Hypokalemia

Background

Serum potassium <3.5 mEq/L
Most common electrolyte abnormality encountered in clinical practice
Severity:
- Mild: 3.0-3.5 mEq/L
- Moderate: 2.5-3.0 mEq/L
- Severe: <2.5 mEq/L (risk of arrhythmia, respiratory failure)
Every 1 mEq/L decrease in serum K represents ~200-400 mEq total body deficit

Decreased intake: malnutrition, anorexia, alcoholism
GI losses (most common):
- Vomiting (metabolic alkalosis → renal K wasting)
- Diarrhea (direct K loss)
- NG suction, laxative abuse
Renal losses:
- Diuretics (loops, thiazides — most common medication cause)
- Hyperaldosteronism (primary or secondary)
- Renal tubular acidosis (types 1 and 2)
- Hypomagnesemia (impairs renal K conservation)
- Osmotic diuresis (DKA)
Transcellular shift (K moves into cells):
- Insulin (therapeutic or endogenous)
- Beta-2 agonists (albuterol)
- Alkalosis
- Catecholamine surge, thyrotoxicosis
- Hypothermia (shifts K intracellularly)

Often asymptomatic with mild hypokalemia
Muscle weakness (proximal > distal), cramps, myalgia
Ileus, constipation, nausea/vomiting
Rhabdomyolysis (severe hypokalemia)
Cardiac arrhythmias:
- PACs, PVCs → atrial or ventricular tachycardia → torsades de pointes → VF
- Potentiates digoxin toxicity

ECG (look for U waves, flattened T waves, prolonged QT)
BMP: K level, bicarbonate (alkalosis?), glucose, creatinine
Magnesium level (hypokalemia refractory to replacement if Mg not corrected)
Calcium level (concurrent abnormalities)
Consider: urine K (spot urine K/Cr ratio or 24h K), urine chloride, TSH, cortisol/aldosterone if unexplained
Digoxin level if on digoxin (hypokalemia increases digoxin sensitivity)

Always check and replace magnesium first — hypokalemia is refractory to correction with concurrent hypomagnesemia
Oral replacement preferred when possible (better tolerated, less risky)
IV replacement for severe hypokalemia, ECG changes, or NPO patients

KCl 10-20 mEq/hr IV via peripheral line (max 40 mEq/L concentration peripherally)
- Higher concentrations require central line
Max infusion rate: 10-20 mEq/hr (peripheral); up to 40 mEq/hr via central line with cardiac monitoring
Concurrent oral supplementation

DKA: K may be normal or elevated on presentation but total body stores are depleted
- Replace K before or concurrent with insulin when K <5.3
- Do NOT start insulin if K <3.3 — replace K to >3.3 first
Digoxin toxicity: maintain K >4.0 mEq/L
Refractory hypokalemia: check and replace magnesium^[1]; consider amiloride or spironolactone

Admit if K <2.5, symptomatic, ECG changes, arrhythmia, or ongoing losses
Continuous telemetry for K <3.0 or ECG changes
Discharge if mild (3.0-3.5), asymptomatic, clear correctable cause, tolerated PO replacement, normal ECG
Close follow-up with recheck in 24-48 hours

Kardalas E, et al. Hypokalemia: a clinical update. Endocr Connect. 2018;7(4):R135-R146. PMID 29540487
Gennari FJ. Hypokalemia. N Engl J Med. 1998;339(7):451-458. PMID 9700180
Viera AJ, Wouk N. Potassium disorders: hypokalemia and hyperkalemia. Am Fam Physician. 2015;92(6):487-495. PMID 26371733
Crop MJ, et al. Role of magnesium in hypokalemia. Crit Care. 2012;16(1):229. PMID 22866973

↑ Huang CL, Kuo E. Mechanism of hypokalemia in magnesium deficiency. J Am Soc Nephrol. 2007;18(10):2649-2652. PMID 17804670

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