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INCIDENTAL PITUITARY LESION -Diagnostic approach
Albert Beckers&
JF BonnevilleService d’Endocrinologie
Centre Hospitalier Universitaire de Liège Université de Liège,
Belgique
Rome - November, 2019Le fils de l'homme by René Magritte,
1964Private collection
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Is There a Lesion ?
Ø Normal variant: « large » pituitary in small sella
Ø Physiologic hypertrophy: pregnancy, puberty
Ø Secondary enlargement:
• Lack of feedback : primary hypothyroidism, Klinefelter
syndrome
• Hypersecretion of releasing hormones (CRH, GHRH)
Ø Technical artifacts
Possible pitfalls
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Pitfalls in imaging-pituitary pseudoenlargement
Normal T1 and T2 signalsNormal enhancement after gadolinium
injection
Ø small or flat sella, extensive pneumatizationof sphenoid
sinus
Ø small sella and thick dorsum sellae
Ø extensive sphenoid sinus pneumatization and a narrow sella in
an adolescent girl
?Isointensepituitary adenoma or ‘pituitary hyperplasia’
?Bulging of the normal-sized pituitary gland
YES
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‘Kissing’ internal carotid arteries.
Narrow sellar content due to unusually large inferior coronary
sinus, a sellar spine or a medial deviation of the internal carotid
or trigeminal arteries
Trigeminal artery piercing the dorsum sella
Pitfalls in imaging-Vascular anomalies
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Pituitary imaging - differential diagnosis
A large T1-isointense RCC with
an intracystic T2-hypointense nodule associated with
an enlarged inferior coronary sinusin a female with intracranial
hypotension
after failed lumbar puncture.
Enlarged pituitary content of multiple origins
”Little Hut” - a Russian fairy tale of forest animals living in
a house, which was too small for the bear
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Pituitary imaging - secondary enlargement of pituitary
Primary hypothyroidism in a 9-yo girl. Regular enlargement of a
homogeneous pituitary gland (upward convexity).
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Pituitary imaging - technical artifacts
'Luminous 99' by Sergey Morshch, 2016, Contemporary art gallery,
San Francisco
Ø Partial volume artifacts (parts of different anatomical
structures)
Ø Magnetic susceptibility artifacts (at the interface
betweenanatomical structures with different signal intensities)
Ø Flux artifacts (due to pulsating internal carotid arteries and
cerebrospinal fluid)
Ø Chemical shift artifacts and ghosting (high signal of fat)
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Posterior lobe mimicking a pituitary lesionon coronal
T2-weighted image
Pituitary imaging - differential diagnosis
Deep fossula hypophyseos on axial CT
A posteriorly located pituitary adenoma ?
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Etiology
Anterior pituitary tumoursØ Pituitary adenoma
Macro / microFunctioning / non-functioning
Ø Pituitary hyperplasiaØ Pituitary carcinoma
Posterior pituitary tumoursØ PituitocytomaØ Granular cell
tumours
Malformative lesionsØ Rathke’s cleft cystØ DermoidØ EpidermoidØ
Arachnoid cystØ Hamartoma
Benign parasellar tumoursØ MeningiomaØ CraniopharyngiomaØ
NeurinomaØ Lipoma
Malignant tumoursØ GliomaØ Germ cell tumourØ Primary lymphomaØ
ChordomaØ ChondrosarcomaØ ChondromaØ EpendymoblastomaØ
PlasmocytomaØ Pituitary metastases
Inflammatory and granulomatous lesionsØ Lymphocytic
hypophysitisØ Granulomatous hypophysitisØ Langerhans’ cell
histiocytosisØ TuberculosisØ SarcoidosisØ Pituitary abscess
Vascular lesionsØ Aneurysms Ø Cavernous angiomasØ Cavernous
sinus thrombosis
Vasilev V, Rostomyan L et al., EJE 2016
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Etiology
Final clinical diagnosis of 282 incidentalomas
Histological diagnosis of operated cases and estimated diagnosis
in non-surgical group
Famini P, Maya MM, Melmed S, JCEM 2011
Sanno N et al., EJE 2003
Nonfunctioning pituitary adenomas are the most frequent among
etiologies
• Independently of the initial visualisation method
• Also confirmed histologically in surgical series
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Pituitary imaging -Nature of incidental lesions
PITUITARY ADENOMA - Usually micro, non-functioning
Intrasellar microadenomas:• Lateralization inside the
adenohypophysis• Possible deformation of the sellar diaphragm•
Possible displacement of the pituitary stalk
Micro PRL: T1- hypointense and T2-hyperintenseMicro GH: T2 iso-
or hypointense
!!! Unrecognized large non-functioning / gonadotroph PAs !!!
