Distal myopathies.

Advanced molecular genetic possibilities have made it possible to clarify and delineate an ever growing number of distinct new disease entities in the group of distal myopathies. These diseases share the clinical features of preferential muscle weakness in the feet and/or hands, and as they are genetic disorders that lead to progressive loss of muscle tissue they can also be called distal muscular dystrophies. More than 20 entities are currently identified and many are still waiting for genetic characterisation. No final diagnosis can be made on other grounds than by the molecular genetic defect. Besides the usual investigations, including electromyography and muscle biopsy, muscle imaging is very important in defining the precise pattern of muscle involvement. Based on the combination of age at onset, mode of inheritance, pathology and muscle imaging, the list of possible underlying genes can be tracked down to minimal number allowing for specific genetic testing.

Distal myopathies: from clinical classification to molecular understanding.

The distal myopathies are a group of rare diseases that in the past were primarily classified by eponyms. Classification criteria were the beginning of the disease, the distribution of the muscle weakness, the course of the disease, the prognosis, and histological changes in the muscle biopsy. Advances of molecular genetics have identified various genes and mutations in many of the clinical phenotypes. This led to modifications and extensions of the existing clinical classification. Our own study on 42 patients with distal myopathy including 15 patients from six families with matrin-3 mutation suggests that in distal myopathies (1) there seem to be no monogenetic classical phenotypes; (2) there are phenotypes with different genotypes and (3) phenotypes with genotypes that are usually associated with other than distal phenotypes. Some of these phenotypes could not be classified according to the traditional clinical classification. In matrin-3 associated myopathy most but not all patients had predominant distal weakness. Also in the initial families distal weakness myopathy was associated with vocal cord and pharyngeal weakness, this was observed in half of our patients. Three of 15 patients met the criteria of Welander-phenotype. The recent classification by Udd distinguishes major groups of myopathies based on age of onset, mode of inheritance, and morphological changes in muscle biopsy. In many but not all subforms of these major groups the genotype has been established so far.

Distal myopathies.

The distal myopathies are a heterogeneous group of genetic disorders defined by a predominant distal weakness at onset or throughout the evolution of the disease and by pathological data supporting a myopathic process. The number of genes associated with distal myopathies continues to increase. Fourteen distinct distal myopathies are currently defined by their gene and causative mutations, compared to just five entities delineated on clinical grounds two decades ago. The known proteins affected in the distal myopathies are of many types and include a significant number of sarcomeric proteins. The useful indicators for clinicians to direct towards a correct molecular diagnosis are the mode of inheritance, the age at onset, the pattern of muscle involvement, the serum creatine kinase level and the muscle pathology findings. This review gives an overview of the clinical and genetic characteristics of the currently identified distal myopathies with emphasis on some recent findings.

[A case of Japanese Laing type distal myopathy with a mutation in MYH7 gene].

A 67-year-old man developed weakness and atrophy of the anterior compartment of the lower leg at age 53 years, followed by weakness of proximal muscles of the upper limb. His father had difficulties in walking in his thirties and died of heart disease at age 45 years. He also had mild respiratory weakness without cardiac involvement. Muscle histology showed spheroid or cytoplasmic bodies-like inclusions with moth-eaten appearance and irregular intramyofibrillar network. Electron microscopy revealed abnormally thickened and disorganized Z lines (Z line streaming) between the surrounding myofibrils and electron-dense globular deposits. These pathological findings apparently suggested myofibrillar myopathy. However, genetic analysis revealed a mutation (c.5566G>A, p.E1856K) in MYH7 gene, that is responsible for Laing-type distal myopathy (LDM). This mutation was previously reported in a study from Austria. This is the first report of LDM in the Japanese population .

Distal myopathies a review: highlights on distal myopathies with rimmed vacuoles.

Distal myopathies are a group of heterogeneous disorders classified into one broad category due to the presentation of weakness involving the distal skeletal muscles. The recent years have witnessed increasing efforts to identify the causative genes for distal myopathies. The identification of few causative genes made the broad classification of these diseases under "distal myopathies" disputable and added some enigma to why distal muscles are preferentially affected. Nevertheless, with the clarification of the molecular basis of specific conditions, additional clues have been uncovered to understand the mechanism of each condition. This review will give a synopsis of the common distal myopathies, presenting salient facts regarding the clinical, pathological, and molecular aspects of each disease. Distal myopathy with rimmed vacuoles, or Nonaka myopathy, will be discussed in more detail.

Dysferlin mutation in a Chinese pedigree with Miyoshi myopathy.

