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Query: UMLS:C0026850 (muscular dystrophy)
 5,870 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 40-year-old man suffered for 5 years from a progressive proximal myopathy mimicking an atypical limb-girdle dystrophy. A "myopathic" pattern with myotonic and pseudomyotonic discharges was determined by electromyography. Enzyme histochemical and ultrastructural investigations of muscle and liver biopsies pointed to a glycogenosis. Biochemical investigations of muscle and liver samples confirmed this diagnosis, disclosing an acid maltase deficiency. Glycogen filled lysosomes were also revealed electron optically in skin fibroblasts but not in white blood cells. The literature concerning the late onset forms of acid maltase deficiency (type II glycogenosis) has been reviewed, and the clinical course has been compared with that of the infantile form (Pompe's disease). In early infancy the disease has a short and fatal course, with involvement of many organs. primarily skeletal muscules, liver and heart. In the late infantile and juvenile forms the course of the disease is slower, the organ involvement beeing not as severe; muscular symptoms begin to prevail. In adults, type II glycogenosis mimics muscular dystrophy with its prolonged course and the almost exclusive clinical involvement of proximal muscles. Biochemical and ultrastructural investigations have nevertheless demonstrated that other organs and tissues are also involved. The reasons for the variability of organ involvements in different ages are as yet unknown.
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PMID:[Pseudodystrophic muscle glycogenosis in adults. (Acid maltase deficiency syndrome) (author's transl)]. 6 Dec 60

An 11-year-old boy who was previously thought to have progressive muscular dystrophy was studied clinically, biochemically, and histologically. He was seen initially with an amyotonic syndrome with no clinical evidence of heart disease. Light and histochemical examination showed vacuolar degeneration and abnormal accumulation of glycogen in the muscular fibers. Electron microscopy showed aggregates of glycogen granules surrounded by a well-defined membrane, as in previously reported cases of type II glycogenosis. Enzymatic study disclosed that acid alpha-glucosidase was deficient in muscle, liver, and heart tissue, although neutral alpha-glucosidase was present within normal ranges. Measurement of acid and neutral alpha-glucosidase activity in muscle from the patient and his sisters and in urine from them and their parents indicated that his sisters are heterozygotes and his parents probably are heterozygotes. The disease was transmitted as an autosomal-recessive trait.
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PMID:Muscular form of glycogenosis type II (Pompe's disease). 37 66

Congenital malformations and inherited disorders constitute a substantial proportion of the afflictions seen in sheep and goats. Of these, malformations tend to be similar in both species, whereas the genetic diseases encountered to date, with the exception of a few, are different. Of the 28 genetic diseases of sheep and goats described in this review, 60% and 62.5%, respectively, are monogenic disorders. For a majority of the monogenic recessive disorders encountered in these species, the carrier state is not detectable at present, whereas in others, in which a biochemical lesion is known (dermatosparaxis, erythrocyte glutathione deficiency, globoid cell leukodystrophy and glycogen storage disease), the carrier state is detectable with the aid of enzyme and surface protein markers. The latter group and the dominant disorders (anury, cataract, glomerulonephritis, and lethal grey in sheep; gynecomastia and anotia-microtia complex in goats) are easy to eliminate through selective breeding. The polygenic disorders (entropion, epidermolysis bullosa, hereditary chondrodysplasia, and muscular dystrophy of sheep, and udder problems in goats) are more difficult to eradicate, because the mutant genes responsible for these traits generally do not declare themselves until inbreeding brings together a critical concentration to create a health crisis in some, whereas others, which are only short of a few of these mutant genes, might go totally unaffected and therefore undetected. Chromosome defects of the structural nature (translocations) seen in sheep and goats generally create meiotic disturbances, which in a majority of cases lead to subfertility, whereas sex chromosome aneuploids are generally sterile.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Genetic diseases of sheep and goats. 224 74

A comparative study of human and animal muscular dystrophies revealed a number of differences in clinical symptoms and muscle pathology. In chicken muscular dystrophy (line 413), the white muscle was preferentially involved with striking vacuole formation in the sarcoplasm. Despite massive muscle fiber necrosis with phagocytosis which occurred in large groups in both hamsters (BIO 14.6) and mdx mouse dystrophies, the regenerating process compensated for the muscle fiber degeneration and resulted in no apparent clinical symptoms. Although the overall muscle pathology in dy mice (C57BL6J/dy+/dy+) including variation in fiber size, active fiber necrosis, interstitial fibrosis and progressive fatal course were very similar to those in human muscular dystrophy, dysmyelination at the anterior spinal roots in the mouse suggested the coexistence of neuropathic processes, which was probably involved in inducing muscle atrophy and weakness. A Japanese quail with slowly progressive muscle weakness was assumed to be a very important animal model for the adult onset type of human type II glycogenosis because there were very close morphological and biochemical similarities between the two species.
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PMID:Animal models utilized in research on muscular diseases in Japan. 360 89

