Hypokalaemia

2 min read

  • Mild – 3.0-3.5
  • Moderate – 2.5-3.0
  • Severe – <2.5

Aetiologies

  • can remember with the mnemonic Dr froM MIT:
    • Decreased intake (e.g. poor dietary intake, starvation)
    • Hypomagnesaemia which results in increased potassium loss
    • Mineralocorticoid excess
      • Cushing syndrome
      • Primary aldosteronism
      • Renal vascular hypertension
      • Renin producing tumour
      • Adrenogenital syndrome
      • Licorice excess
      • Bartter syndrome
      • Liddle syndrome
    • Increased loss
      • Drugs (diuretics, laxatives, liquorice, steroids, antibiotics (carbapenems, gentamicin, amphortericin B))
      • Skin - profuse sweating, extensive burns
      • GI - diarrhoea, vomiting, ileostomy, intestinal fistula, villous adenoma, laxatives
      • Renal - tubular disorders, nephrogenic DI
      • Endocrine - hyperaldosteronism, Cushing syndrome, Conn syndrome
      • Dialysis - haemodialysis on low dialysate,peritoneal dialysis
    • Transcellular shift
      • Insulin/glucose therapy
      • Beta-agonists
      • Alkalosis: respiratory and metabolic
      • Hypokalaemic periodic paralysis

Clinical Features

  • Muscles - weakness (legs > arms), cramps, ileus, rhabdomyolysis
  • Cardiac conduction abnormalities
    • Dangerous arrhythmias are more common when hypokalaemia also occurs with QT prolonging drugs, digoxin toxicity, Hypomagnesaemia, coronary ischaemia

Assessment

History

  • fatigue
  • muscle cramps
  • weakness
  • constipation
  • rhabdomyolysis
  • ascending paralysis
  • respiratory failure
  • arrhythmias
  • symptoms more likely in pre-existing heart disease (IHD, CHF, LVH)
  • medications: cause of hypokalaemia and also anti-arrhythmics (sotalol increased risk of arrhythmias)

Examination

Investigations

  • ECG
  • EUC
  • CMP
  • Digoxin level if on digoxin

Workup

  1. Most aetiologies are evident from history
  2. Assess magnesium level
  3. Check acid base status and measure urine potassium excretion

Management

  • Replace magnesium as fascilitates a more rapid correction of hyperkalaemia

  • For patients with hypokalaemia in the setting of essential diuretic use (e.g. heart failure) or hyperaldosteronism, a potassium-sparing diuretic is usually more effective than chronic potassium replacement
  • In life threatening arrhythmias:
    • 20 mmol over 10 minutes
    • 10 mmol over 10 minutes

Sources

Disclaimer: These notes are for educational purposes only and are not medical advice. I do not claim copyright for the content or images unless otherwise stated. For concerns or changes, create a new issue on GitHub.

Recently updated

Latest 4

Graph View

Backlinks