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Normal anion gap metabolic acidosis

Normal Anion Gap Metabolic Acidosis: Pathogenesis and Laboratory Findings Authors: Wazaira Khan Reviewers: Jessica Krahn, Timothy Fu, Emily Wildman, Austin Laing, Yan Yu*, Juliya Hemmett* * MD at time of publication GI Loss ↑ gut motility and secretion ↑ HCO3- loss through stool Distal nephron is unaffected and continues to secrete excess acid into the urine in the form of NH4+ For every major urine cation (Na+, K+, NH4+), the distal nephron secretes one corresponding urine Cl- anion Urine NH4+ cannot be measured, so measured urine Cl- exceeds measured urine (Na+ + K+) Negative urine net charge (Urine (Na+ + K+) - Urine Cl-) Type II RTA RTA: renal tubular acidosis ↓ activity of proximal Type I RTA ↓ activity of H+ ATPase on luminal surface of ⍺- intercalated cell in the collecting duct Impaired ⍺-intercalated cell function ↓ H+ secretion into urine by ⍺- intercalated cell ↑ H+ concentration in plasmaà↓ in blood pH Activation of blood bicarbonate buffer system Compensatory ↓ in plasma HCO3- (in response to ↑ in plasma H+) Type IV RTA ↓ aldosterone production or aldosterone resistant state ↓ Na+ channels on luminal surface of principal cell in the collecting duct Impaired principal cell function ↓ Na+ reabsorption by principal cell ↑ Na+ remains in collecting duct lumen ↓ negative charge in collecting duct lumen ↓ K+ secretion into urine by principal cell ↑ K+ in plasma Hyperkalemia Normal anion gap tubule transporters, pumps or enzymes Impaired proximal tubule cell function reabsorption Complex and Incompletely understood mechanisms Hypokalemia Distal nephron function is impairedàdistal nephron is unable to secrete excess acid into the urine in the form of NH4+ ↓ in urinary NH + 4 secretion is accompanied by corresponding ↓ in urinary Cl- secretion Measured urine (Na+ + K+) exceeds measured urine Cl- Positive urine net charge (Urine (Na+ + K+) - Urine Cl-) ↓ HCO3 - in proximal tubule ↑ HCO3- loss through urine ↓ HCO3- concentration in plasma Relative ↑ in plasma H+ compared to plasma HCO3- Compensatory ↑ in CO2 exhalation by lungs (since CO2 is acidic once metabolized in the blood) Since Anion gap = Na+ - Cl- - HCO3-, 1 to 1 replacement of Cl- for HCO - in the 3 plasma results in anion gap unchanged ↓ ability to buffer excess acid Activation of the membrane Cl-/HCO3- exchanger in the collecting duct Exchanger works to ↑ Cl- levels in the plasma by one Cl- for each ↓ of one HCO3- in the plasma Metabolic Acidosis ↓ Plasma partial pressure of CO2 Legend: Pathophysiology Mechanism Sign/Symptom/Lab Finding Complications Published December 21, 2021 on www.thecalgaryguide.com