Unsuspected, subclinical or silent PRL, GH, ACTH secretion
Solid lesions
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Pituitary imaging – pituitary adenoma
T1-hypointense and T2-hyperintense on coronal images.
Microprolactinoma
Attention!• drug-induced hyperprolactinemia ...•
hypothalamic-pituitary stalk damage• false hyperprolactinemia ...
macroprolactinemia
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How to assess at endocrinology appointment
1. Complete history
2. Physical evaluation
3. Hormonal analysis
4. Visual field defects assessment5. * MRI scan (specific
pituitary
protocol with fine cuts through the sella)if initial study was a
CT or brain MRI
Is it causing any:
? Hormonal hypersecretion
? Hormonal hyposecretion
? Mass effects
Freda PU et al., JCEM 2011
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Hyper
PRL – 10-40% of PA, stalk compression
GH – silent GH-secretion, medical comorbidities
ACTH – silent corticotropinoma, risk of progression to overt
Cushing’s
Gonadotropins – rarely cause clinical symptoms
TSH – rare type of functioning PA
Alteration in pituitary function
Freda PU et al., JCEM 2011
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Alteration in pituitary function
HypoChronic hypopituitarism results in general symptomatology
(hypotension, generalized weekness, hypothermia, malaise,
depression…)
Macroadenomas / larger microadenomas (6-9 mm) - screening
recommended
Smaller microadenomas (
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Additional Work-up
HeadacheNeurological defects
Visual field defects ... in all macroadenomas and microadenomas
abutting or compressing
the optic nerves or chiasma on MRI,
even if there are no apparent visual symptoms(in 5-15%
unrecognized visual field defects at
presentation)
Tumor mass effect
Freda PU et al., JCEM 2011
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Vasilev V, Rostomyan L et al., EJE 2016
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Pituitary imaging - differential diagnosis
Presellar meningioma inserted on the planum sphenoidale
(arrow)It has stronger enhancement than the pituitary gland (marked
with asterisk)
Solid lesions
MENINGIOMA• Sella is not enlarged • Normal pituitary tissue
is
visualized• T1 - isointense and T2
hyperintense• “Dural tail” and homogeneous on
enhancement
Sagittal T1 Sagittal T2
Sagittal contrast-enhanced T1 Coronal contrast-enhanced T1
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Pituitary imaging - differential diagnosis
Enlarged sellar content abutting the optic chiasm (curved
arrow)The lesion is T1-isointense, T2-hyperintense, and becomes
markedly enhanced after gadolinium injectionThe dural tail is shown
with arrows
Solid lesionsCoronal T1 Coronal T2
Coronal contrast-enhanced T1 Sagittal contrast-enhanced T1
LYMPHOCYTIC HYPOPHYSITIS• Symmetric homogeneous
enlargement of the pituitary• Frequent suprasellar extension•
Thickening of the stalk• Intense contrast accumulation
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Pituitary imaging - differential diagnosis
Mucoid RCC located in the midline between the anterior and
posterior lobes
Cystic lesions
axial T1 coronal T1
RCC on the upper surface of the pituitary, as an ‘egg in an egg
cup’
RATHKE CLEFT CYST• Mostly intrasellar• Or lie on the sellar
diaphragm
(‘egg in an egg cup’)• Frequently T1-hyperintense•
T2-hypointense intracystic
nodules (cholesterol)• Usually no contrast
enhancement• Limited mass effects ( on sella
enlargement, posterior lobe, pituitary stalk…)
