Autonomous production of aldosterone independent of its regulators (angiotensin II/potassium)
Aetiology
Adrenal adenoma (Conn's syndrome)
- ~30% cases
- Do not suppress ACTH - adjacent and contralateral adrenal tissue is not atrophic
Genetic features
- KCNJ5 channel is a rectifying selective channel which maintains membrane hyperpolarisation
- Mutations lead to loss of ion selectivity; Na+ entry and depolarisation and therefore increased aldosterone production
Bilateral adrenal hyperplasia
- Idiopathic
- Accounts for ~60% cases
Rare causes
- Genetic mutations - several familial forms of hyperaldosteronism recognised as well as recurrent somatic mutations observed in sporadic cases
- Unilateral hyperplasia
Pathophysiology
- Commonest secondary cause of hypertension
Cardiac actions of aldosterone
- Increased cardiac collagen
- Cytokines and ROS synthesis
- Increased sodium retention
- Abnormal endothelial function
- Increased sympathetic outflow
- All contribute to increased BP, LVH and atheroma
Clinical presentation
- Significant hypertension
- Hypokalaemia (~30%)
- Alkalosis
Investigations
Confirm aldosterone excess
- Measure plasma aldosterone: renin ratio
- If ratio raised investigate further with saline suppresion test
- Failure of plasma aldosterone to suppress by > 50% with 2 litres of normal saline confirms PA
Confirm subtype
- Adrenal CT to demonstrate adenoma
- Sometimes adrenal vein sampling to confirm adenoma is true source of aldosterone excess
Management
Adrenal adenoma
- Unilateral laproscopic adrenalectomy
- Cures hypokalaemia
- Cures hypertension in 30-70% of cases
Bilateral adrenal hyperplasia
- Mineralocorticoid receptor antagonists - spironolactone or eplerenone
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