Hyponatremia pathophysiology: Difference between revisions

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Revision as of 13:09, 25 April 2018

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Saeedeh Kowsarnia M.D.[2]

Overview

The exact pathogenesis of [disease name] is not fully understood.

OR

It is thought that [disease name] is the result of / is mediated by / is produced by / is caused by either [hypothesis 1], [hypothesis 2], or [hypothesis 3]

OR

[Pathogen name] is usually transmitted via the [transmission route] route to the human host.

OR

Following transmission/ingestion, the [pathogen] uses the [entry site] to invade the [cell name] cell.

OR

Blo [Disease or malignancy nme] arises from [cell name]s, which are [cell type] cells that are normally involved in [function of cells].

OR

The progression to [disease name] usually involves the [molecular pathway].

OR

The pathophysiology of [disease/malignancy] depends on the histological subtype.

Pathophysiology

Sodium is the main cation in the extracellular fluid, thus the plasma concentration of sodium is determinant of tonicity and serum osmolality.

The osmotic gradient of solutes that do not cross cell membranes constitutes serum Tonicity ^[1] which determines the distribution of water in the body.

Plasma tonicity = (Extracellular solute + Intracellular solute) / TBW

Serum or plasma osmolality measures different solutes in plasma. It helps to evaluate the etiology of hyponatremia and screen other solutes in serum.

Serum Osmolality = (2 x (Na + K)) + (BUN (mg/dL) / 2.8) + (glucose (mg/dL) / 18) + (Ethanol (mg/dL) /3.7) ^[2]

Normal Range= 275–295 mosm /kg (mmol /kg)

Normal range		Osmolality versus Osmolarity
Sodium^‡	135-145 mEq/L	Osmolality is a measure of the osmoles (Osm) of solute per kilogram of solvent (osmol/kg or Osm/kg)^[3] Osmolarity is described as the number of osmoles of solute per liter (L) of solution (osmol/L or Osm/L) (one liter of plasma equals to one kilogram of plasma,plasma osmolarity and plasma osmolality would be the same)
Potassium^‡	3.5-5.1 mEq/L
Blood Urea Nitrogen	7-20 mg/dL (2.5-7.1 mmol/L)
Glucose	70-100 mg/dL ( 3.9-5.5 mmol/L)

‡ Mmol and Meq are the same for univalent ions like sodium, potassium, for Na⁺, Cl^-, Ca²⁺, urea, and glucose, 1 mmol/L equals 1 mOsmol/kg

Plasma water is regulated by sensory organs (baroreceptors and hypothalamus osmoreceptors), antidiuretic hormone (ADH or vasopressin), and the kidney. Hyponatremia is defined as serum sodium less than 135 mEq/L (mmol/L).Hyponatremia is a water balance disorder which represents an imbalance in a ratio where total body water is more than total body solutes( total body sodium and total body potassium).

Osmoreceptors in the hypothalamus are sensitive to the increased tonicity of serum, cause increase secretion of ADH from posterior pituitary. ADH secretion from hypothalamus through posterior pituitary is increased by:

↑ Angiotensin II (activation of Renin-Angiotensin-Activation System)
↑ Sympathetic stimulation
↑ Effective osmoles (Hypertonicity)
↓ Baroreceptor firing ( ↓effective intravascular volume)
↓ Right atrium stretching

Mechanism of action of ADH , (ɔ) Image courtesy of WikiDoc.org, by **"Dr. Saeedeh Kowsarnia"**

Renin-Angiotensin-Aldosteron System:

Hyponatremia represents as an excess of water relative to total body sodium, resulting from impaired water excretion by the kidneys or the depletion of sodium in excess of water.

Hypotonic (dilutional) hyponatraemia is classified by the extracellular volume status into hypo-, eu- and hyper-volemic hyponatremia.

Term	Definitions^[5]^[6]^[7]
Hyponatremia	Hyponatremia is defined as a serum sodium concentration < 135 mEq/L.
Hypotonic hyponatremia	Hyponatremia with low osmolality (hypotonic hyponatremia) is defined as hyponatremia with a serum osmolality below 280 mOsm/kg.
Hypertonic hyponatremia	Hyponatremia with high osmolality (hypertonic hyponatremia) is defined as hyponatremia with a serum osmolality greater than 295 mOsm/kg.
Isotonic hyponatremia	Hyponatremia with normal osmolality (Isotonic hyponatremia) is defined as hyponatremia with a serum osmolality ranging between 280-295 mOsm/kg.
Hyponatremia based on ECF volume
Hypovolemic hyponatremia	Hyponatremia plus decreased extracellular cellular fluid volume. Usually diagnosed by history and physical examinationshowing water depletion plus spot urine sodium <20 to 30 mmol/L, unless kidney is the source of sodium loss.
Euvolemic hyponatremia	Hyponatremia plus normal extracellular cellular fluid volume. Majority of cases are of this type. Usually diagnosed by spot urine sodium ≥ 20 to 30 mmol/L, unless secondarily sodium depleted.
Hypervolemia hyponatremia	Hyponatremia plus increased extracellular cellular fluid volume. Usually diagnosed by history and physical examinationshowing water retention plus spot urine sodium <20 to 30 mmol/L

Pathogenesis

The exact pathogenesis of [disease name] is not fully understood.

OR

It is understood that [disease name] is the result of / is mediated by / is produced by / is caused by either [hypothesis 1], [hypothesis 2], or [hypothesis 3].
[Pathogen name] is usually transmitted via the [transmission route] route to the human host.
Following transmission/ingestion, the [pathogen] uses the [entry site] to invade the [cell name] cell.
[Disease or malignancy name] arises from [cell name]s, which are [cell type] cells that are normally involved in [function of cells].
The progression to [disease name] usually involves the [molecular pathway].
The pathophysiology of [disease/malignancy] depends on the histological subtype.

