1 neonatal form, is the main protein isoform expressed in cultured human muscle fibers and infant muscle. Finally, we identified two novel heterozygous mutations within exon 3 of the ATP2A1 gene from a previously described patient with BD.

[Congenital myotonia. Incidence and presentation of a series of cases]. / Miotonía congénita. Incidencia y presentación de una serie de casos.

INTRODUCTION: Myotonia congenita is the most common form of genetic myotonia and is caused by mutations in the CLCN1 gene. It can be inherited in an autosomal dominant or recessive manner. We present a series of cases to update its incidence in our environment, to describe its phenotype in relation to the genotype found, and we also review the mutations found, among which we provide a new, undescribed alteration. CASES REPORT: The medical records of patients with a diagnosis of congenital myotonia studied and followed up in the pediatric neurology section in a tertiary hospital between the years 2015-2020 were reviewed. Demographic variables (age, sex), disease course (age of onset, symptoms and signs, time elapsed until diagnosis, clinical evolution), family history and evaluation of response to treatment were collected. Five cases with a clinical diagnosis of myotonia congenita were identified (three with Becker's disease and two with Thomsen's disease). The incidence in relation to the number of births is estimated at 1:15,000 newborns for cases with the Becker phenotype and 1:21,000 newborns for the Thomsen phenotypes. We found a probably pathogenic mutation not previously described (CLCN1: c.824T> C). CONCLUSIONS: the approximate incidence in our environment was higher than previously known and we describe a new, undescribed mutation: c.824T> C with pathogenicity predictors that behaved like a Becker recessive phenotype but with an earlier debut.

TITLE: Miotonía congénita. Incidencia y presentación de una serie de casos.Introducción. La miotonía congénita es la forma más común de miotonía de causa genética y se produce por mutaciones en el gen CLCN1. Puede heredarse de manera autosómica dominante o recesiva. Presentamos una serie de casos para actualizar su incidencia en nuestro medio, para describir su fenotipo en relación con el genotipo encontrado y, además, revisamos las mutaciones encontradas, entre las que aportamos una nueva alteración no descrita. Casos clínicos. Se revisaron las historias clínicas de pacientes con diagnóstico de miotonía congénita estudiados y seguidos en la consulta de neurología pediátrica en un hospital de tercer nivel entre los años 2015 y 2020. Se recogieron variables demográficas (edad y sexo), curso de la enfermedad (edad de inicio, síntomas y signos, tiempo transcurrido hasta el diagnóstico y evolución clínica), antecedentes familiares y evaluación de la respuesta al tratamiento. Se identificaron cinco casos con diagnóstico clínico de miotonía congénita (tres con enfermedad de Becker y dos con enfermedad de Thomsen). La incidencia en relación con el número de nacimientos la estimamos en 1:15.000 recién nacidos para los casos con fenotipo Becker y en 1:21.000 recién nacidos para los fenotipos Thomsen. Hallamos una mutación probablemente patogénica no descrita previamente (CLCN1: c.824T>C). Conclusiones. La incidencia aproximada en nuestro medio fue superior a la previamente conocida y describimos una nueva mutación no descrita: c.824T>C, con predictores de patogenicidad, que se comportó como un fenotipo recesivo Becker, pero con inicio más temprano.