Metabolic acidosis: Difference between revisions
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*Primary acidosis if pH <7.38 | *Primary acidosis if pH <7.38 | ||
*HCO3 <24 = metabolic acidosis | *HCO3 <24 = metabolic acidosis | ||
*Always determine whether there is a primary respiratory acidosis as well | *Always determine whether there is a primary respiratory acidosis as well (Winter's formula) | ||
**PCO2 (expected) = (1.5 x [HCO3–] + 8) ± 2 | **PCO2 (expected) = (1.5 x [HCO3–] + 8) ± 2 | ||
**In acute setting PCO2 should fall by 1 mmHg for every 1 mEq fall in HCO3 | **In acute setting PCO2 should fall by 1 mmHg for every 1 mEq fall in HCO3 | ||
| Line 18: | Line 18: | ||
##Inc osm gap | ##Inc osm gap | ||
###Methanol, ethylene glycol | ###Methanol, ethylene glycol | ||
## | ##Normal osm gap | ||
### | ###ASA, iron, INH | ||
##Osm gap = measured osm - calculated osm (normal 10-15) | |||
##Calculated Osm = 2(Na)+(glucose/18)+(BUN/2.8)+(BAL/5) | |||
=== Non-gap === | === Non-gap === | ||
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#Correct any respiratory acidosis | #Correct any respiratory acidosis | ||
#Bicarbonate | #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 | ##Each bicarb 0.5mEq/kg causes 1 meq/L rise in HCO3 | ||
##Consider for: | ##Consider for: | ||
| Line 45: | Line 48: | ||
###pH <7.20 AND shock/myocardial irritability | ###pH <7.20 AND shock/myocardial irritability | ||
###Severe hyperchloremic acidemia | ###Severe hyperchloremic acidemia | ||
###lower threshold with non-AG acidosis (greater HCO3 loss) | |||
####Lost bicarbonate would take days to replenish | ####Lost bicarbonate would take days to replenish | ||
Revision as of 18:24, 2 August 2011
Background
- Primary acidosis if pH <7.38
- HCO3 <24 = metabolic acidosis
- Always determine whether there is a primary respiratory acidosis as well (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
DDX
Gap
- Lactic acidosis
- Sepsis, shock, liver dz, CO, CN, metformin, methemoglobin
- Renal failure
- Uremia
- Ketoacidosis
- DKA, AKA, starvation
- Ingestions
- Inc osm gap
- Methanol, ethylene glycol
- Normal osm gap
- ASA, iron, INH
- Osm gap = measured osm - calculated osm (normal 10-15)
- Calculated Osm = 2(Na)+(glucose/18)+(BUN/2.8)+(BAL/5)
- Inc osm gap
Non-gap
- Hyperkalemia
- Resolving DKA
- Early uremic acidosis
- Early obstructive uropathy
- RTA Type IV
- Hypoaldo
- K-sparing diuretics
- Hypokalemia
- RTA Type I
- RTA Type II
- Acetazolamide
- Acute diarrhea
- (May be assoc with gap if hypoperfusion -> lactic acidosis)
Treatment
- 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
- lower threshold with non-AG acidosis (greater HCO3 loss)
- Lost bicarbonate would take days to replenish
Source
Tintinalli Kaji 2011