Hyperkalaemia in children
Serum K+> 5.5 mmol/L in children & > 6mmol/L in neonates
Potassium has an important role in membrane polarization, especially within cardiac conduction system. Hyperkalaemia is potentially life threatening, and can result in cardiac arrhythmias or sudden death.
Causes
Cell / Tissue breakdown
– Spurious result due to hemolysis, prolonged tourniquet
– Tumor lysis syndrome,
– Rhabdomyolysis (crush injury, prolonged seizure)
– Massive hemolysis, Burns
– Malignant hyperthermia
Decreased renal excretion
– Acute / Chronic Renal failure
– Renal tubular disorders, obstructive nephropathy
– Drugs: ACE inhibitors, Potassium sparing diuretics
– Mineralocorticoid deficiency: CAH, Addison disease
Increased Potassium intake
– Oral or Intravenous excess potassium administration
– Red cells transfusion
Extracellular shift
– Acidosis
– Diabetic Ketoacidosis with low insulin status
– Drugs- Propranolol, NSAID, Digoxin
Clinical presentation
– Review clinical features and possible causes leading to Hyperkalaemia.
– Cardiac toxicity with arrhythmias or asystole can precede clinical symptoms
– Some patients have paraesthesias, weakness, and tingling; nausea, vomiting or ileus
– Also respiratory depression, palpitations, cardiac arrest
Investigation
Serum K+should be confirmed with a 2nd ‘good quality’ sample
Review renal function
ECG changes begin with peaking of the T waves and increased P-R interval
Progressing to flatten P wave, widened QRS complex
Then Ventricular fibrillation or Asystole
Moderate or severe hyperkalaemia requires continuous cardiac monitoring
*A normal ECG does not exclude risk for arrhythmia
Also check blood gas, Glucose, CK, Urine electrolytes
May need to consider checking Aldosterone and Cortisol
Management
Discontinue K+in IV fluids and any oral potassium supplement
Stop any drug that may increase potassium or reduce its excretion
Alert senior doctor and consider discussion with Renal team or PICU
Moderate to Severe hyperkalaemia:
– IV Calcium Gluconate (membrane stabilising effect)
– Salbutamol nebulised (causes intracellular shift)
– Insulin + Glucose infusion (causes intracellular shift)
– IV Bicarbonate correction (to reverse metabolic acidosis)
Then consider
– Dialysis (to reduce total body K+)
– Resonium orally / rectally (reduces K+ in GIT)
– IV Hydrocortisone if suspicion of adrenal insufficiency
Mild hyperkalaemia
– May not require specific treatment, but confirm with 2ndsample
– Stop any K+supplements or any causative drug
– May require Salbutamol nebulized or oral Resonium