Difference between revisions of "White Muscle Disease"
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Also known as '''Stiff lamb disease''', characterised by myodegeneration. Disease is stress induced so the breakdown of muscle relies on increased muscle activity. Muscle degenerates due to a failure to control the free radicals produced by its metabolism upon contraction. Free radicals damage cellular membranes and proteins. | Also known as '''Stiff lamb disease''', characterised by myodegeneration. Disease is stress induced so the breakdown of muscle relies on increased muscle activity. Muscle degenerates due to a failure to control the free radicals produced by its metabolism upon contraction. Free radicals damage cellular membranes and proteins. | ||
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The damage caused by Zenker degeneration is reversible if the sarcolemma remains intact. | The damage caused by Zenker degeneration is reversible if the sarcolemma remains intact. | ||
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| + | [[Image:White muscle disease.jpg|right|thumb|100px|<small><center>White muscle disease (Image sourced from Bristol Biomed Image Archive with permission)</center></small>]] | ||
| + | [[Image:White muscle disease histo.jpg|right|thumb|100px|<small><center>White muscle disease (Image sourced from Bristol Biomed Image Archive with permission)</center></small>]] | ||
| + | *Very important economic disease of sheep, cattle and pig | ||
| + | *Caused by: | ||
| + | **Deficiency of selenium, vitamin E or both | ||
| + | **Exacerbated by rapid growth, unaccustomed exercise or other dietary factor | ||
| + | *Pathogenesis: | ||
| + | **Oxygen free radicals (OFR) can damage cell membranes | ||
| + | **Vitamin E usually mops up OFRs | ||
| + | **Selenium as part of glutathione peroxidase neutralises effects of OFRs | ||
| + | **If Vit E or Se are deficient -> the balance shifts to membrane damage, calcium entry and mitochondrial damage -> cell swells and dies -> segmental muscle [[Muscles Degenerative - Pathology#Necrosis|necrosis]] | ||
| + | *Grossly: | ||
| + | **Lesions are bilaterally symmetrical in hard working muscles (vary with species) | ||
| + | **Early lesions are pale areas and streaks | ||
| + | ***Difficult to see especially in pale muscles | ||
| + | **Later becoming calcified necrotic areas | ||
| + | ***More obvious | ||
| + | **Pigs also have lesions in their [[Hyaline Degeneration|heart]] and [[Liver Fibrosis#Hepatosis dietica|liver]] | ||
| + | *Histologically: | ||
| + | **[[Muscles Degenerative - Pathology#Necrosis|Segmental necrosis]] +/- [[Muscles Degenerative - Pathology#Calcification|calcification]] and [[Muscle Regeneration|regeneration]] | ||
| + | **Multifocal and multiphasic lesions | ||
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| + | [[Category:Muscles - Degenerative Pathology]] | ||
Revision as of 18:03, 3 March 2011
Also known as Stiff lamb disease, characterised by myodegeneration. Disease is stress induced so the breakdown of muscle relies on increased muscle activity. Muscle degenerates due to a failure to control the free radicals produced by its metabolism upon contraction. Free radicals damage cellular membranes and proteins.
Muscle damage allows the release of:
- Potassium: can lead to heart failure.
- Myoglobin: can lead to renal failure.
- Creatine Kinase: useful to measure muscle damage.
Grossly the damaged muscle will contain white streaks.
The damage caused by Zenker degeneration is reversible if the sarcolemma remains intact.
- Very important economic disease of sheep, cattle and pig
- Caused by:
- Deficiency of selenium, vitamin E or both
- Exacerbated by rapid growth, unaccustomed exercise or other dietary factor
- Pathogenesis:
- Oxygen free radicals (OFR) can damage cell membranes
- Vitamin E usually mops up OFRs
- Selenium as part of glutathione peroxidase neutralises effects of OFRs
- If Vit E or Se are deficient -> the balance shifts to membrane damage, calcium entry and mitochondrial damage -> cell swells and dies -> segmental muscle necrosis
- Grossly:
- Histologically:
- Segmental necrosis +/- calcification and regeneration
- Multifocal and multiphasic lesions