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CASE 1 – Clinical presentation
A 55-yo man had a fall-related cervical spine injury treated
conservatively with a neck brace during 10 weeks
Ø CT- scan was performed revealing a lesion in the
sellarregion
Ø Patient had no particular complains and no symptoms related to
this lesion at clinical evaluation at referral
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CASE 1 – Further evaluation
Visual fields evaluation: Superotemporal loss on right side
Laboratory tests: No hormonal hyper- or hyposecretion
TRANSSPHENOIDAL SURGERY
Pathology findings: Non-secreting pituitary adenoma, Ki67
1-2%
Pituitary MRI :
Pituitary macroadenoma
20x13x19 mm
with suprasellar extension and contact with the right optic
nerve
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CASE 2 – Clinical presentation
A 79-yo man referred to the emergency room with a head trauma
and a large face wound
Ø On CT- scan a large sellar lesion with suprasellar extension
was revealed (18x21x28mm)
Ø No signs / symptoms related to this lesion at clinical
evaluation
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CASE 2 – Further evaluation
Ophtalmological evaluation: Bitemporal superior
quadrantanopiaLaboratory tests: FSH 22 U/l
gonadotrophinoma?age-related primary hypogonadism?
Pituitary MRI : Pituitary macroadenoma (max Ø 28 mm) with
suprasellar extension compressing the optic chiasma and invasion in
the left cavernous sinus
→
0.5 mg x 2 per weekCABERGOLINE
Ø amelioration in visual field defect
Ø shrinkage of pituitary tumor size (25 mm)
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CASE 3 – Clinical presentation
A 80-yo man underwent a brain CT-scan for an episode of
confusion after aortic valve replacement and coronary arterybypass
surgery
Ø On CT- scan a large sellar lesion with suprasellar extension
and invasion in sphenoidal sinuses was revealed
Ø No signs / symptoms related to this lesion at clinical
evaluation
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CASE 3 – Further evaluation
Ophtalmological evaluation: Bitemporal hemianopiaLaboratory
tests: IGF-1 : 539 µg/l
GH : 24.56 µg/lPRL : 17.6 µg/l+ hypogonadotropic hypogonadism+
central hypothyroidism
Pituitary MRI : Pituitary giant macroadenoma (max Ø 55 mm) with
intrasellar and suprasellar extension and invasion in the
surrounding structures
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CASE 3 – Further evaluation
Rhinorrhea
→0.5 mg x 3 per week
CABERGOLINE
Ø shrinkage of pituitary tumor size
IGF-1 439 µg/l, GH 1.87 µg/l, PRL 0.1 µg/l
100 µg x 3 per daySANDOSTATIN +
Stop treatmentØ expansion of pituitary tumor with
increase in chiasma compressionIGF-1 529 µg/l, GH 8.55 µg/l, PRL
1 µg/l
Restart treatmentØ shrinkage of pituitary tumor size,
amelioration in visual field lossIGF-1 361 µg/l, GH 2.36
µg/l
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Take home message
Ø 90% - Pituitary adenomas + Rathke Cleft Cyst 10% → could be
anything, sometimes a challenge
Ø It is important to correlate the images with history & all
clinical data
• Detailed history and physical evaluation (hormonal hyper- or
hyposecretion, tumor mass effects)
• Screen for hormone hyperfunction – check prolactin in all
pituitary incidentalomas, consider screening for Cushing’s and
acromegaly at time of identification and other hormones if
clinically suspicious
• Screen for hormone hypofunction – in macroadenomas• Refer for
visual field assessment if close to the optic chiasm