Genetics

[Disease name] is transmitted in [mode of genetic transmission] pattern.
Genes involved in the pathogenesis of [disease name] include [gene1], [gene2], and [gene3].
The development of [disease name] is the result of multiple genetic mutations.

Associated Conditions

Gross Pathology

On gross pathology, [feature1], [feature2], and [feature3] are characteristic findings of [disease name].

Microscopic Pathology

On microscopic histopathological analysis, [feature1], [feature2], and [feature3] are characteristic findings of [disease name].

References

↑ Sperelakis, Nick (2012). Cell physiology sourcebook : essentials of membrane biophysics. London, UK Waltham, MA, USA: Elsevier/Academic Press. ISBN 978-0-12-387738-3.
↑ Purssell, Roy A.; Pudek, Morris; Brubacher, Jeffrey; Abu-Laban, Riyad B. (2001). "Derivation and validation of a formula to calculate the contribution of ethanol to the osmolal gap". Annals of Emergency Medicine. 38 (6): 653–659. doi:10.1067/mem.2001.119455. ISSN 0196-0644.
↑ Erstad BL (2003). "Osmolality and osmolarity: narrowing the terminology gap". Pharmacotherapy. 23 (9): 1085–6. PMID 14524639.
↑ By Soupvector - Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=66583851
↑ Laczi, F. (2008). "[Etiology, diagnostics and therapy of hyponatremias]". Orv Hetil. 149 (29): 1347–54. doi:10.1556/OH.2008.28409. PMID 18617466. Unknown parameter |month= ignored (help)
↑ Douglas, I. (2006). "Hyponatremia: why it matters, how it presents, how we can manage it". Cleve Clin J Med. 73 Suppl 3: S4–12. PMID 16970147. Unknown parameter |month= ignored (help)
↑ Verbalis, JG.; Goldsmith, SR.; Greenberg, A.; Korzelius, C.; Schrier, RW.; Sterns, RH.; Thompson, CJ. (2013). "Diagnosis, evaluation, and treatment of hyponatremia: expert panel recommendations". Am J Med. 126 (10 Suppl 1): S1–42. doi:10.1016/j.amjmed.2013.07.006. PMID 24074529. Unknown parameter |month= ignored (help)

Template:WH Template:WS

[Cell_physiology_sourcebook-1] Sperelakis, Nick (2012). Cell physiology sourcebook : essentials of membrane biophysics. London, UK Waltham, MA, USA: Elsevier/Academic Press. ISBN 978-0-12-387738-3.

[PurssellPudek2001-2] Purssell, Roy A.; Pudek, Morris; Brubacher, Jeffrey; Abu-Laban, Riyad B. (2001). "Derivation and validation of a formula to calculate the contribution of ethanol to the osmolal gap". Annals of Emergency Medicine. 38 (6): 653–659. doi:10.1067/mem.2001.119455. ISSN 0196-0644.

[pmid14524639-3] Erstad BL (2003). "Osmolality and osmolarity: narrowing the terminology gap". Pharmacotherapy. 23 (9): 1085–6. PMID 14524639.

[4] By Soupvector - Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=66583851

[Laczi-2008-5] Laczi, F. (2008). "[Etiology, diagnostics and therapy of hyponatremias]". Orv Hetil. 149 (29): 1347–54. doi:10.1556/OH.2008.28409. PMID 18617466. Unknown parameter |month= ignored (help)

[Douglas-2006-6] Douglas, I. (2006). "Hyponatremia: why it matters, how it presents, how we can manage it". Cleve Clin J Med. 73 Suppl 3: S4–12. PMID 16970147. Unknown parameter |month= ignored (help)

[Verbalis-2013-7] Verbalis, JG.; Goldsmith, SR.; Greenberg, A.; Korzelius, C.; Schrier, RW.; Sterns, RH.; Thompson, CJ. (2013). "Diagnosis, evaluation, and treatment of hyponatremia: expert panel recommendations". Am J Med. 126 (10 Suppl 1): S1–42. doi:10.1016/j.amjmed.2013.07.006. PMID 24074529. Unknown parameter |month= ignored (help)

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@@ Line 76: / Line 76: @@
 * ↓ Right atrium stretching
-[[File:ADH-mechanism of action.JPG|thumb|center| Mechanism of action of ADH , (ɔ) Image courtesy of WikiDoc.org, by '''"[[User:Saeedeh Kowsarnia|Dr. Saeedeh Kowsarnia]]"''']]'''Renin-Angiotensin-Aldosteron System:'''[[File:RAAS.jpg|center|thumb|Renin-Angiotensin-Aldosteron System.Source- Wikimedia <ref>By Soupvector - Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=66583851</ref>]]
+[[File:ADH-mechanism of action-1.JPG|thumb|center| Mechanism of action of ADH , (ɔ) Image courtesy of WikiDoc.org, by '''"[[User:Saeedeh Kowsarnia|Dr. Saeedeh Kowsarnia]]"''']]'''Renin-Angiotensin-Aldosteron System:'''[[File:RAAS.jpg|center|thumb|Renin-Angiotensin-Aldosteron System.Source- Wikimedia <ref>By Soupvector - Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=66583851</ref>]]
 Hyponatremia represents as an excess of water relative to total body sodium, resulting from impaired water excretion by the kidneys or the depletion of sodium in excess of water.