Pituitary apoplexy MRI: Difference between revisions
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[[File:Sellar MRI depicting signs of a acute pituitary apoplexy in two patients (a) a hyperintense lesion impinging optical chiasm in noncontrasted T1-weighted scan and (b) a peripheral rim in a contrasted T1-weighted scan.jpg|center|400px|Sellar MRI depicting signs of a acute pituitary apoplexy in two patients (a) a hyperintense lesion impinging optical chiasm in noncontrasted T1-weighted scan and (b) a peripheral rim in a contrasted T1-weighted scan.]] | [[File:Sellar MRI depicting signs of a acute pituitary apoplexy in two patients (a) a hyperintense lesion impinging optical chiasm in noncontrasted T1-weighted scan and (b) a peripheral rim in a contrasted T1-weighted scan.jpg|center|400px|Sellar MRI depicting signs of a acute pituitary apoplexy in two patients (a) a hyperintense lesion impinging optical chiasm in noncontrasted T1-weighted scan and (b) a peripheral rim in a contrasted T1-weighted scan.]] | ||
*The above figure shows a sellar MRI depicting signs of a acute pituitary apoplexy in two patients (a) hyperintense lesion impinging optical chiasm in noncontrasted T1-weighted scan and (b) peripheral rim in a contrasted T1-weighted scan. | *The above figure shows a sellar MRI depicting signs of a acute pituitary apoplexy in two patients (a) hyperintense lesion impinging optical chiasm in noncontrasted T1-weighted scan and (b) peripheral rim in a contrasted T1-weighted scan.<ref name="GlezerBronstein2015">{{cite journal|last1=Glezer|first1=Andrea|last2=Bronstein|first2=Marcello D.|title=Pituitary apoplexy: pathophysiology, diagnosis and management|journal=Archives of Endocrinology and Metabolism|volume=59|issue=3|year=2015|pages=259–264|issn=2359-3997|doi=10.1590/2359-3997000000047}}</ref> | ||
*MRI can also be done to determine response to therapy. | *MRI can also be done to determine response to therapy. |
Revision as of 13:53, 27 July 2017
Pituitary apoplexy Microchapters |
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Pituitary apoplexy MRI On the Web |
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Akshun Kalia M.B.B.S.[2]
Overview
MRI is done if the CT scan is suspicious for pituitary apoplexy. MRI is more sensitive than CT scan. MRI is more accurate in distinguishing the soft tissues of the pituitary from the surrounding bony structures. MRI is also superior to CT scan for detecting ischemia and infarction in brain tissue.
MRI
- MRI is done if the CT scan is suspicious for pituitary apoplexy. MRI is more sensitive than CT scan. MRI scan is more accurate in distinguishing the soft tissues of the pituitary from the surrounding bony structures. MRI is also superior to CT scan for detecting ischemia and infarction in brain tissue. MRI may show:
- The above figure shows a sellar MRI depicting signs of a acute pituitary apoplexy in two patients (a) hyperintense lesion impinging optical chiasm in noncontrasted T1-weighted scan and (b) peripheral rim in a contrasted T1-weighted scan.[3]
- MRI can also be done to determine response to therapy.
References
- ↑ Cho WJ, Joo SP, Kim TS, Seo BR (2009). "Pituitary apoplexy presenting as isolated third cranial nerve palsy with ptosis : two case reports". J Korean Neurosurg Soc. 45 (2): 118–21. doi:10.3340/jkns.2009.45.2.118.
- ↑ Kupec JT, Goebel SU (2009). "The missing ring sign". Am. J. Med. 122 (12): e1. doi:10.1016/j.amjmed.2009.06.014. PMID 19958874.
- ↑ Glezer, Andrea; Bronstein, Marcello D. (2015). "Pituitary apoplexy: pathophysiology, diagnosis and management". Archives of Endocrinology and Metabolism. 59 (3): 259–264. doi:10.1590/2359-3997000000047. ISSN 2359-3997.