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Sodium and Water Homeostasis

Aka: Sodium and Water Homeostasis, Fluid Homeostasis, Sodium Hemeostasis, Fluid Shifts, Osmoregulation, Water-Electrolyte Balance, Sodium, Sodium Cation

I. See Also

  1. Hyponatremia
  2. Hypernatremia
  3. Total Body Sodium Deficit (Includes Total Body Water and Free Water Deficit Calculations)
  4. Serum Osmolality
  5. Osmolal Gap
  6. Urine Sodium
  7. Fractional Excretion of Sodium (FENa)
  8. Potassium Homeostasis

II. Physiology: Total blody water distribution

  1. See Total Body Water
  2. Total Body Water (TBW) accounts for 60% of body weight in men (50% in women)
    1. Example: 70 kg man has ~42 L TBW and a 70 kg woman has ~35 L TBW
  3. Intracellular fluid volume or ICFV (66% of Total Body Water)
    1. Example: 70 kg man has ~28 L ICFV and a 70 kg woman has ~23 L ICFV
    2. High concentrations of Potassium (>130 mEq/L) and Magnesium (>20 mEq/L)
    3. Low concentrations of Sodium (<20 mEq/L)
  4. Extracellular fluid volume or ECFV (33% of Total Body Water)
    1. Example: 70 kg man has ~14 L ECFV and a 70 kg woman has ~12 L ECFV
    2. Electrolytes
      1. Low concentrations of Potassium (<5 mEq/L) and Magnesium (<2 mEq/L)
      2. High concentrations of Sodium (135-145 mEq/L)
    3. Interstitial volume (75% of extracellular fluid)
    4. Plasma volume (25% of extracellular fluid)
      1. Plasma volume is maintained by plasma proteins via oncotic pressure

III. Physiology: Sodium and water

  1. Total Body Water is primarily maintained via extracellular Sodium concentration
    1. Extracellular Sodium is maintained at 135-145 mEq/L
    2. Sodium (Na+) is the primary osmole to maintain extracellular fluid volume
  2. Total body Sodium is typically estimated based only on extracellular Sodium
    1. Intracellular Sodium is negligible (<20 mEq/L) compared with extracellular Sodium (>135 mEq/L)
  3. Water follows higher Sodium concentrations (osmotic pressure gradient)
    1. Increased Sodium concentrations results in greater extracellular water retention
      1. Results in Fluid Overload (edematous state) with increased ECFV
    2. Decreased Sodium concentration results in extracellular water loss
      1. Results in volume depletion with decreased ECFV
  4. Sodium is regulated to maintain appropriate extracellular fluid volume
    1. Balances Sodium intake with Sodium excretion
    2. Fluid Overload and hypovolemia are defects in Sodium regulation (even when Serum Sodium is normal)
    3. Hyponatremia is a water excess state (water regulation abnormality)
      1. May be associated with low, normal or high ECFV (or total body Sodium)

IV. Physiology: Sodium regulation Mechanisms (renally mediated)

  1. Renin-Angiotensin System (and Aldosterone)
    1. See Renin-Angiotensin System
    2. Afferent (sensory)
      1. Renal juxtaglomerular cells sense decreased renal perfusion and release renin
      2. Renin converts Angiotensinogen to Angiotensin I
      3. Angiotensin Converting Enzyme converts Angiotensin I to Angiotensin II
    3. Efferent (action)
      1. Angiotensin II increases proximal tubule Sodium absorption
      2. Angiotensin II stimulates aldosterone release from the adrenal cortex (zona glomerulosa)
      3. Aldosterone acts to increase Sodium absorption at the distal nephron (cortical collecting tubule)
  2. Atrial natriuretic factor
    1. See Brain Natriuretic Peptide (BNP)
    2. Afferent (sensory)
      1. Atria and vena cava respond to increased intravascular volume, filling and stretch
      2. Release atrial natriuretic factor from atria in response to increased volume
    3. Efferent (action)
      1. Atrial natriuretic factor increases Glomerular Filtration Rate (GFR)
        1. Dilates afferent glomerular arteriole
        2. Constricts efferent glomerular arteriole
      2. Atrial natriuretic factor opposes Renin-Angiotensin System
        1. Decreases renal Sodium absorption at distal nephron (opposes Aldosterone)
        2. Inhibits renin secretion
  3. Sympathetic Nervous System
    1. Afferent (sensory)
      1. Aorta and carotid sinus receptors respond to decreased pressure (low volume)
      2. Activates Sympathetic System in response to volume depletion (decreased ECFV)
    2. Efferent (action)
      1. See Sympathetic Nervous System for effects
      2. Sympathetic System activation results in renal Sodium retention
      3. Mediated via Renin-Angiotensin System

