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Transcript 
The Sella and Parasellar Region
Anatomic and Pathologic
Considerations:
A Practical Approach
Philip Chapman, MD
Assistant Professor
University of Alabama,
Birmingham
The Sella and Parasellar Region
Outline
• Imaging Techniques
• Normal Anatomy
• Differential Diagnosis
– Sella
– Suprasellar
– Infundibulum
Recommended Imaging Techniques
MRI Imaging
• Multiplanar:
• Sagittal and Coronal
•
•
•
•
•
Small FOV 16-18 cm
3mm
T1W, T2W
Post T1W + FS
Dynamic enhanced for
pituitary lesions
Sella: Normal Anatomy
Pituitary Gland
• Anterior Lobe (75%)
• Pars Intermedia
• Posterior Lobe (25%)
• Infundibulum
Pituitary: Normal Anatomy
Anterior Lobe
Lateral
• PRL (10-30%)
• GH (50%)
Midline
• ACTH (10-30%)
• TSH (5%)
• FSH/LH (10%)
• Location of adenomas
parallels the distribution
Pars intermedia
Sella: Normal Anatomy
Pituitary Bright Spot
The secretary granules
carrying vasopression and
oxytocin appear as the
“bright spot” of the posterior
lobe of the pituitary gland on
T1-weighted unenhanced
(MRI).
Pituitary: Normal Anatomy
•
•
•
•
•
Posterior Lobe
Infundibulum
Pituicytes (glial)
Axons
Vasopressin (ADH)
Oxytocin
Ectopic Posterior Pituitary
Parasellar Region: Normal Anatomy
Parasellar Structures
• Cavernous Sinus
• Cranial Nerves
• III, IV, V1, V2, VI
• Cavernous ICA
• Optic Chiasm
• Hypothalamus
• Sphenoid Sinus
Parasellar Region: Normal Anatomy
Parasellar Region: Normal Anatomy
Bony Structures
• Planum sphenoidale
• Tuberculum sellae
• Sella turcica
• Dorsum sellae
***CT is complementary
for evaluating central
skull base lesions:
• Effects on skull base
• Calcifications
Sella and Parasellar Pathology
Differential Diagnoses
• Sellar
• Suprasellar
• Infundibular
Sellar Pathology
Non-neoplastic Lesions
• Hyperplasia/Hypertrophy (physiologic, end organ failure)
• Cysts (RCC, pars intermedia cyst)
• Empty Sella
Primary Neoplasms
• Pituitary adenoma (Most common)
• Craniopharyngioma (Only 5% purely intrasellar)
• Meningioma (Purely intrasellar rare)
• Abscess (Rare)
• Pituitary carcinoma (Extremely rare)
Metastasis (1%)
Pituitary Gland Size
•
•
•
•
•
Maximum normal height
6 mm infants and children
8 mm males, postmenopausal females
10 mm young women of childbearing age
12 mm late pregnancy, postpartum females
“Elster’s Rule”
Pituitary
Hyperplasia/Hypertrophy
• Must know age, gender!!
• Physiologic ↑
• 10-15 mm
• Convex upwards
Postpartum lactating ♀
14 mm
• Strong, uniform
enhancement
• Can be indistinguishable
from:
• Macroadenoma
• Lymphocytic hypophitis
• Metastasis, lymphoma
21y menstruating ♀
11 mm
Pituitary
Hyperplasia/Hypertrophy
Postpartum lactating ♀
14 mm
*** Dynamic imaging may
help distinguish physiologic
hyperplasia from
macroadenoma
21y menstruating ♀
11 mm
Pituitary Gland
Hyperplasia/Hypertrophy
Pathologic
hypertrophy
• End-organ failure
- Hypothyroidism
- Ovarian failure
• Neuroendocrine
tumors
Pituitary hypertrophy secondary to
untreated hypothyroidism
“EMPTY” SELLA
Considered normal variant. Loose association with Pseudotumor Cerebri
Pituitary Neoplasms
Adenoma
• Adenomas comprise the
majority (80%) of pituitary
lesions.
• A large percentage of these
(approximately 75%) are
functioning and result in
endocrine abnormalities.
Adenoma type
•
•
•
•
•
•
•
•
Prolactinoma 30%-40%
Null cell 25%
GH 20%
ACTH 10%
FSH/LH 10%
PRL-GH 5%
Mixed, TSH 1-5%
Incidental pituitary
lesions are common
Sella: Pathology
Pituitary Microadenoma
• 10 mm or less
• 10-20% of autopsies
• Micro >>> Macro
• Convex margin
• Stalk deviation
• Sella floor thin
Recommended Imaging Techniques
•
•
•
•
•
Dynamic Imaging
Microadenomas
4-5 slices
T1 FSE, Turbo SE
Image continuously
after contrast for app 2
minutes
Increases sensitivity for
small adenomas
Sella: Pathology
Dynamic Imaging
•
In essence, the normal
pituitary gland enhances at a
faster rate than the
microadenoma, so that early
during contrast injection (90
seconds), the adenoma
appears as hypointense
against the backdrop of
enhancing pituitary tissue.
