Hypopituitarism

Article Last Updated:28/11/2025

Anatomy and Physiology

Hypothalamic-Pituitary Axis

The pituitary gland is divided into:

Part	Connection to Hypothalamus	Type of Signalling
Anterior pituitary (adenohypophysis)	Hypothalamo–hypophyseal portal system	Vascular (blood-borne hormones)
Posterior pituitary (neurohypophysis)	Direct neuronal connection (axons)	Neural signalling

Anterior Pituitary – Portal Circulation

Hypothalamic neurons release hormones into blood vessels, not directly into the anterior pituitary:

Hypothalamic neurons release hormones into the primary capillary plexus
These hormones travel via the hypophyseal portal veins (situated within the pituitary stalk)
They reach the secondary capillary plexus in the anterior pituitary
This stimulates or inhibits anterior pituitary hormone release

Posterior Pituitary – Direct Neural Signalling

Posterior pituitary hormones are synthesised in the hypothalamus, then transported down to the posterior pituitary:

Hormones are synthesised in hypothalamic neurons
These hormones travel down axons via the hypothalamo–hypophyseal tract (situated within the pituitary stalk)
They reach and are stored in the posterior pituitary
These hormones are directly secreted into the systemic circulation, in the posterior pituitary

Pituitary Gland Hormones

Anterior pituitary hormones

Hypothalamic Hormone	Action on pituitary	Pituitary Hormone	Target Organ	Main Effect
TRH (thyrotropin-releasing hormone)	Stimulatory	↑ TSH (thyroid stimulating hormone)	Thyroid gland	↑ T3/T4
CRH (corticotropin-releasing hormone)		↑ ACTH (adrenocorticotropic hormone)	Adrenal cortex	↑ Cortisol
GnRH (gonadotropin-releasing hormone)		↑ LH (luteinising hormone) / FSH (follicle-stimulating hormone)	Ovaries / testes	↑ Oestrogen, testosterone
GHRH (growth hormone-releasing hormone)		↑ GH (growth hormone)	Liver	Direct effect and indirect effect via IGF-1
Somatostatin	Inhibitory	↓ GH (growth hormone)	n/a	Inhibit GH secretion
Dopamine	Inhibitory	↓ Prolactin	n/a	Inhibit prolactin secretion

It is worth noting that TRH can act on the anterior pituitary to stimulate prolactin secretion. Therefore, hypothyroidism can cause hyperprolactinaemia.

Posterior pituitary hormones

Hormone	Main site of production	Target	Main Effect
ADH (Vasopressin)	Supraoptic nucleus (of hypothalamus)	Kidney collecting ducts	↑ Water reabsorption
Oxytocin	Paraventricular nucleus (of hypothalamus)	Uterus / breast	Uterine contraction + lactation

Technically, the posterior pituitary does not synthesise hormones. ADH (vasopressin) and oxytocin are synthesised in the hypothalamus and transported to the posterior pituitary, where the posterior pituitary’s role is to store and release the hormones into the systemic circulation.

Anatomical Position

Location of the pituitary gland: sits in the sella turcica of the sphenoid bone

Key anatomical relations:

Direction	Structure	Clinical Relevance
Superior	Optic chiasm	→ Bitemporal hemianopia if compressed
Inferior	Sphenoid sinus	Transsphenoidal surgical access
Lateral	Cavernous sinuses	CN III, IV, V1, V2, VI palsies
Anterior	Sphenoid sinus	Surgical relevance

Hypopituitarism

Definition

Hypopituitarism is defined as the deficiency of 1 or more hormones produced by the pituitary gland, more commonly the anterior pituitary.

