Hyperkalemia

Background

• Defined as >6.0 mEq/L
• Consider pseudohyperkalemia (e.g. from hemolysis)
• Potassium secretion is proportional to flow rate and sodium delivery through distal nephron
  • Thus, loop & thiazide diuretics cause hypokalmia

Medication Causes

Alter transmembrane potassium movement

• β blockers
• Digoxin
• Potassium-containing drugs
• Potassium supplements
• Salt substitutes
• Hyperosmolar solutions (mannitol, glucose)
• Suxamethonium
• Intravenous cationic amino acids
• Stored red blood cells (haemolysis releases potassium)
• Herbal medicines (such as alfalfa, dandelion, horsetail, milkweed, and nettle)

Reduce aldosterone secretion

• ACE inhibitors; Angiotensin II receptor blockers
• NSAIDs
• Heparin
• Antifungals (ketoconazole, fluconazole, itraconazole)
• Ciclosporin
• Tacrolimus

Block aldosterone binding to mineralocorticoid receptors

• Spironolactone
• Eplerenone
• Drospirenone
• Potassium sparing diuretics (amiloride, triamterene)
• Trimethoprim
• Pentamidine

Clinical Features

Typically non-specific

• Muscle weakness
• Lethargy, fatigue
• Parathesias
• Nausea and Vomiting
• Difficulty breathing
• Palpitations, chest pain

Differential Diagnosis

• Pseudohyperkalemia: hemolyzed specimen, prolonged tourniquet use prior to blood draw, thrombocytosis or leukocytosis
• Redistribution (shift from intracellular to extracellular space)
  • Acidemia (see DKA)
  • Cellular breakdown: see Rhabdomyolysis/Crush syndrome, electrical/thermal burn, hemolysis, see Tumor lysis syndrome
• Increased total body potassium
  • Inadequate excretion: Acute/chronic renal failure, Addison's disease, type 4 RTA
  • Drug-induced: potassium-sparing diuretic (spironolactone), angiotensin converting enzyme inhibitors (ACE-I), nonsteroidal anti-inflammatory drugs (NSAIDs)
  • Excessive intake: diet, blood transfusion
• Other causes: succinylcholine, digitalis, beta-blockers

Peaked T-waves

• MI (hyperacute T waves)
• Hyperkalemia
• Benign Early Repolarization
• De Winter's T waves (acute LAD occlusion)

Evaluation

ECG

Changes NOT always predictable and sequential

• 6.5 - 7.5 mEq/L: peaked T waves, prolonged PR interval, shortened QT interval
• 7.5 - 8.0 mEq/L: widened QRS interval, flattened P waves
• 10 - 12 mEq/L: sine wave, ventricular fibrillation, heart block

Management

Stabilize cardiac membranes

Indicated if there are any ECG changes or evidence of arrhythmias. Consider if K >7 mEq/L

• Either one of the following:
  • Calcium gluconate: Give 10ml of a 10% solution over 10 mins
    • Only 1/3 the calcium compared to calcium chloride
    • Can cause hypotension due to osmotic shift
  • Calcium chloride 1 gram IV
    • Give over 1 - 2 minutes
    • Extravasation is bad: use a good IV
    • Usually given in code situations
• Takes effect in 15-30 minutes^[1]
  • (If given for hyperkalemic cardiac arrest, need to continue resuscitation for at least 30 minutes)
• Duration of action: 30 - 60 minutes ^[2]
• Use caution in patients taking Digoxin although risk of Stone heart may be unsubstantiated ^[3]
• Do serial ECGs to track progress: may need to give multiple doses

Shift K+ intracellularly

• Intravenous insulin + dextrose
  • Give 10 units regular insulin intravenously with 25 to 50 grams (1 - 2 50 mL ampules) of 50% dextrose (D50)
    • May withhold dextrose if blood sugar >300mg/dl (>17 mmol/L)
    • Duration of effect: 4 - 6 hours
    • Consider mixing in 10 cc NS syringe to ensure small volume of 10 units insulin fully administered via IV
    • Insulin cleared renally, be careful about inducing hypoglycemia (ESRD patients)
• Nebulized albuterol 5 - 20mg
  • Response is dose-dependent
  • Peak effect: 30 minutes
  • Duration of effect: 2 hours
• Intravenous sodium bicarbonate 50ml of 8.4% solution (1 ampoule) given over 5 minutes
  • Duration of effect: 1 - 2 hours
  • Generally not required, unless pH <7.1

Remove K+ from body

• Intravenous furosemide (Lasix) 40 - 80mg
  • Ensure adequate urine output first
• Sodium polystyrene sulfonate (Kayexylate): 30 gm oral or per rectum
  • Very Controversial, High Risk of Bowel Perforation, see: EBQ: Use of Kayexylate in Hyperkalemia
• Intravenous normal saline solution for volume expansion if dehydrated, rhabdomyolysis, diabetic ketoacidosis or other acidosis
• Hydrocortisone if suspicious for adrenal insufficiency
• Definitive treatment is hemodialysis

Disposition

• Consideration for ICU for frequent electrolyte checks and close cardiac monitoring

See Also

• Electrolyte abnormalities
• Acute kidney injury
• Hemodialysis/Hemoperfusion
• Crush syndrome

External Links

• ECG Weekly -Hyperkalemia

References

1. ↑ http://lifeinthefastlane.com/hyperkalemia/. Accessed 02/22/2016
2. ↑ The Effect of Calcium on Severe Hyperkalemia http://hqmeded-ecg.blogspot.com/2015/04/the-effect-of-calcium-on-severe.html
3. ↑ Erickson CP, Olson KR. Case files of the medical toxicology fellowship of the California poison control system-San Francisco: calcium plus digoxin-more taboo than toxic? J Med Toxicol. 2008 Mar;4(1):33-9