• This difference is lost as
microadenoma gradually
accumulates contrast (after
app 2 minutes)
There is up to a 20% false-negative rate in the detection of microadenomas.
Sella: Pathology
Microadenoma
Dynamic Imaging
• Increases sensitivity
• (10-30% seen only on
dynamic MR)
There is up to a 20% false-negative rate in the detection of microadenomas.
Pituitary Microadenoma
Sella: Rathke Cleft Cyst
Clinical
• Intrasellar 40%
• Suprasellar extent
60%
• 3mm – 3cm
• Most incidental
• Symptomatic
Pituitary dysfunction
Visual change, HA
Rathke Cleft Cyst: CT
•
•
•
•
CT
75% hypodense
25% iso/hyperdense
Ca++ rare
May be difficult to
differentiate from
other benign cysts or
craniopharyngiomas
Rathke Cleft Cyst: MR
•
•
•
•
•
Imaging Features
Signal varies - cyst
content
50-60% T1
hyperintense
30-40% follow CSF
75% intracystic
nodule
+/- rim enhancement
Rathke Cleft Cyst
Rathke Cleft Cyst
Suprasellar Masses: The “Big Five”
• 75% of all sellar/parasellar masses
1. Pituitary macroadenoma (35%-50%)
2. Meningioma
3. Aneurysm
10% each
4. Craniopharyngioma
5. Astrocytoma (hypothalamic-chiasmatic)
Suprasellar Differential Diagnosis
Adult Lesions
• Pituitary
Macroadenoma
• Meningioma
• Aneurysm
Pediatric Lesions
• Craniopharyngioma
• Chiasmatic /
Hypothalamic
Glioma
• Hypothalamic
Hamartoma
Suprasellar Masses
• Is the patient adult or child?
• Is the mass intra- or extra-axial?
• If extra-axial, does it arise from pituitary?
– Can you identify pituitary gland separate from mass?
– Or is the gland the mass?
– Does it mostly involve the infundibular stalk?
• Intra-axial masses arise from
– Optic chiasm, hypothalamus
– 3rd ventricle
• Is the mass cystic or solid?
– If cystic, is it exactly like CSF?
Pituitary Macroadenoma
Clinical / Pathologic
• Most common
suprasellar mass (50%)
• Compressive
symptoms
• 10% of intracranial
tumors
• > 10mm
• Enlarged sella turcica
Suprasellar: Pathology
Pituitary Adenoma
Prolactinoma
• 30%-40% of
adenomas
• Female >> Males
• Galactorrhea
• Amenorrhea
• Serum PRL >
150ng/mL
• If > 1000ng/mL
invasion
Pituitary Macroadenoma: MR
Imaging Features
• Isointense GM: T1,
T2WI
• “Mass is the pituitary”
• May have hemorrhage,
cystic components
• Figure-eight, snowman
• Strong but
heterogeneous
enhancement
Pituitary Macroadenoma: MR
Giant Pituitary Macroadenoma
4 cm
Prolactinoma
Giant Pituitary Macroadenoma
Cavernous Sinus Invasion
• Adenomas that involve
the lateral margins of the
adenohypophysis may
grow laterally beyond the
sellar margin and invade
the adjacent cavernous
sinus.
• 5- 10% of all pituitary
adenomas involve the
cavernous sinus and are
considered to be invasive
Cavernous Sinus Invasion
Involvement of the
cavernous sinus:
• increases the morbidity
and mortality associated
with surgical procedures
• results in higher rates of
residual /recurrent tumor
• may necessitate adjuvant
radiotherapy or
suppressive medications
Pituitary-Cavernous Interface
Songtao, Qi, et al. Membranous Layers of the Pituitary
Gland, Operative Neurosurgery, March 2009
Cavernous Sinus Invasion
2
1
0
3
4
Knosp-Steiner Grading
Cavernous Sinus Invasion
Cottier et al Cavernous sinus invasion by pituitary adenoma: MR imaging.
Radiology. 215(2):463-469, 2000
• Found the most specific sign of CSI to be partial tumor encasement of
the intracavernous ICA by 67% of its circumference (positive predictive
value of 100%)
• Cavernous sinus invasion could be ruled out with a negative predictive
value of 100% if the percentage of encasement of the perimeter of
intracavernous ICA was lower than 25%
Extrinsic narrowing of the
carotid artery is rarely
associated with pituitary
adenomas and is more
suggestive of meningiomas
Invasive Pituitary Macroadenoma
37 yo male with Prolactinoma
Infrasellar Extension
Growth hormone secreting
Prolactin secreting
Plasmacytoma/Myeloma
Multiple Myeloma Of Clivus
69 yo with h/o mm
65 yo male with mm
Prolactinoma
Chordoma
Pituitary Apoplexy
Clinical Syndrome
• Acute onset
• Visual changes
• Headache
• Vomiting
• Meningismus
• Rapid enlargement of
Macroadenoma
secondary to
hemorrhagic infarction
• Rare, life threatening
T1 Shortening in subacute hemorrhage
Pituitary apoplexy
21 yr old female with abrupt headache and visual loss
Pituitary (Tumor) Apoplexy
Peripheral enhancement may indicate
acute hemorrhage or infarction
Macroadenoma with hemorrhage?
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