Aetiology

Key causes include: ^[Ref]

Aetiology	Description
Intrasellar / parasellar masses	Pituitary adenoma (esp. macroadenomas) – most common cause overall Craniopharyngioma Rathke’s cleft cysts, meningiom, metastases – less common See the Pituitary Tumours article for more information (mass effect +/- features of hormone excess)
Traumatic brain injury and subarachnoid haemorrhage	Esp. skull-base injuries
Pituitary apoplexy	Pituitary apoplexy: infarction of the pituitary gland due to ischaemia and/or haemorrhage Sheehan syndrome is a specific cause of pituitary apoplexy: Postpartum haemorrhage → ischaemia → necrosis of the pituitary gland Prolactin-producing regions of the pituitary gland hypertrophies during pregnancy, making it very sensitive to ischaemia
Radiation-induced damage
Infiltrative diseases	Examples include sarcoidosis, haemochromatosis
Congenital causes	Examples include Kallmann syndrome (→ GnRH deficiency)

Clinical Manifestation and Tests

Clinical manifestations of hypopituitarism is highly variable, it depends on the specific pituitary hormone deficiencies and the severity: ^[Ref1]^[Ref2]

Deficient Hormone	Site of production	Key Clinical Features
ACTH (adrenocorticotropic hormone)	Anterior pituitary	Must not miss, as it can cause adrenal insufficiency / adrenal crisis – see the Adrenal Insufficiency (Hypoadrenalism) article for more information
TSH (thyroid-stimulating hormone)		Causes secondary hypothyroidism – see the Hypothyroidism article for more information
GH (growth hormone)		↓ Muscle mass ↑ Fat mass Low energy ↓ Exercise tolerance
LH (luteinising hormone) / FSH (follicle-stimulating hormone)		Causes hypogonadotropic hypogonadism Men: ↓ libido, erectile dysfunction, infertility, ↓ body hair Women: amenorrhoea, infertility, hot flushes
Prolactin (rare)		Failure to lactate (postpartum)
ADH (vasopressin)	Hypothalamus	Causes central diabetes insipidus – see the Diabetes Insipidus (DI) article for more information
Oxytocin (rare)	Hypothalamus	Impaired milk let-down Weak uterine contractions

Triad of pituitary apoplexy:

SAH-like features (sudden-onset thunderclap headache, meningism, vomiting, reduced level of consciousness)
Visual field defects (classically bitemporal hemianopia)
Ophthalmoplegia

Investigation and Diagnosis

Initial Screening Tests

Basal hormone measurements: ^[Ref]

Morning serum cortisol +/- short Synacthen test
TFT (free T4 + TSH)
Gonadotropins (LH, FSH) and sex steroids (oestrogen, testosterone)
IGF-1
Prolactin

Dynamic Stimulation Tests

There are 2 main stimulation tests: ^[Ref]

Insulin tolerance test / glucagon stimulation test (gold standard) – tests both ACTH and GH axes
- Both causes hypoglycaemia, which should stimulates both axes to increase cortisol and GH secretion
- The glucagon stimulation test does not directly cause hypoglycaemia. It first causes hyperglycaemia, followed by delayed insulin-mediated hypoglycaemia
Short synACTHen test for the adrenal axis assessment

Imaging

1st line: MRI pituitary to identify structural lesions ^[Ref]

Management

Principles of management center on individualised, axis-specific hormone replacement, aiming to restore physiological hormone levels and minimise symptoms and long-term sequelae. ^[Ref1]^[Ref2]

Affected axis	Management (brief)	Corresponding article
Adrenal axis	Hydrocortisone (most important), and Fludrocortisone	Adrenal Insufficiency (Hypoadrenalism)
Thyroid axis	Levothyroxine	Hypothyroidism
Gonadal axis	Testosterone for male (transdermal preparations preferred) Oestogen / progestogen therapy for pre-menopausal female Pulsatile GnRH or gonadotropin therapy for fertility induction
Growth hormone axis	Recombinant human growth hormone (daily subcutaneous injection)
ADH axis	Desmopressin	Diabetes Insipidus (DI)

Share Your Feedback Below Cancel reply

You must be logged in to post a comment.