Renal tubular acidosis pathophysiology: Difference between revisions

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*Normally kidneys reabsorb the filtered bicarbonate and excrete acid to maintain acid-base balance.
*Normally kidneys reabsorb the filtered bicarbonate and excrete acid to maintain acid-base balance.
*HCO3 reabsorption is facilitated by Na-H and proton pumps.
*HCO3 reabsorption is facilitated by Na-H and proton pumps.
**Na-H reabsorbs about 80-90% of the filtered HCO3 at the proximal tubule.
**Na-H reabsorbs about 80-90% of the filtered HCO<sub>3</sub> at the proximal tubule.
**Proton pumps (H-ATPase and H-K ATPase) the distal nephron via hydrogen reabsorbs remaining 10 percent.  
**Proton pumps (H-ATPase and H-K ATPase) in the distal nephron reabsorbs remaining 10 percent of HCO<sub>3</sub>.  
**There is no bicarbonate in the final urine in normal situations.
**There is no HCO<sub>3</sub> in the final urine.
*Collecting tubules serve the function of excretion of acid.
*Collecting tubules serve the function of excretion of acid.
**Hydrogen ions need a buffer to get excreted.  
**Hydrogen ions need a buffer to get excreted.  
**The principal buffers in the urine are ammonia and phosphate.
**The principal buffers in the urine are ammonia and phosphate.
***Ammonium excretion requires the renal synthesis of ammonia and the secretion of hydrogen ions into the tubular lumen where they are trapped as ammonium.
***Acidosis stimulates ammonia production in renal tubules.
***Ammonia diffuses freely across membranes, while ammonium does not.
***While ammonia can freely diffuse across membranes, ammonium cannot.
***The renal tubular production of ammonia is stimulated by intracellular acidosis.
***The secretion of hydrogen ions into the tubular lumen trap ammonia as ammonium which can easily flush out along with .
***When the systemic acid load is modestly increased, near-normal balance is maintained by increases in ammonium production and excretion.
***Increased production of ammonium is required in cases of acidosis to maintain near-normal balance.
***Failure to excrete sufficient ammonium often leads to the net retention of hydrogen ions and the development of metabolic acidosis.
[[Image:Renal_Diuretics.gif|thumb|center|400px|Source:By Haisook at English Wikipedia, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=2945979]]
[[Image:Renal_Diuretics.gif|thumb|center|400px|Source:By Haisook at English Wikipedia, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=2945979]]


 
==== Potassium ====
* Potassium is the most common electrolyte abnormality that can be noticed with renal tubular acidosis.
* It can be either hypokalemic renal tubular acidosis or hyperkalemic renal tubular acidosis.
* Almost all of the filtered potassium is reabsorbed passively in the proximal tubule and loop of Henle.
* The potassium excreted in the urine is derived from secretion into the tubular lumen by cells in the distal nephron.
** Distal potassium secretion is primarily influenced by two factors, both promote sodium reabsorption:
*** Aldosterone increases the number of open sodium channels thereby increases sodium reabsorption.
*** The distal delivery of sodium and water , reabsorption of sodium is more rapid than that of chloride, resulting in a relatively electronegative lumen.
*** This relative negative charge provides a favorable gradient for passive potassium secretion from the tubular cell into the lumen through potassium channels in the luminal membrane.
* Depending upon the site of the defect and the mechanism responsible for the various forms of RTA, can result in hypokalemia or hyperkalemia:
* Hypokalemia frequently develops in patients with distal RTA.
** Usually improves with alkali therapy in contrast to to hypokalemia in proximal RTA which is exacerbated by alkali therapy.
* Hyperkalemia occurs frequently with hypoaldosteronism (type 4 RTA) and in patients with other defects in distal nephron sodium reabsorption (voltage-dependent RTA).


==References==
==References==
{{reflist|2}}
{{reflist|2}}

Revision as of 18:09, 16 May 2018

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

Overview

Pathophysiology

Normal Physiology of Acid-Base balance

  • Normally kidneys reabsorb the filtered bicarbonate and excrete acid to maintain acid-base balance.
  • HCO3 reabsorption is facilitated by Na-H and proton pumps.
    • Na-H reabsorbs about 80-90% of the filtered HCO3 at the proximal tubule.
    • Proton pumps (H-ATPase and H-K ATPase) in the distal nephron reabsorbs remaining 10 percent of HCO3.
    • There is no HCO3 in the final urine.
  • Collecting tubules serve the function of excretion of acid.
    • Hydrogen ions need a buffer to get excreted.
    • The principal buffers in the urine are ammonia and phosphate.
      • Acidosis stimulates ammonia production in renal tubules.
      • While ammonia can freely diffuse across membranes, ammonium cannot.
      • The secretion of hydrogen ions into the tubular lumen trap ammonia as ammonium which can easily flush out along with .
      • Increased production of ammonium is required in cases of acidosis to maintain near-normal balance.
Source:By Haisook at English Wikipedia, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=2945979

Potassium

  • Potassium is the most common electrolyte abnormality that can be noticed with renal tubular acidosis.
  • It can be either hypokalemic renal tubular acidosis or hyperkalemic renal tubular acidosis.
  • Almost all of the filtered potassium is reabsorbed passively in the proximal tubule and loop of Henle.
  • The potassium excreted in the urine is derived from secretion into the tubular lumen by cells in the distal nephron.
    • Distal potassium secretion is primarily influenced by two factors, both promote sodium reabsorption:
      • Aldosterone increases the number of open sodium channels thereby increases sodium reabsorption.
      • The distal delivery of sodium and water , reabsorption of sodium is more rapid than that of chloride, resulting in a relatively electronegative lumen.
      • This relative negative charge provides a favorable gradient for passive potassium secretion from the tubular cell into the lumen through potassium channels in the luminal membrane.
  • Depending upon the site of the defect and the mechanism responsible for the various forms of RTA, can result in hypokalemia or hyperkalemia:
  • Hypokalemia frequently develops in patients with distal RTA.
    • Usually improves with alkali therapy in contrast to to hypokalemia in proximal RTA which is exacerbated by alkali therapy.
  • Hyperkalemia occurs frequently with hypoaldosteronism (type 4 RTA) and in patients with other defects in distal nephron sodium reabsorption (voltage-dependent RTA).

References

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