V. Physiology: Osmolality and Tonicity

  1. See Serum Osmolality (and Extracellular Fluid Tonicity)
  2. Sodium is the chief osmole in maintaining plasma osmolality and tonicity
    1. Sodium is in greatest overall concentration of any solute in the extracellular fluid (osmolality)
    2. Sodium also has the greatest effect on ECF osmotic pressure gradient for attracting water
    3. Glucose, Sorbitol, and mannitol also may generate, to a much lesser extent, an osmotic gradient
  3. Osmolal Gap
    1. Osmolality may be calculated based on known solutes (Sodium, Glucose, BUN)
    2. Osmolar Gap is the difference between expected and measured osmolality
    3. Osmolar Gap >10 mOsm/L suggests unmeasured solutes
      1. Example: Toxic Alcohols such as Polyethylene glycol
  4. Cellular hydration and tonicity
    1. Fluid Shifts into or out of cells are based on tonicity
    2. Rapid changes in extracellular Sodium concentration can seriously impact cell fluid (esp. brain cells)
      1. Rapid onset Hyponatremia, results in cell swelling
      2. Rapid onset Hypernatremia, results in cell shrinkage

VI. Physiology: Water Regulation Mechanisms (affects osmolality and tonicity)

  1. Background
    1. Water intake and output Mechanisms have greatest ECF Sodium concentration effect
  2. Thirst
    1. Potent sensation that increases water intake and prevents Hypernatremia
      1. Hypernatremia is rare with intact thirst Mechanism and adequate water access
    2. Inducers of thirst
      1. Increased extracellular fluid osmolality (responds to even a few mOsm/L difference)
      2. Angiotensin II
      3. Extracellular Fluid Volume depletion
  3. Antidiuretic hormone (ADH or arginine vasopressin)
    1. ADH is released from the posterior pituitary
      1. Released in response to osmoreceptors in the hypothothalamus detecting hypertonicity
      2. Hypertonicity also stimulates thirst sensation
    2. Increase in plasma osmolality (and increased plasma Sodium concentration)
      1. Increased ADH secretion
      2. Water retention by the Kidneys
      3. Decreased plasma Sodium concentration (and decreased plasma osmolality)
    3. Decrease in plasma osmolality (and decreased plasma Sodium concentration)
      1. Decreased ADH secretion
      2. Free water diuresis
      3. Increased plasma Sodium concentration (and increased plasma osmolality)
  4. Renal Mechanisms
    1. Renal responses
      1. Hypertonic response (e.g. Hypernatremia)
        1. Kidney retains water
        2. Urine is more concentrated than plasma
      2. Hypotonic response (e.g. Hyponatremia)
        1. Kidney excretes water
        2. Urine is more dilute than plasma
    2. Renal water regulation dependencies
      1. Adequate Glomerular Filtration Rate
        1. Concentrating and diluting Mechanisms require a minimum GFR of 20% of normal
      2. Adequate renal tubule concentrating and diluting functions
        1. Adequate glomerular filtrate delivery to tubules
          1. Excessive proximal tubule water reabsorption bypasses the distal tubule
          2. Excessive proximal tubule water reabsorption may result in Hyponatremia
            1. Volume depletion (e.g. free water replacement of Diarrhea losses)
            2. Edematous states (e.g. CHF, Cirrhosis, Nephrosis)
        2. Adequate concentrating function
          1. Ascending loop of henle reabsorbs 30% of Sodium into the Medullary interstitium
          2. Sodium (but not water) is reabsorbed via the Sodium-Potassium-2-chloride pump
            1. Sodium reabsorbtion is blocked by loop diurectics
          3. Creates a hypertonic Medullary interstitium
          4. Allows for a concentrated urine
            1. Hypertonic Medullary attracts water from the collecting tubule
            2. Collecting tubule water permeability is modified by ADH
        3. Adequate diluting function
          1. Additional 5-10% of Sodium and chloride are reabsorbed at the distal convoluted tubule
          2. Sodium chloride reabsorption is blocked by Thiazide diurectics at the distal convoluted tubule
            1. Thiazide diurectics cause a relative retention of water more than Sodium
            2. Results in a greater risk of Hyponatremia than with Loop Diuretics
          3. Without later water reabsorption, the urine is dilute
      3. Adequate Antidiuretic hormone (ADH) functioning
        1. ADH is key regulator of urine concentration and dilution (1200 mOsm/L to 50 mOsm/L)
        2. Appropriate central ADH release
          1. ADH is released in response to small increases in extracellular Sodium concentration
            1. Also released with volume depletion
          2. Inappropriately increased ADH release with SIADH
            1. Results in Isovolemic Hypoosmolar Hyponatremia
          3. Deficient ADH release occurs with Central Diabetes Insipidus
            1. Results in decreased collecting tubule permeability, water loss and Hypernatremia
        3. Appropriate renal ADH response
          1. ADH increases Medullary collecting tubule water permeability
            1. Water flows from the collecting tubule into the hypertonic Medullary interstitium
          2. Inappropriately increased ADH responsiveness with ADH-like drugs
            1. Results in SIADH
          3. Deficient ADH response occurs in Nephrogenic Diabetes Insipidus
            1. Results in decreased collecting tubule permeability, water loss and Hypernatremia

