ABG Flashcards
The main chemical equation that is a principle of ABGs
H+ + HCO3- <-> H2CO3 <-> H2O + CO2
How extra acid can be eliminated from the body? (3)
• Bicarbonate is used as a buffer, plasma proteins can also hold on to the acid (may be given
when necessary)
- Hyperventilation (rapid compensation)
- Kidney working -> production of HCO3 (slow: hours/days compensation)
Causes of respiratory acidosis
- airway obstruction (foreign body, epiglottis),
- respiratory depression (heroin, opioids)
- impaired alveolar filling (full of pus - infection)
- MSK (muscular dystrophy)
What happens to HCO3- in acute respiratory acidosis
•It takes long time to compensate with HCO3-;
therefore in acute resp acidosis we will have normal
HCO3 and BE (as it has not compensated yet)
•As kidney compensate by conserving HCO3, HCO3 would increase and BE too (but takes time)
Potential causes of metabolic acidosis
- increase in H+ formation (DKA, lactic acidosis)
- increase in exogenous H+ (extra acid from somewhere else: methanol, ethanol, drugs)
- decrease in H+ excretion (cannot excrete H+: renal failure)
- decrease in HCO3- (renal loss, gut loss)
What’s metabolic acidosis?
Excess of acid or decrease in HCO3-
What happens in metabolic acidosis with respiratory compensation?
Compensation:
increased RR -> hyperventilation (decreased CO2 but
still not alkalotic) => Metabolic acidosis with resp compensation
What’s respiratory alkalosis?
Low CO2 due to increase ventilation
Causes of respiratory alkalosis (3 categories)
A. Central: hysteria, hyperventilation, head injury, stroke (breathing centres may be affected)
B. Lungs/hypoxia: PE, pulmonary oedema, fibrosis (needs to breath harder to maintain fairly normal sats)
C. Drugs: salicylate (aspirin, pain relieving meds)
How body compensates for respiratory alkalosis?
Compensation: excretion of HCO3 via kidneys to
normalise acidosis (but takes time)
What’s metabolic alkalosis?
excess of H+ loss or excess of extra base
Causes of metabolic alkalosis (3 categories)
A. Acid loss: (prolonged vomiting, gastric aspiration, hypokalaemia -> acid into cells so potassium can get out to normalise)
B. Renal loss (hypokalaemia, hypochloraemia)
C. Gaining base (iatrogenic, milk-alkali syndrome *rare now as we use PPI to reduce indigestion; in the past milk was used)
How does body compensate for metabolic alkalosis?
slow breathing down (to retain more CO2)-> so we
can correct alkalosis (by adding some H+ from CO2
increase)
What may be suggestive of possible chronic respiratory failure?
Chronic: was going on for some time -> Bicarb is conserved due to body trying to compensate for acidosis
What’s the aim of normal stats and what’s the aim of stats for COPD?
- normal sats: >94%
- COPD person: 88 - 92% (aim for no more than 92%)