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Hyperkalemia

Hyperkalemia (hyper is high, kalium is the Latin name for potassium) is an elevated blood level (above 5.0 mmol/L) of the electrolyte potassium. Extreme degrees of hyperkalemia are considered a medical emergency due to the risk of potentially fatal arrhythmias. more...

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Signs and symptoms

Symptoms are fairly nonspecific, and generally include malaise and muscle weakness; mild breathlessness may indicate metabolic acidosis, one of the settings in which hyperkalemia may occur. Often, however, the problem is detected during screening blood tests for a medical disorder, or it only comes to medical attention after complications have developed, such as cardiac arrhythmia or sudden death.

During the medical history taking, a doctor will dwell on kidney disease and medication use (see below), as these are the main causes. The combination of abdominal pain, hypoglycemia and hyperpigmentation, often in the context of a history of other autoimmune disorders, may be signs of Addison's disease, itself a medical emergency.

Diagnosis

In order to gather enough information for diagnosis, the measurement of potassium needs to be repeated, as the elevation can be due to hemolysis of the material in the first sample. Generally, blood tests for renal function (creatinine, blood urea nitrogen), glucose and occasionally creatine kinase and cortisol will be performed. Calculating the trans-tubular potassium gradient can sometimes help in distinguishing the cause of the hyperkalemia.

Electrocardiography (ECG) is generally done early to identify any influences on the heart. High, tent-shaped T-waves, a small P wave and a wide QRS complex (that becomes sinusoidal) all identify the influence of excess potassium on the heart. This finding alone is an important reason for treatment, as it may forewarn ventricular fibrillation.

Often arterial blood gas measurements and renal ultrasound will be performed.

Differential diagnosis

Causes include:

Ineffective elimination from the body

  • Renal failure
  • Medication. Medication that can cause hyperkalemia (most are antihypertensives):
    • ACE inhibitors
    • Potassium-sparing diuretics (e.g. amiloride and spironolactone)
    • Angiotensin receptor blockers
    • Succinylcholine (also known as suxamethonium, a paralytic used in anesthesia)
  • Metabolic acidosis
  • Mineralocorticoid deficiency or resistance (many types)
    • Addison's disease
    • Aldosterone defiency
    • Congenital adrenal hyperplasia
  • Liddle syndrome, pseudohypoaldosteronism, other defects of renal tubular K excretion

Excessive release from cells

  • Rhabdomyolysis, burns or any cause of rapid tissue necrosis, including tumor lysis syndrome
  • Massive blood transfusion or massive hemolysis
  • Insulin deficiency

Excessive intake

  • Intoxication (potassium-containing dietary supplements or salt replacement)

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Acute treatment of hyperkalemia
From American Family Physician, 11/1/05 by Mark H. Ebell

Clinical Question

What is the best acute treatment of an elevated serum potassium level?

Evidence-Based Answer

According to disease-oriented evidence, insulin and intravenous glucose, inhaled albuterol (Ventolin), and dialysis are the best treatment options; the first two may be given in combination. Bicarbonate or resins are not recommended for routine use, particularly without one of the more effective agents listed above.

Practice Pointers

Acute treatment of hyperkalemia falls into the still considerable "widely used but little studied" category of medical interventions. No study has reported outcomes that matter to patients, such as the likelihood of death or cardiac arrhythmias. The available literature focuses largely on the ability of interventions to lower serum potassium levels acutely. The Cochrane review by Mahoney and colleagues applies to patients with a significantly elevated potassium level (i.e., greater than 6.5 to 7.0 mEq per L [6.5 to 7.0 mmol per L]).

The researchers identified 12 randomized, quasi-randomized, or crossover studies comparing different approaches to the treatment of hyperkalemia. In a quasi-randomized study, assignment to treatment groups is based on the day of the week or time of day rather than true randomization, making bias more likely. The crossover studies typically involved a series of interventions in the same small group of hemodialysis patients. Each patient acts as his or her own control, so it is possible to have a much smaller sample size and still obtain statistically significant results. only four studies used blinding, and only four concealed allocation to treatment groups adequately. Most of the patients studied had acute or chronic renal failure and were receiving hemodialysis.

Nebulized or inhaled albuterol proved effective; a dose of 20 mg was more effective than 10 mg in lowering potassium levels, and both doses were better than placebo. Intravenous albuterol and levalbuterol (Xopenex) were no more effective than inhaled albuterol. The combination of insulin with intravenous glucose was effective, as was dialysis. In one study, the combination of insulin, glucose, and inhaled albuterol was more effective than insulin and glucose alone. Although potassium-binding polystyrene resins such as Kayexalate are widely used, only one study evaluated their effectiveness in the acute setting, and they proved ineffective. Adding bicarbonate to insulin and glucose was helpful in one study but not in another.

A review of the National Guideline Clearinghouse Web site (http://www.guidelines.gov) did not identify any practice guidelines for the management of hyperkalemia. Recommendations from textbooks vary considerably. For example, Griffith's 5-Minute Clinical Consult 20051 recommends dextrose and insulin, sodium bicarbonate, and polystyrene resins but does not mention inhaled beta agonists.

Mahoney BA, et al. Emergency interventions for hyperkalaemia. Cochrane Database Syst Rev 2005;(2):CD003235.

REFERENCE

(1.) Dambro MR, ed. Griffith's 5-Minute clinical consult, 2005. CD-ROM ed. Philadelphia: Lippincott Williams & Wilkins, 2004.

The series coordinator for AFP is Clarissa Kripke, M.D., Department of Family and Community Medicine, University of California, San Francisco.

COPYRIGHT 2005 American Academy of Family Physicians
COPYRIGHT 2005 Gale Group

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