VII. Physiology: Images

  1. Nephron
    1. nephron.png

VIII. References

  1. Marino (2014) ICU Book, p. 653-72
  2. Preston (2011) Acid-Base Fluids and Electrolytes, p. 3-30
  3. Rose (1989) Clinical Physiology of Acid-Base and Electrolyte Disorders, p. 3-27

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Ontology: Water-Electrolyte Balance (C0043064)

Definition (MSH) The balance of fluid in the BODY FLUID COMPARTMENTS; total BODY WATER; BLOOD VOLUME; EXTRACELLULAR SPACE; INTRACELLULAR SPACE, maintained by processes in the body that regulate the intake and excretion of WATER and ELECTROLYTES, particularly SODIUM and POTASSIUM.
Concepts Organism Function (T040)
MSH D014882
SnomedCT 16379007
English Balance, Water-Electrolyte, Water Electrolyte Balance, Water-electrolyte balance, function, osmoregulation, balance electrolyte water, water-electrolyte balance, balance electrolytes water, Water-Electrolyte Balance, Water-electrolyte balance, Water-electrolyte balance, function (observable entity), Water-electrolyte balance (function)
Swedish Vätske- och elektrolytbalans
Czech vodní a elektrolytová rovnováha
Finnish Neste-elektrolyyttitasapaino
French Équilibre hydro-électrolytique, Équilibre hydroélectrolytique
Russian VODNO-ELEKTROLITNYI BALANS, OBMEN ZHIDKOSTI, ZHIDKOSTI BALANS, ЖИДКОСТИ Б�Л��С, ВОД�О-ЭЛЕКТРОЛИТ�ЫЙ Б�Л��С, ОБМЕ� ЖИДКОСТИ
Japanese 水-電解質平衡(スイ-デンカイシツヘイコウ), 水・電解質平衡, 体液平衡, 水・電解質�ランス, 水-電解質平衡, 浸�圧調節
Portuguese Equilíbrio Hidroeletrolítico, Balanço Hidreletrolítico, Balanço Hidroeletrolítico, Equilíbrio Hidreletrolítico
Croatian VODA-ELEKTROLITI, RAVNOTEŽA
Polish Gospodarka wodno-elektrolitowa
Norwegian Not Translated[Water-Electrolyte Balance]
Spanish Balance Hidroelectrolítico, balance hidroelectrolítico (entidad observable), balance hidroelectrolítico (función), balance hidroelectrolítico, equilibrio hidroelectrolítico (entidad observable), equilibrio hidroelectrolítico, Equilibrio Hidroelectrolítico
German Wasser-Elektrolyt-Haushalt
Italian Equilibrio acqua-elettrolita
Dutch Water-elektrolytbalans
Derived from the NIH UMLS (Unified Medical Language System)

Ontology: Fluid Shifts (C0242705)

