Anion gap acidosis: Difference between revisions
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==Clinical Features== | ==Clinical Features== | ||
*Signs/symptoms of underlying disease | |||
*Compensatory [[tachypnea]] | |||
==Differential Diagnosis== | ==Differential Diagnosis== | ||
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==Evaluation== | ==Evaluation== | ||
*AG = Na - (Cl + HCO3) | |||
*Normal Anion Gap = 12+/-4 (8-16) | |||
*12-20 mEq/L when including K+ | |||
*Primary acidosis if pH <7.38 | |||
*HCO3 <24 = metabolic acidosis | |||
*Always determine if there is another acid/base process occurring | |||
**Primary respiratory acidosis if pCO2 > pCO2expected | |||
**Primary respiratory alkalosis if pCO2 < pCO2expected | |||
***use Winter's formula: PCO2 (expected) = (1.5 x [HCO3–] + 8) ± 2 | |||
***In acute setting PCO2 should fall by 1 mmHg for every 1 mEq fall in HCO3 | |||
**Concurrent metabolic alkalosis if delta-delta > 28 | |||
**Delta-Delta = (AG - 12) + HCO3 | |||
==Management== | ==Management== | ||
*Treat source | |||
*Correct any [[respiratory acidosis]] | |||
*[[Bicarbonate]] | |||
**HCO3 dose in mEq = 0.5(wt in kg) x (24 - measured HCO3) | |||
**Each bicarb 0.5mEq/kg causes 1 meq/L rise in HCO3 | |||
**Consider for: | |||
***Bicarb <4 | |||
***pH <7.20 AND shock/myocardial irritability | |||
***Severe hyperchloremic acidemia | |||
****Lost bicarbonate would take days to replenish | |||
==Disposition== | ==Disposition== | ||
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==See Also== | ==See Also== | ||
*[[Non anion gap acidosis]] | *[[Non anion gap acidosis]] | ||
==External Links== | ==External Links== | ||
Latest revision as of 22:23, 28 September 2019
Background
Clinical Features
- Signs/symptoms of underlying disease
- Compensatory tachypnea
Differential Diagnosis
Anion gap metabolic acidosis
- Lactic acidosis
- Sepsis, shock, liver disease, CO, CN, metformin, methemoglobin
- Short bowel syndrome
- Propylene glycol infusions for lorazepam and phenobarbital
- Renal failure
- Ketoacidosis
- Ingestions
- Acetaminophen toxicity
- Aspirin toxicity
- Increased osm gap
- Normal osm gap
Evaluation
- AG = Na - (Cl + HCO3)
- Normal Anion Gap = 12+/-4 (8-16)
- 12-20 mEq/L when including K+
- Primary acidosis if pH <7.38
- HCO3 <24 = metabolic acidosis
- Always determine if there is another acid/base process occurring
- Primary respiratory acidosis if pCO2 > pCO2expected
- Primary respiratory alkalosis if pCO2 < pCO2expected
- use Winter's formula: PCO2 (expected) = (1.5 x [HCO3–] + 8) ± 2
- In acute setting PCO2 should fall by 1 mmHg for every 1 mEq fall in HCO3
- Concurrent metabolic alkalosis if delta-delta > 28
- Delta-Delta = (AG - 12) + HCO3
Management
- Treat source
- Correct any respiratory acidosis
- Bicarbonate
- HCO3 dose in mEq = 0.5(wt in kg) x (24 - measured HCO3)
- Each bicarb 0.5mEq/kg causes 1 meq/L rise in HCO3
- Consider for:
- Bicarb <4
- pH <7.20 AND shock/myocardial irritability
- Severe hyperchloremic acidemia
- Lost bicarbonate would take days to replenish