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| ==Symptoms== | ==Symptoms== | ||
| *Common muscle weakness |
*Common muscle weakness. Also (R25.2) ] (M25.6) ], and (R29.0) ] | ||
| ==Treatments== | ==Treatments== | ||
Revision as of 20:00, 6 December 2010
Medical condition| Myopathy | |
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| Specialty | Rheumatology  |
In medicine, a myopathy is a muscular disease in which the muscle fibers do not function for any one of many reasons, resulting in muscular weakness. "Myopathy" simply means muscle disease (myo- Greek μυο "muscle" + pathos -pathy Greek "suffering"). This meaning implies that the primary defect is within the muscle, as opposed to the nerves ("neuropathies" or "neurogenic" disorders) or elsewhere (e.g., the brain etc.). Muscle cramps, stiffness, and spasm can also be associated with myopathy.
Muscular disease can be classified as neuromuscular or musculoskeletal in nature.
Some conditions, such as myositis, can be considered both neuromuscular and musculoskeletal.
Classes
There are many types of myopathy. See http://neuromuscular.wustl.edu/ for medical descriptions. ICD-10 codes are provided here where available.
Congenital
- (G71.0) Dystrophies (or muscular dystrophies) are a subgroup of myopathies characterized by muscle degeneration and regeneration. Clinically, muscular dystrophies are typically progressive, because the muscles' ability to regenerate is eventually lost, leading to progressive weakness, often leading to use of a wheelchair, and eventually death, usually related to respiratory weakness.
- (G71.1) Myotonia
- (G71.2) The congenital myopathies do not show evidence for either a progressive dystrophic process (i.e., muscle death) or inflammation, but instead characteristic microscopic changes are seen in association with reduced contractile ability of the muscles. Among others, different congenital myopathies include:
- (G71.2) nemaline myopathy (characterized by presence of "nemaline rods" in the muscle),
- (G71.2) multi/minicore myopathy (characterized by multiple small "cores" or areas of disruption in the muscle fibers),
- (G71.2) centronuclear myopathy (or myotubular myopathy) (in which the nuclei are abnormally found in the center of the muscle fibers) is a rare muscle wasting disorder.
- (G71.3) Mitochondrial myopathies are due to defects in mitochondria, which provide a critical source of energy for muscle.
- (G72.3) Familial periodic paralysis
- (G72.4) Inflammatory myopathies are caused by problems with the immune system attacking components of the muscle, leading to signs of inflammation in the muscle.
- (G73.6) Metabolic myopathies result from defects in biochemical metabolism that primarily affect muscle
- (G73.6/E74.0) Glycogen storage diseases may affect muscle
- (G73.6/E75) Lipid storage disorder
Acquired
- (M33.0-M33.1)
- Dermatomyositis produces muscle weakness and skin changes. The skin rash is reddish and most commonly occurs on the face, especially around the eyes, and over the knuckles and elbows. Ragged nail folds with visible capillaries can be present. It can often be treated by drugs like corticosteroids or immunosuppressants. (M33.2)
- Polymyositis produces muscle weaknesss. It can often be treated by drugs like corticosteroids or immunosuppressants.
- Inclusion body myositis is a slowly progressive disease that produces weakness of hand grip and straightening of the knees. No effective treatment is known.
- (M61) Myositis ossificans
- (M62.89) Rhabdomyolysis and (R82.1) myoglobinurias
- Can be caused by STATINS| Citation:BMJ 2010;340:c2197
Glucocorticoid induced myopathy: Glucocorticoids whether is endogenous as seen in Cushing's syndrome or exogenously during prolonged glucocorticoid therapy with drugs such as hydrocortrisone, prednisone, methylprednisolone, triamcinolone or dexamethsone cause proximal myopathy. Fluorinated glucocorticois (triamcinolone and prednisone) are more likely to induce myopathy. glucocorticoids affect fast twitch muscle fibers, a group of muscle with the ability of short term anaerobic function. Glucocrticoids affect both synthesis and degradation of muscle fibers. In rats fast twitch type II are affected the most. the degradation is due to increase catabolism of myofibrilar content of the muscle. Glucocorticoids mediate their catabolic effect through expression of myostatin(1). Myostatin is a member of growth and diferentiation family of proteins. Glucocorticoids increases both mRNA and protein expression of myostatin dose dependently. After expression of myostatin by glucocorticoids in the muscle cells(myocytes),it acts both by endocrine (secretion from myocytes to the blood) and paracrine( secrete from myocytes localy and acts on itself) mechanism. Myostatin in turn activates a set of factors in the muscle leading to activation of ubiquitin-proteasome pathway, leading the decline in myosin heavy chain type II. The ubiquitin-proteasome pathway is the protein degradation machinery inside of the cells, and consequently degradation of muscle ensues. In fact knckout mouse with deletion of myostatin gene do not develop glucocorticoid myopathy(2) Manifestation of glucocorticoid myopathy are muscle weakness, dificulty to stand up without use of hands and dificulty combing hairs. After prolonged period of exposure to glucocorticoids ( endogenous or exogenous) severe muscle weakness develops. Histologically angulation of muscle fibers, Muscle fibers atrophy, and in prolonged cases replacement of muscle fiber by fat can be seen. Absence of inflammatory cells in presence of muscle atrophy is the hallmark of the condtion. There is limited therapeutic trial on drugs that could counteract the effect of glucocorticoids on muscle. Exercise, IGF1, testosterone and glutamine (3) has been shown in animal to decrease the deleterious effect of glucocorticoids, but no randomised trial so far has been done in humans.
1)Ma K, Mallidis C, Bhasin S, Mahabadi V, Artaza J, Gonzalez-Cadavid N, Arias J, Salehian B.Glucocorticoid-induced skeletal muscle atrophy is associated with upregulation of myostatin gene expression.Am J Physiol Endocrinol Metab. 2003 Aug;285 3)Salehian B, Mahabadi V, Bilas J, Taylor WE, Ma K. The effect of glutamine on prevention of glucocorticoid-induced skeletal muscle atrophy is associated with myostatin suppression. Metabolism. 2006 Sep;55(9):1239-47.
Symptoms
Treatments
Because different types of myopathies are caused by many different pathways, there is no single treatment for myopathy. Treatments range from treatment of the symptoms to very specific cause-targeting treatments. Drug therapy, physical therapy, bracing for support, surgery, massage, and even acupuncture are current treatments for a variety of myopathies.
References
| Diseases of muscle, neuromuscular junction, and neuromuscular disease | |||||||||||||||||||||||||||
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| Neuromuscular- junction disease | |||||||||||||||||||||||||||
| Myopathy |
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| Systemic connective tissue disorders | |||||||||
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| General |
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| Other hypersensitivity/autoimmune | |||||||||
| Other | |||||||||