Definition (MSH) Translocation of body fluids from one compartment to another, such as from the vascular to the interstitial compartments. Fluid shifts are associated with profound changes in vascular permeability and WATER-ELECTROLYTE IMBALANCE. The shift can also be from the lower body to the upper body as in conditions of weightlessness.
Concepts Physiologic Function (T039)
MSH D018495
English Fluid Shifts, Shifts, Fluid, fluids shift, fluid shifting, fluid shift, fluid shifts
Swedish Kroppsvätskeförskjutningar
Czech přesuny tekutin
Finnish Nestesiirtymät
French Mouvements des liquides corporels, Échanges liquidiens, Déplacements des liquides corporels, Transferts liquidiens, Transfert liquidien
Russian ZHIDKOSTEI ORGANIZMA PEREMESHCHENIE, ZHIDKOSTEI TELA PEREMESHCHENIE, ЖИДКОСТЕЙ ОРГ��ИЗМ� ПЕРЕМЕЩЕ�ИЕ, ЖИДКОСТЕЙ ТЕЛ� ПЕРЕМЕЩЕ�ИЕ
Portuguese Deslocamentos de Líquidos Corporais, Transferências de Fluídos Corporais, Desvios de Fluidos Corporais, Desvios de Líquidos Corporais, Transferências de Fluídos, Deslocamentos de Fluídos, Desvios de Fluídos, Deslocamentos de Líquidos, Desvios de Líquidos, Transferências de Líquidos Corporais
Polish Przemieszczanie się płynów
Spanish Transferencias de Fluidos Corporales, Transferencias de Fluidos, Transferencias de Fluido, Transferencias de Líquidos, Transferencias de Líquidos Corporales
German Flüssigkeitsverschiebungen
Italian Scorrimento dei fluidi
Dutch Verschuiving, vloeistof-, Vloeistofverschuiving
Derived from the NIH UMLS (Unified Medical Language System)

Ontology: Sodium disorder (C0549563)

Concepts Pathologic Function (T046)
SnomedCT 154754006, 267506007, 123807007
English Sodium disorders, Sodium disorder (disorder), Sodium disorder
Spanish trastorno del sodio (trastorno), trastorno del sodio
Derived from the NIH UMLS (Unified Medical Language System)

Ontology: Sodium Cation (C0597484)

Definition (NCI_CRCH) Sodium ion requiring one electron to return to its elemental state.
Definition (CSP) chief cation of the extracellular body fluids.
Concepts Element, Ion, or Isotope (T196)
English sodium ion, Sodium Ion, Na+, Sodium Cation, sodium ions, Na+ element, SODIUM CATION, Sodium 1+, Sodium+, Sodium cation, sodium cation, Sodium Ions
Derived from the NIH UMLS (Unified Medical Language System)

Ontology: sodium ion homeostasis (C1156281)

Definition (GO) Any process involved in the maintenance of an internal steady state of sodium ions within an organism or cell. [GOC:ai, GOC:jid, GOC:mah]
Concepts Organism Function (T040)
English sodium ion homeostasis
Derived from the NIH UMLS (Unified Medical Language System)

Ontology: Osmoregulation (C1510659)

Definition (GO) Any process that results in a change in state or activity of a cell or an organism (in terms of movement, secretion, enzyme production, gene expression, etc.) as a result of a stimulus indicating an increase or decrease in the concentration of solutes outside the organism or cell. [GOC:jl]
Definition (MSH) The response of cells in sensing a difference in OSMOTIC PRESSURE between the inside and outside of the cell. This response includes signaling from osmotic sensors to activate transcription factors, which in turn regulate the expression of osmocompensatory genes, all functioning to maintain CELL VOLUME and the water concentration inside the cells.
Concepts Cell Function (T043)
MSH D064587 , D014882
English response to osmotic stress, osmotic stress response, osmotic response, osmoregulation, Osmoregulation, Osmotic Stress Regulating Pathway, Osmotic Stress Responses, Responses, Osmotic Stress, Stress Responses, Osmotic, Response, Osmotic Stress, Stress Response, Osmotic, Osmotic Stress Response
Czech osmoregulace
French Réponse au stress osmotique, Voie de régulation osmotique, Voie de régulation du stress osmotique, Régulation osmotique, Osmorégulation
German Osmoregulation
Italian Osmoregolazione
Norwegian Not Translated[Osmoregulation]
Russian OSMOREGULIATSIIA, OSMOTICHESKAIA REGULIATSIIA, ОСМОТИЧЕСК�Я РЕГУЛЯЦИЯ, ОСМОРЕГУЛЯЦИЯ, OTVET KLETKI NA OSMOTICHESKII STRESS, ОТВЕТ КЛЕТКИ �� ОСМОТИЧЕСКИЙ СТРЕСС
Croatian Not Translated[Osmoregulation]
Spanish Not Translated[Osmoregulation]
Portuguese Not Translated[Osmoregulation]
Dutch Osmoregulatie
Derived from the NIH UMLS (Unified Medical Language System)

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