A 25 years old woman was admitted with a history of apparent hypertrophy of the calves, specially on the left, slight pain in the legs and difficulty in walking. Electromyography showed giant motor unit potentials with complete interference pattern. Biopsy of both gastrocnemii was performed revealing a cysticercus among inflammatory infiltrate and changes of the muscle fibers. Review of the literature disclosed 12 other reported cases. The age ranged from 10 to 35 years with a median of 25 years. Pseudohypertrophic myopathy due to cysticercosis has been found twice more common in males than in females. History of epilepsy and muscle pain occurs in about one half of the cases and muscle weakness in about one third of them. Usually there is simultaneous involvement of the upper and lower limb girdles. Myotonia is rare but subcutaneous nodules are frequently found. Our case is unique in the literature in which the pseudohypertrophy was confined to the legs and electromyography showed giant motor unit potentials. The pathogenesis of this condition is discussed and attention is called to the differential diagnosis with other pseudohypertrophic muscular conditions such as pseudohypertrophic muscular dystrophy, myotonia congenita, trichinosis, hypothyroidism, amyloidosis and glycogenosis of type I (Pompe's disease) in its juvenile form.
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PMID:[Pseudohypertrophic myopathy caused by cysticercosis. Report of a case]. 383 41

Desmin and vimentin are two intermediate filaments, abundant in fetal skeletal muscle, almost undetectable in mature skeletal muscle which increase in regenerating and partially damaged skeletal muscle fibers. To determine their content in neuromuscular disorders immunohistochemical studies of desmin and vimentin were performed on 53 human muscle specimens. The labelled streptavidin biotin technique (DAKO, LSAB Kit, alkaline phosphatase) was used. Strong staining intensity was seen in regenerating and partially damaged fibers of inflammatory myopathies and muscular dystrophy. Necrotic fibers lost their reactivity for both filaments. Type II glycogenosis showed an increased reactivity for desmin and vimentin. A mild increase in desmin and vimentin staining intensity was observed in the atrophic cells of spinal muscular atrophy, but not in the atrophic fibers from other disease entities. Weaker reactivity for desmin was noted in atrophic cells of myotonic dystrophy. The immunohistochemical study of desmin and vimentin in neuromuscular disorders is helpful in detecting degeneration, or regeneration changes, of muscle fibers and may provide clues to the pathogenesis of various muscular disorders.
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PMID:Immunocytochemical studies on desmin and vimentin in neuromuscular disorders. 774 34

We report a 21-year-old man with distal dominant progressive muscle atrophy. The patient was apparently well until 17 years of age when he noted a decrease in exercise tolerance. One year later, he noted difficulty in arising his heels when the walked. He was admitted to our service for the work up in June 10, 1992. On admission, the patient was rather slender in the body build up; otherwise general physical examination was unremarkable. Upon neurologic examination, mental status and higher cerebral functions were normal. In the cranial nerves, the sternocleidomastoid muscles were atrophic bilaterally; other cranial nerves appeared intact. His gait was unstable and he showed steppage gait; walking on toes and heels were impossible. Distal dominant muscle atrophy was noted in both upper and lower extremities. Muscle strength in the deltoid, biceps brachii and triceps brachii was normal. In the lower extremities, both tibialis anterior and triceps surae muscles were weak (3/5). The iliopsoas and quadriceps femoris muscles were normal, however, the adductor muscles of the thigh showed marked weakness (2/5). Myotonia was absent. Deep reflexes were decreased; sensation was intact. Routine blood tests were unremarkable; CK was 96 IU/l, lactate 6.9 mg/dl, and pyruvate 0.61 mg/dl. After an ischemic forearm exercise test, blood lactate level rose to 22.5mg/dl (base line 11.2), and blood ammonia to 88.3 micrograms/dl (base line 71.2). EMG showed myogenic changes and myotonic discharges. A diagnostic biopsy was performed. The patient was discussed in a neurologic CPC, and the chief discussant arrived at the conclusion that the patient had type III glycogen storage disease. The differential diagnosis included rimmed vacuole type myopathy, Miyoshi type distal muscular dystrophy, Welander type muscular dystrophy, adult type acid-maltase deficiency, and lysosomal glycogen storage disease with normal acid maltase. However, characteristic clinical presentation of initial weakness in the triceps surae muscle associated with atrophy of the sternocleidomastoid muscle confirmed best of the clinical characteristics of type III glycogen storage disease; the only finding which did not fit with its diagnosis was elevation of the blood lactate level after the ischemic exercise test. The muscle biopsy specimen showed marked vacuole formation; approximately 20 to 30% of the vacuoles were rimmed vacuoles, however, the majority was not rimmed. PAS staining on an epon-embedded specimen revealed marked accumulation of PAS-positive materials in those vacuoles as well as in the interfascular space. The non-rimmed vacuoles were not positively stained in the acid-phosphatase staining, which exclude the diagnosis of acid maltase deficiency. No mitochondrial abnormalities were found.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[A 21-year-old man with distal dominant progressive muscle atrophy]. 778 29

