November 2005 Imaging pituitary gland tumors Neel Varshney,, Harvard Medical School Year IV
Two categories of presenting signs of a pituitary mass Functional tumors present with symptoms due to excess hormone release. Excess prolactin is called a prolactinoma. Excess ACTH due to a pituitary adenoma is called Cushing s s disease. Excess TSH. Excess GH produces acromegaly. Functional tumors tend to present as microadenomas (a mass <10mm in size). Acromegaly is an exception, as it can present as a relatively large mass if the symptoms of bony growth, like increased hand and foot size, are not noticed until late in the disease. Non-functional Tumors present with symptoms due to mass effect. Because they do not produce symptoms due to excess hormone release, they are often macroadenomas (a mass >10mm in size) by time of detection. Gonadotropin (FSH, LH) releasing tumors usually present as non- functional masses. 2
Patient 1 A 69 year old male presents with a headache and visual field deficits. 3
Working up a suspected pituitary mass Work-up should include a hormonal evaluation. High levels of a hormone indicate the type of tumor (see table). Low values are also significant. Hyposecretion of a hormone suggests compressive effect and the need for possible replacement. Hormone levels also establish a baseline to monitory success of therapeutic intervention. High levels of Prolactin ACTH + 24hr urine cortisol TSH + T4 Suggest Prolactinoma Cushing s s disease TSH-secreting tumor IGF-1* Acromegaly Workup should also include a radiologic evaluation. FSH, LH, sex Gonadotropin- steroids secreting tumor *GH is released in a pulsatile manner and a single elevated value is not an accurate marker of disease. 4
Choice of imaging modalities MRI is the modality of choice for imaging the pituitary gland. The standard protocol is: Precontrast T1 weighted thin slices through the sella (sagittal, coronal planes) Gadolinium contrast Repeat coronal and sagittal T1 sequences T2 sequence not considered part of standard protocol but is useful for detecting cystic changes and hemorrhage Use CT in patients with contraindications to MRI. 5
Reviewing the anatomy of the sellar region Depiction of sellar anatomy Companion patient 1: MRI of the sellar region C: Optic Chiasm A: Pituitary Gland I: Cavernous portion of Internal Carotid Artery *: Sphenoid Sinus Arrowhead: Pituitary Stalk www.neurosurgery.medsch.ucla.edu Victor Haughton, MD and Todd Peebles, MD http://www.endotext.org/neuroendo/neuroendo4/neuroendo4.htm 6
Patient 1 images MRI of the pituitary gland Precontrast sagittal T1 image shows a large sellar mass. BIDMC PACS system T1 with gado in the sagittal plane shows heterogeneous enhancement of the sellar mass. 7
Patient 1 images MRI of the pituitary gland Precontrast coronal T1 image again shows a large sellar mass. BIDMC PACS system T1 with gado in the coronal plane shows heterogeneous enhancement of the sellar mass. The mass is invading the left cavernous sinus but the left ICA remains patent. 8
DDX of a Sellar Mass Benign tumor Micro/macroadenomas (this is the most common cause of a sellar mass) Craniopharyngioma Meningioma Malignant primary tumors Metastatic tumors Lung Breast Pituitary hyperplasia Cyst Rathke s cleft Abcess Lymphocytic hypophysitis Carotid AV fistula 9
Imaging the pituitary Macroadenomas easily detected on imaging Microadenomas more difficult to detect because of smaller size Appear as a focal area of low signal on non-contrast T1. Peak enhancement of the microadenoma occurs after normal tissue. Therefore, scanning immediately after giving contrast bolus, in a method called dynamic MR imaging, increases test sensitivity. Functional adenomas not distinguishable on MRI. 10
Dynamic imaging of microadenomas Companion patient 2: Advantage of dynamic MRI in imaging microadenomas A small area of low signal intensity within the pituitary gland prior to contrast (left image) is more distinguishable immediately after gado is given (right image). Victor Haughton, MD and Todd Peebles, MD http://www.endotext.org/neuroendo/neuroendo4/neuroendo4.htm 11
Pituitary apoplexy: a sequela of macroadenoma Companion patient 3: MRI image Acute onset of neurologic symptoms caused by tumor hemorrhage and expansion of gland Occurs in 3-26% 3 of macroadenomas T1 and T2 weighted images together suggest age of hemorrhage Treatment includes steroids, endocrine evaluation, surgical decompression Coronal T1 image shows areas of high and moderate intensity, suggestive of hemorrhage. Dulipsingh L and Lassman MN (2000). Images in Clinical Medicine: Pituitary Apoplexy. NEJM. 342:550. 12
Surgical treatment and post-op op imaging Transsphenoidal approach to pituitary surgery Immediately post-op, op, mass size may appear unchanged due to packing materials Volume of mass decreases over next few months http://www.pituitarysociety.org/public/specific/acromegaly/images/pituitarysurgery.gif s/pituitarysurgery.gif 13
Conclusions Functional tumors present with symptoms, signs related to excess hormone. Panel of hormonal tests helps determine type of tumor. Functional tumors are challenging to detect radiographically because they are more likely microadenomas at time of detection. Nonfunctional pituitary masses present due to mass effects and are more easily detected on imaging. 14
References Dulipsingh L and Lassman MN (2000). Images in Clinical Medicine: Pituitary Apoplexy. NEJM. 342:550. Greenberg MS. Handbook of Neurosurgery 5 th edition. Thieme,, New York: 2001. Haughton, V and Peebles T. Pituitary Gland Imaging in endotext.com. http://www.endotext.org/neuroendo/neuroendo4/neuroendo4.htm Naidich MJ and Russell EJ (1999). Current approaches to imaging of the sellar region and pituitary. Endocrinol Metab Clin North Am. 28(1): 45-79. Snyder PJ. Causes, presentation, and evaluation of sellar masses. www.uptodate.com www.neurosurgery.medsch.ucla.edu 15
Acknowledgements Larry Barbaras,, webmaster Pamela Lepkowski 16