ACID–BASE DISTURBANCES128 Acid–Base, Electrolyte and Renal Emergencies
(i) The acidosis is partially compensated if the PaCO 2 value is higher
than predicted.
(ii) A primary respiratory alkalosis coexists if the PaCO 2 value is
lower than predicted.
6 There are few specific clinical features due to an acute metabolic acidosis
itself, other than hyperventilation known as Kussmaul breathing.
7 Urea and electrolytes (U&Es) confirm a primary fall in plasma bicarbonate
below 22 mmol/L and usually show an associated rise in plasma potassium
from an extracellular shift.MANAGEMENT1 Provide supportive treatment with oxygen, i.v. f luids and treat symptomatic
hyperkalaemia (see p. 132).
2 Correct any reversible underlying disorder:
(i) Administer fluid and insulin, and replace potassium in diabetic
ketoacidosis.
(ii) Ensure adequate oxygenation and restore the intravascular
volume to improve peripheral perfusion in lactic acidosis.
3 Refer the patient to the medical team. Dialysis will be necessary for renal
failure and severe methanol or salicylate poisoning.Metabolic alkalosis
DIAGNOSIS
1 An abnormal process or condition leading to a serum bicarbonate level of
>28 mmol/L.
2 Causes include:
(i) Addition of base to extracellular fluid:
(a) recovery from organic acidosis secondary to metabolism of
lactate and acetate
(b) milk-alkali syndrome
(c) massive blood transfusion (metabolism of citrate).
(ii) Chloride depletion:
(a) loss of gastric acid from vomiting or gastric aspiration
(b) diuretics.
(iii) Potassium depletion:
(a) primary (Conn’s) and secondary hyperaldosteronism
(b) Cushing’s or Bartter’s syndromes
(c) severe hypokalaemia.
(iv) Other:
(a) laxative abuse
(b) severe hypoalbuminaemia.