Difference between revisions of "Myocardial Mineralisation"
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(Created page with ' *'''Dytrophic''': Calcium is deposited due to damage of the myocyte. Myocyte damage may be: **Hypoxia. **Vitamin E/Selenium deficiency. *'''Metastatic''': Occurs with elevated …') |
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*'''Dytrophic''': Calcium is deposited due to damage of the myocyte. Myocyte damage may be: | *'''Dytrophic''': Calcium is deposited due to damage of the myocyte. Myocyte damage may be: | ||
**Hypoxia. | **Hypoxia. | ||
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**Vitamin D toxicity. | **Vitamin D toxicity. | ||
**Secondary hyperparathyroidism. | **Secondary hyperparathyroidism. | ||
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| + | {{Learning | ||
| + | |flashcards = [[Myocardial Pathology Flashcards]] | ||
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[[Category:Myocardial_Pathology]][[Category:Cardiovascular_System_-_Metabolic_Pathology]] | [[Category:Myocardial_Pathology]][[Category:Cardiovascular_System_-_Metabolic_Pathology]] | ||
| + | [[Category:Cardiology Section]] | ||
Latest revision as of 16:57, 15 October 2013
- Dytrophic: Calcium is deposited due to damage of the myocyte. Myocyte damage may be:
- Hypoxia.
- Vitamin E/Selenium deficiency.
- Metastatic: Occurs with elevated serum calcium for example will occur with:
- Vitamin D toxicity.
- Secondary hyperparathyroidism.
| Myocardial Mineralisation Learning Resources | |
|---|---|
 Test your knowledge using flashcard type questions |
Myocardial Pathology Flashcards |