Pituitary and Hypothalamus Flashcards
Pituitary-Hypothalamus Axis
Production of most hormones in the anterior
pituitary is controlled by factors secreted by the
hypothalamus.
• These are carried to the anterior pituitary by a
portal vascular system
• The posterior pituitary secretes 2 peptide
hormones, first synthesized in the hypothalamus
and then stored within axon terminals.
• These are released in response to appropriate
stimuli.
5 cell types – based on specific Abs against pituitary hormones
Somatotrophs – GH (50% of cells)
Lactotrophs (mammotrophs) – prolactin
Corticotrophs – ACTH, POMC, MSH
Thyrotrophs – TSH
Gonadotrophs – LH and FSH
Hyperpituitarism
adenomas, hyperplasia, carcinomas, secretion of hormones by non-pituitary tumors, certain hypothalamic disorders
Hypopituitarism
ischemic injury/surgery/radiation, inflammatory reactions, nonfunctional pituitary adenomas
Local mass effects
radiographic abnormalities of sella turcica, visual field abnormalities, elevated intracranial pressure, pituitary apoplexy
Pituitary adenoma
Most common cause of hyperpituitarism, anterior lobe, may be functional/nonfunctional, peak incidence from 35-60 years
Microadenomas or macroadenomas
Classified on the basis of hormone(s) produced by neoplastic cells, detected by immunohistochemical stains
Composed of sheets/cords of uniform polygonal cells with absent reticulin network (in contrast to normal pituitary); reticulin stain important
genetics of pituitary adenomas
Sporadic (95%) – G-protein mutations in alpha subunits that interferes with its intrinsic GTPase activity
Familial – MEN1, CDKN1B, PRKAR1A, AIP
Molecular abnormalities associated with aggressive behavior –
overexpression of cyclin D1, mutations of p53, and epigenetic silencing of RB1
Prolactinomas
Most common adenoma type, 30% of cases
Increased prolactin secretion
Amenorrhea/galactorrhea/decreased libido/infertility
Other causes such as physiological/drugs/estrogens/renal failure
Treatment – surgery or bromocriptine
Somatotropinoma
2nd most common type
Excessive GH
Children – gigantism; adults – acromegaly
ACTH cell (corticotroph) adenomas
Excess production of ACTH
Hypercortisolism (Cushing disease)
Hypopituitarism
Causes – ischemic injury/surgery/radiation, inflammatory reactions, nonfunctional pituitary adenomas
At least 75% of parenchyma is lost, mostly because of a destructive process
Tumors or other mass lesions, traumatic brain injury, surgery/radiation, pituitary apoplexy (sudden hemorrhage), ischemic necrosis (DIC, sickle cell anemia, Sheehan syndrome), empty sella syndrome, inflammatory disorders/infections, hypothalamic lesions
GH deficiency –
LH and FSH deficiency –
TSH deficiency –
ACTH deficiency –
dwarfism
amenorrhea (absence of menstruation), infertility, etc
hypothyroidism
hypoadrenalism
Prolactin deficiency
Posterior pituitary syndromes
Involve ADH – ADH binds to receptors on cells in collecting ducts of kidney and promotes reabsorption of water back into circulation
Diabetes insipidus – ADH deficiency, central or nephrogenic, loss of large volumes of dilute urine, hypernatremia, polydipsia (inc thirst)
Syndrome of inappropriate ADH secretion: water retention
Lesions of the hypothalamus
Disruption of function of hypothalamic/pituitary axis – hypopituitarism, hyperprolactinemia
Neurologic – visual field defects
Hypothalamic suprasellar tumors
Clinically significant because they may cause:
Hypofunction or hyperfunction of anterior pituitary
Diabetes insipidus
Includes: gliomas and craniopharyngiomas