Storage disorders and neuromuscular disorders may lead to cardiac involvement which can be visualized by echocardiography. In storage disorders like hypothyroidism, haemochromatosis, amyloidosis, mucopolysaccharidosis and Fabry's disease, myocardial thickening and systolic dysfunction can be found. In amyloidosis, atrial enlargement and abnormal texture of the myocardium are additional findings. In advanced haemochromatosis all cardiac chambers may be dilated. In hypothyroidism and amyloidosis, a pericardial effusion can be present. In haemochromatosis and amyloidosis, a restrictive filling pattern may be detected using Doppler-sonography. Mucopolysaccharidosis and Gaucher's disease may lead to aortic and mitral stenosis. In neuromuscular disorders like glycogenosis, mitochondriopathy and myotonic dystrophy, myocardial thickening and systolic dysfunction are found, in spinal muscular atrophy myocardial thickening and in muscular dystrophy Becker/Duchenne systolic dysfunction. An abnormal myocardial texture may be present in glycogenosis, isolated left ventricular abnormal trabeculation (ILVAT) in mitochondriopathy, myotonic dystrophy and muscular dystrophy Becker/Duchenne. Using Doppler-sonography an impaired relaxation of the left ventricle may be detected in mitochondriopathy, myotonic dystrophy and spinal muscular atrophy. Most of these echocardiographic findings are unspecific and may be overlooked, especially if the storage or neuromuscular disorder is yet unknown. Establishing a correct diagnosis is important, since healing or functional improvement is possible in many of these disorders.
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PMID:[Echocardiography in storage and neuromuscular disorders]. 1146 86

Floppiness in an infant may have a number of different etiologies from disorders of the brain to spinal cord lesions, neuropathies, neuromuscular junction disorders and myopathies. In this study we aimed to investigate the correlation of muscle ultrasonography (US) and electromyography (EMG) in the diagnosis of floppy infants. The study encompassed 41 floppy infants aged 2-24 months. The muscle US and EMG examinations were performed without awareness of the clinical diagnosis. The final diagnosis was established by molecular genetic tests or muscle/nerve biopsy. The neurogenic group consisted of 16 infants according to their US and EMG findings. Fifteen of them had spinal muscular atrophy proven by genetic analysis and one had polyneuropathy diagnosed by nerve biopsy. Six infants were in the myopathic group according to their muscle US and EMG results. All of them underwent muscle biopsy and microscopic examination revealed five congenital muscular dystrophy and one glycogen storage disease. In two infants the US and EMG data conflicted. Their biopsies were also insufficient for the diagnosis. Seventeen infants had normal US and EMG findings but pathologic cranial magnetic resonance imaging or metabolic/genetic tests. They were considered in the group of central hypotonia. Our results suggest a high concordance of US and EMG findings in the diagnostic work-up of neurogenic and myopathic disorders.
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PMID:Muscle ultrasonography and electromyography correlation for evaluation of floppy infants. 1253 29

Although muscle diseases occur relatively rarely in cats, a number of congenital feline myopathies have been described over the last 20 years and are reviewed in this paper. Some of them have been reported exclusively in specific breeds, including the hypokalaemic myopathy of Burmese cats, type IV glycogen storage disease in Norwegian Forest cats, or the myopathy of Devon Rex. Other congenital disorders of muscle and neuromuscular junction such as myotonia congenita, dystrophin-deficient hypertrophic feline muscular dystrophy, laminin alpha2 deficiency, or congenital myasthenia gravis may occur in any cat. A systematic approach is essential in order to efficiently obtain a timely diagnosis in cats showing signs of muscle disease. After a thorough clinical examination, this approach includes blood analyses (eg, serum concentration of muscle enzymes), electrophysiology where available (electromyography, nerve conduction studies), and sampling of muscle biopsies for histological, histochemical and immunohistochemical evaluation. When available, detection of healthy carriers of these genetic disorders is important to eliminate the gene mutations from breeding families. Clinicians regularly receiving feline patients must have a good knowledge of congenital feline myopathies and the features which enable a diagnosis to be made and prognosis given. Besides preserving or restoring the well-being of the myopathic patient, rapid and efficient information and counselling of the breeders are of central importance in order to prevent the recurrence of the problem in specific breeding lines.
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PMID:Congenital diseases of feline muscle and neuromuscular junction. 1554 67


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