Secondary hyperaldosteronism pathophysiology: Difference between revisions
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{{Secondary hyperaldosteronism}} | {{Secondary hyperaldosteronism}} | ||
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== Pathophysiology == | == Pathophysiology == | ||
=== Basic physiology of aldosterone === | |||
=== Renin-angiotensin system components === | |||
[[Renin]]: | |||
* In each [[kidney]] there is a specialized system called [[juxtaglomerular apparatus]], which is located in [[afferent arteriole]] of each [[glomerulus]]. | |||
* [[Juxtaglomerular apparatus]] synthesizes prorenin, and then later it converts into [[renin]] with mediation of a [[proteolytic enzyme]]. | |||
* [[Renin]] stores in and then may be released from secretory [[granules]], in response to various factors. | |||
* [[Renin]] releasing starts a cascade of steps, and the first step is the cleavage of the [[angiotensin]] I from [[angiotensinogen]] ([[renin]] substrate). | |||
* [[Angiotensinogen]] is an alpha-2-globulin that is produced in the [[liver]] and [[kidney]] and other organs. | |||
* The first step is the rate-limiting step of the [[Renin-angiotensin system|renin-angiotensin]] cascade. | |||
* Most important stimuli to [[renin]] secretion are : | |||
** [[Renal]] hypoperfusion, due to hypotension or [[volume depletion]] | |||
** Increased [[sympathetic]] activity. | |||
{| class="wikitable" | |||
!Renin-angiotensin system components | |||
!Secretion control | |||
!Measurement | |||
!Inhibition | |||
|- | |||
|Renin | |||
| | |||
* Baroreceptors (or stretch receptors) in the wall of the afferent arteriole | |||
* Cardiac and arterial baroreceptors, which regulate sympathetic neural activity and the level of circulating catecholamines, both of which enhance renin secretion via the beta-1-adrenergic receptors | |||
* The cells of the macula densa in the early distal tubule, which appear to be stimulated by a reduction in chloride delivery, particularly in the chloride concentration in the fluid delivered to this site | |||
| | |||
* The plasma renin activity (PRA) is an indirect measure of renin that employs an enzyme-kinetic bioassay, which measures its capacity to generate angiotensin I. The rate of angiotensin I production, and therefore PRA, is critically dependent upon the concentration of substrate in plasma (ie, angiotensinogen). | |||
* The plasma renin concentration (PRC) employs a direct immunosorbent assay that detects both prorenin and renin | |||
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|Angiotensinogen | |||
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|Angiotensin-converting enzyme | |||
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|- | |||
|Angiotensin II | |||
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|Aldosterone | |||
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|} | |||
==== Basic physiology of aldosterone ==== | |||
Circulating [[aldosterone]] is principally made in the [[zona glomerulosa]] of the [[adrenal cortex]] (outer layer of the cortex) by a cascade of [[enzyme]] steps leading to the conversion of [[cholesterol]] to [[aldosterone]]. | Circulating [[aldosterone]] is principally made in the [[zona glomerulosa]] of the [[adrenal cortex]] (outer layer of the cortex) by a cascade of [[enzyme]] steps leading to the conversion of [[cholesterol]] to [[aldosterone]]. | ||
* [[Aldosterone]]'s production is regulated at two critical [[enzyme]] steps: | * [[Aldosterone]]'s production is regulated at two critical [[enzyme]] steps: | ||
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[[Image:Renin-angiotensin system in man shadow.png|600px|center|Renin angiotensin system, by Mikael Häggström - https://commons.wikimedia.org/w/index.php?curid=8458370]] | [[Image:Renin-angiotensin system in man shadow.png|600px|center|thumb|Renin angiotensin system, by Mikael Häggström - https://commons.wikimedia.org/w/index.php?curid=8458370]] | ||
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==Pathogenesis == | ==Pathogenesis == | ||
Secondary hyperaldosteronism syndrome is a disease of increasing aldosterone or other mineralocorticoid levels. The resulting Na+ retention produces [[hypertension]], and elevated K+ excretion may cause [[hypokalemia]]. | Secondary hyperaldosteronism syndrome is a disease of increasing aldosterone or other mineralocorticoid levels. The resulting Na+ retention produces [[hypertension]], and elevated K+ excretion may cause [[hypokalemia]]. | ||