OBJECTIVES: Mutations in the dysferlin gene cause two autosomal recessive forms of muscular dystrophy: Miyoshi myopathy and limb-girdle muscular dystrophy type 2B. The purpose of this study was to diagnose a Chinese pedigree with the autosomal recessive form of muscular dystrophy and conduct mutational screening. METHODS: The pedigree was diagnosed accurately by using two-point linkage analysis and multi-Western blot analysis. Mutations were determined by reverse transcriptase polymerase chain reaction (RT-PCR) followed by DNA sequencing. RESULTS: Two-point linkage analysis showed significant LOD scores with makers from chromosome 2p13. Multi-Western blot analysis confirmed dysferlin deficiency of muscle specimen from the propositus. Mutation analysis of the dysferlin gene revealed a novel mutation, 6429delG, on exon 53. CONCLUSIONS: We identified an inbred Chinese pedigree with Miyoshi myopathy caused by the 6429delG mutation in the dysferlin gene. This mutation is predicted to result in premature termination of translation contributing to Miyoshi myopathy.

[Cystinosis: an infrequent cause of distal myopathy]. / Cistinosis: una causa infrecuente de miopatía distal.

INTRODUCTION: Cystinosis is a hereditary disease with clinical symptoms that are caused by the accumulation of cystine crystals in different tissues. Distal vacuolar myopathy has been reported as one of its later complications. CASE REPORT: Here, we present the case of a 20-year-old male diagnosed with cystinosis at the age of 2 years, with severe renal involvement that required a transplant. The patient gradually developed weakness and atrophy of the muscles in his hands. Neurophysiological and histological studies enabled a diagnosis of distal vacuolar myopathy to be established, and electron microscopy revealed deposits of cystine crystals. CONCLUSIONS: Cystinosis must be included within the differential diagnosis of distal myopathies. Timely treatment with cysteamine could prevent the development of this complication.

[Familial and sporadic distal myopathy with rimmed vacuoles: comparison of the clinical, pathological, laboratory test and follow-up data].

OBJECTIVE: To compare the clinical, pathological, laboratory test and follow-up data between familial and sporadic patients with distal myopathy with rimmed vacuoles (DMRV) and discuss the characteristics of this disorder in Chinese population. METHODS: The clinical and pathological features, laboratory data and follow-up results of 33 sporadic and 4 familial cases of pathologically confirmed DMRV were summarized and compared retrospectively. RESULTS: The patients age, onset age, or disease duration showed no significant difference between sporadic and familial cases; the onset pattern and affected muscle groups were also similar, but the sporadic cases showed more frequent dysmorphic features than the familial cases. The patients showed mild to moderate elevation of the muscle enzymes by one to three folds, and the familial patients had more significant elevation than the sporadic ones. No correlation was found between the disease duration and the level of muscle enzymes. The pathological findings were similar between the cases, and Gomori staining showed rimmed vacuoles and inclusion bodies without inflammatory cell infiltration. Follow-up results of 29 cases showed no significant difference between the two groups. The disease was slowly progressive and severely affected the quality of life of the patients, but did not produce obvious effect on the life expectancy. CONCLUSION: The clinical, pathological and laboratory data of Chinese DMRV patients are basically similar to those of Japanese cases. Sporadic cases tend to show more dysmorphic features than the familial ones, and occasional sporadic cases have early disease onset in early childhood.

Distal myopathies.

PURPOSE OF REVIEW: The distal myopathies are a heterogeneous group of disorders that pose a challenge to both the clinician and geneticist. This article summarizes the findings of recent clinical, genetic and molecular studies and the current diagnostic approach to this group of patients. RECENT FINDINGS: Publications over the past 5 years describe a number of new clinical phenotypes and genetic loci and further emphasize the overlap in clinical phenotype between a number of these disorders and between the distal and limb girdle myopathies and hereditary inclusion body myopathies. Recent studies have led to the identification of the genes and mutations responsible for early onset (Laing) myopathy and tibial (Udd) myopathy, and for distal myopathy with rimmed vacuoles (Nonaka), which has been shown to be allelic with quadriceps sparing hereditary inclusion body myopathy (IBM2), and have elucidated the underlying pathogenetic mechanisms in these conditions. New diagnostic approaches using magnetic resonance imaging, and a blood-based assay for dysferlin deficiency, have also been reported. SUMMARY: These findings have important implications for future genetic linkage and gene expression studies and for the diagnostic approach to patients with a distal myopathy phenotype. They also hold promise for the eventual development of therapies for this group of disorders.