Rosen & Barkin's 5-Minute Emergency Medicine Consult (381 page)

Read Rosen & Barkin's 5-Minute Emergency Medicine Consult Online

Authors: Jeffrey J. Schaider,Adam Z. Barkin,Roger M. Barkin,Philip Shayne,Richard E. Wolfe,Stephen R. Hayden,Peter Rosen

Tags: #Medical, #Emergency Medicine

BOOK: Rosen & Barkin's 5-Minute Emergency Medicine Consult
3.35Mb size Format: txt, pdf, ePub
FOLLOW-UP
DISPOSITION
Admission Criteria
  • Need of IV potassium repletion
  • Cardiac dysrhythmias
  • Profound muscle weakness
  • Ongoing K losses
  • Serum potassium <2.5 mEq/L
  • Associated with significant hypotension or severe HTN
  • Significant comorbidities or geriatric
Discharge Criteria
  • Asymptomatic
  • Able to replete deficiency with oral potassium
  • Early follow-up available and reliable patient
  • Repeat electrolyte determination in 2–3 days with the primary care doctor.
  • Nephrology referral or consult if suspicion of renal wasting.
  • Continue K replacement for 2–3 days if acute, self-limited loss, but ongoing therapy if the cause is not corrected (e.g., diuretic therapy, chronic diarrhea).
PEARLS AND PITFALLS
  • If hypokalemia is accompanied by acidosis, correct hypokalemia 1st before treating the acidosis so as to avoid life-threatening hypokalemia from transcellular shifts.
  • Minimize glucose administration when treating hypokalemia, since glucose will stimulate insulin release, which will lead to K movement into cells.
  • Large doses of oral potassium can be given safely in patients with normal renal function, limited only by GI tolerance.
  • Check for hypomagnesemia if hypokalemia is severe or resistant to replacement therapy.
  • Relatively small amounts of IV potassium are required to reverse hypokalemia in periodic paralysis and states of adrenergic excess since transcellular shifts are transient.
ADDITIONAL READING
  • Alkaabi JM, Mushtaq A, Al-Maskari FN, et al. Hypokalemic periodic paralysis: A case series, review of the literature and update of management.
    Eur J Emerg Med.
    2010;17(1):45–47.
  • Ben Salem C, Himouda H, Bouraoui K. Drug-induced hypokalaemia.
    Curr Drug Saf.
    2009;4(1):55–61.
  • Grenniee M, Wingo CS, McDonough AA, et al. Narrative review: Evolving concepts in potassium homeostasis and hypokalemia.
    Ann Intern Med
    . 2009;150:619–625.
  • Palmer BF. A physiologic based approach to the evaluation of a patient with hypokalemia.
    Am J Kidney Dis.
    2010;56(6):1184–1190.
  • Pepin J, Shields C. Advances in diagnosis and management of hypokalemic and hyperkalemic emergencies.
    Emerg Med Pract.
    2012;14(2):1–18.
  • Philips DA, Bauch TD. Rapid correction of hypokalemia in a patient with an implantable cardioverter-defibrillator and recurrent ventricular tachycardia.
    J Emerg Med.
    2010;38(3):308–316.
  • Schaefer TJ, Wolford RW. Disorders of potassium.
    Emerg Med Clin North Am
    . 2005;23(3):723–747.
See Also (Topic, Algorithm, Electronic Media Element)