Patients with Secondary hyperaldosertonism may have: | |||
[[Renin-producing tumors]] | * [[Renin-producing tumors]] | ||
Renal artery stenosis | * [[Renal artery stenosis]] | ||
Cushing syndrome | * [[Cushing syndrome]] | ||
[[Liddle's syndrome]] | * [[Liddle's syndrome]] | ||
Ectopic ACTH production | * Ectopic [[ACTH]] production | ||
[[Licorice]] ingestion | * [[Licorice]] ingestion | ||
* Other mineralocorticoids excess: | |||
Other mineralocorticoids excess: | ** [[11β-hydroxylase deficiency|11 beta hydroxylase deficiency]] | ||
[[11β-hydroxylase deficiency|11 beta hydroxylase deficiency]] | ** [[17 alpha-hydroxylase deficiency|17 alpha hydroxylase deficiency]] | ||
[[17 alpha-hydroxylase deficiency|17 alpha hydroxylase deficiency]] | ** [[apparent mineralocorticoid excess]] | ||
[[apparent mineralocorticoid excess]] | |||
==Genetics == | ==Genetics == | ||
Latest revision as of 21:38, 28 September 2017
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Secondary hyperaldosteronism Microchapters |
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Differentiating Secondary Hyperaldosteronism from other Diseases |
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Treatment |
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Secondary hyperaldosteronism pathophysiology On the Web |
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American Roentgen Ray Society Images of Secondary hyperaldosteronism pathophysiology |
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Risk calculators and risk factors for Secondary hyperaldosteronism pathophysiology |
Overview
Secondary hyperaldosteronism is a disease of increasing aldosterone or other mineralocorticoid levels. The resulting Na+ retention produces hypertension, and elevated K+ excretion may cause hypokalemia.
Pathophysiology
Renin-angiotensin system components
- In each kidney there is a specialized system called juxtaglomerular apparatus, which is located in afferent arteriole of each glomerulus.
- Juxtaglomerular apparatus synthesizes prorenin, and then later it converts into renin with mediation of a proteolytic enzyme.
- Renin stores in and then may be released from secretory granules, in response to various factors.
- Renin releasing starts a cascade of steps, and the first step is the cleavage of the angiotensin I from angiotensinogen (renin substrate).
- Angiotensinogen is an alpha-2-globulin that is produced in the liver and kidney and other organs.
- The first step is the rate-limiting step of the renin-angiotensin cascade.
- Most important stimuli to renin secretion are :
- Renal hypoperfusion, due to hypotension or volume depletion
- Increased sympathetic activity.
| Renin-angiotensin system components | Secretion control | Measurement | Inhibition |
|---|---|---|---|
| Renin |
|
|
|
| Angiotensinogen | |||
| Angiotensin-converting enzyme | |||
| Angiotensin II | |||
| Aldosterone |
Basic physiology of aldosterone
Circulating aldosterone is principally made in the zona glomerulosa of the adrenal cortex (outer layer of the cortex) by a cascade of enzyme steps leading to the conversion of cholesterol to aldosterone.
- Aldosterone's production is regulated at two critical enzyme steps:
- (1) early in its biosynthetic pathway (the conversion of cholesterol to pregnenolone by cholesterol side chain cleavage enzyme) and
- (2) late (the conversion of corticosterone to aldosterone by aldosterone synthase).
- A variety of factors modify aldosterone secretion--the most important are angiotensin II (AngII), the end-product of the renin-angiotensin system (RAS), and potassium. However ACTH, neural mediators and natriuretic factors also play part in the feedback mechanism.
- Aldosterone's classical epithelial effect is to increase the transport of sodium across the cell in exchange for potassium and hydrogen ions. [1]
Pathogenesis
Secondary hyperaldosteronism syndrome is a disease of increasing aldosterone or other mineralocorticoid levels. The resulting Na+ retention produces hypertension, and elevated K+ excretion may cause hypokalemia. Patients with Secondary hyperaldosertonism may have:
- Renin-producing tumors
- Renal artery stenosis
- Cushing syndrome
- Liddle's syndrome
- Ectopic ACTH production
- Licorice ingestion
- Other mineralocorticoids excess:
Genetics
References
- ↑ Williams GH (2005). "Aldosterone biosynthesis, regulation, and classical mechanism of action". Heart Fail Rev. 10 (1): 7–13. doi:10.1007/s10741-005-2343-3. PMID 15947886.
- ↑ "File:Adrenal Steroids Pathways.svg - Wikimedia Commons".