Hyperkalemia

CODES
ICD9
  • 255.13 Bartter’s syndrome
  • 276.3 Alkalosis
  • 276.8 Hypopotassemia
ICD10
  • E26.81 Bartter’s syndrome
  • E87.3 Alkalosis
  • E87.6 Hypokalemia
HYPONATREMIA
Linda Mueller
BASICS
DESCRIPTION
  • Sodium <136 mEq/L
  • Most common electrolyte disturbance (1–4% of hospitalized patients)
ETIOLOGY
Pseudohyponatremia
  • Low measured serum sodium but normal measured serum osmolarity
  • Occurs secondary to the displacement of sodium to aqueous phase of serum
  • Seen with elevated lipids or proteins
  • Lab or blood raw error
  • Disease examples include:
    • Multiple myeloma
    • Hyperlipidemia
Hyponatremia with Normal Osmolarity and Fluid Overload
  • Inappropriate retention of water
  • Disease examples include:
    • CHF
    • Cirrhosis
    • Renal failure
    • Nephrotic syndrome
Hyponatremia with Normal Osmolarity and Euvolemia
  • Patients tend to have increased total body water without marked edema
  • Purest form of dilutional hyponatremia
  • Disease examples include:
    • Endocrine abnormalities:
      • Hypothyroid
      • Stress
      • Syndrome of inappropriate antidiuretic hormone (SIADH)
    • Diseases that cause SIADH:
      • Pulmonary disease (tuberculosis, Legionella, Aspergillosis, COPD)
      • CNS disorders (malignancy, sarcoid, infection)
      • Cancer (small cell lung, pancreas, duodenum)
      • HIV infection
    • Water intoxication (3–7% of institutionalized psychotic patients), can also occur in marathon runners
    • Mineralocorticoid abnormalities
    • Postoperative hyponatremia (particularly after transurethral prostatectomy)
    • Consumption of large amounts of beer (beer potomania)
    • MDMA (Ecstasy)
Hyponatremia with Normal Osmolarity and Hypovolemia
  • Deficits in total body water and total body sodium
  • Sodium deficits exceed water deficits
  • Possible etiologies include:
    • GI losses
    • Sweating
    • Cerebral salt wasting (occurs after head injury or neurosurgical procedures)
    • Burns
    • Cystic fibrosis
    • Salt-wasting nephropathies
    • Diuretics
Drug Induced
  • Drugs may stimulate antidiuretic hormone (ADH) and cause hyponatremia:
    • Amiodarone
    • Barbiturates
    • Bromocriptine
    • Carbamazepine
    • Clofibrate
    • Cyclophosphamide
    • Opiates
    • Oxytocin
    • Vincristine, vinblastine
  • Drugs may increase sensitivity to ADH and cause hyponatremia:
    • Chlorpropamide
    • NSAIDs
  • Drugs may stimulate thirst and cause hyponatremia:
    • Amitriptyline
    • Ecstasy
    • Fluoxetine
    • Fluphenazine
    • Haloperidol
    • Sertraline
    • Thiothixene
Hyponatremia with Hyperosmolarity
  • Due to excessive osmotically active substances
  • Possible etiologies include:
    • Elevated glucose (most common cause of hyponatremia)
    • Corrected Na
      +
      = 0.016 × (measured glucose – to 100) + measured sodium
    • Mannitol infusion
    • Maltose and glycine
Pediatric Considerations
  • More prone to water intoxication
  • High incidence of iatrogenic hyponatremia due to dilute formula or rehydration with water only
  • If hyponatremia secondary to DKA, follow hydration per pediatric DKA recommendations
Pregnancy Considerations

Conivaptan and Tolvaptan are class C drugs in pregnancy.

Geriatric Considerations
  • Tend to develop more symptoms
  • Hyponatremia more common due to impaired water secretion and low sodium diets
DIAGNOSIS
SIGNS AND SYMPTOMS
  • Mild: Na
    +
    >120 mEq/L:
    • Headache
    • Nausea
    • Vomiting
    • Weakness
    • Anorexia
    • Muscle cramps
    • Rhabdomyolysis
  • Moderate: Na
    +
    between 110 and 120 mEq/L:
    • Impaired response to verbal stimuli
    • Decreased response to painful stimuli
    • Visual/auditory hallucinations
    • Bizarre behavior
    • Incontinence
    • Hyperventilation
    • Gait disturbance
  • Severe: Na
    +
    <110 mEq/L:
    • Signs of herniation
    • Decorticate/decerebrate posturing
    • Bradycardia
    • HTN
    • Altered temperature regulation
    • Dilated pupils
    • Seizure activity
    • Respiratory arrest
    • Coma/unresponsive

Other books

El desierto de hielo by Maite Carranza
Graduation Day by Joelle Charbonneau
Contract for Marriage by Barbara Deleo
Survival (Twisted Book 1) by Sherwin, Rebecca
Dark to Mortal Eyes by Eric Wilson
The Days of Redemption by Shelley Shepard Gray
Seven Gothic Tales by Isak Dinesen
Hope House by Tracy L Carbone