Rosen & Barkin's 5-Minute Emergency Medicine Consult (362 page)

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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
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PRE HOSPITAL
  • IV, monitor if signs of significant volume depletion
  • IV hydration
INITIAL STABILIZATION/THERAPY

IV hydration using a crystalloid solution (LR or NS)

ED TREATMENT/PROCEDURES
  • IV hydration using LR or NS
  • Dextrose may be added to help break cycle of ketosis
  • Treat until patient is no longer symptomatic from hypovolemia
  • Antiemetics administered IV are given to break the vomiting cycle
  • Most commonly used medications:
    • Metoclopramide:
      • FDA category B
    • Promethazine and prochlorperazine:
      • Both FDA category C
      • Recent FDA warning regarding complications of IV promethazine administration
    • Ondansetron:
      • FDA category B with recent warning about the risk of prolonged QT syndrome and the recommendation for ECG monitoring of the patient with electrolyte abnormalities such as hypokalemia or hypomagesemia
    • These have been used extensively in pregnancy, and there is little or no evidence associated with increased risk of congenital anomalies
    • Antiemetics are preferable to the risk of prolonged ketosis and hypovolemia
  • Oral rehydration in the ED after the initial fluid resuscitation and antiemetics
  • Thiamine 100 mg IV/IM/PO in the patient who requires IV rehydration due to case reports of Wernicke encephalopathy
  • Antihistamines have been shown to be effective
  • Methylprednisolone may be effective for patients with hyperemesis gravidarum:
    • Last resort
    • Avoid if <10 wks gestation
MEDICATION
First Line
  • Metoclopramide (category B): 10–20 mg IV
  • Ondansetron (category B): 4–8 mg IV or 4 mg PO or ODT every 8 hr
  • Prochlorperazine (category C): 5–10 mg IV not to exceed 40 mg/d
  • Promethazine (category C): 12.5–25 mg IM
  • Discharge outpatient medications:
    • Meclizine (category B): 25 mg PO q6h PRN
    • Metoclopramide (category B): 10 mg PO q6–8h PRN
    • Prochlorperazine (category C): 5–10 mg PO q6h or 25 mg PR q12h PRN
    • Promethazine (category C): 12.5–25 mg PO or PR q4–6h PRN
    • Pyridoxine (vitamin B
      6
      ; category A): 25 mg PO TID (OTC)
    • Ginger (
      Zingiber officinale
      ): 500–1500 mg div. bid/tid
    • Doxylamine (Unisom—OTC) 12.5 mg PO q6–8h usually with pyridoxine (vitamin B
      6
      )
    • Thiamine: 50 mg PO per day for symptoms >3 wks
Second Line

Methylprednisolone (category C): 16 mg IV or PO q8h × 3 days and then taper. Should be prescribed in consultation with obstetrician.

FOLLOW-UP
DISPOSITION
Admission Criteria
  • Inability to tolerate oral intake after treatment
  • Inability to control the emesis despite treatment
  • Severe electrolyte or metabolic disturbances
  • At highest risk <8 wk gestation
Discharge Criteria
  • Most patients can be discharged as long as they are able to tolerate oral intake and have adequate follow-up
  • Correction of dehydration and associated symptoms
  • Decreased ketonuria
  • Reassure patient that their symptoms are common and usually self-limited
  • Patients should be counseled that frequent, small meals may be helpful:
    • Meals should contain simple carbohydrates and be low in fats
    • Avoid irritant or spicy foods
  • Home IV therapy can be arranged if indicated
FOLLOW-UP RECOMMENDATIONS
  • All patients with diagnosis should take at least 3 mg thiamine/day to help prevent Wernicke encephalopathy; a supplement of 50 mg/day PO is recommended
  • Risk for 1st trimester fetal loss is less in women with hyperemesis
PEARLS AND PITFALLS
  • Other diagnoses should be explored in patients presenting after 9 wk gestation with nausea and vomiting as initial symptoms
  • The use of PICC lines has been shown to carry significantly increased risk of maternal morbidity when compared to patients managed with either NG tube or medications alone
  • Be aware of the risk for central pontine myelinosis in hyponatremia patients when replacing sodium
  • Wernicke encephalopathy is the most devastating maternal complication:
    • Patients may not have the classic triad of ataxia, nystagmus, and dementia. Be concerned for any evidence of apathy or confusion
    • Be sure to give patients thiamine 100 mg IV for any patient who presents with apathy or confusion
ADDITIONAL READING
  • Bottomley C, Bourne T. Management strategies in hyperemesis.
    Best Prac Res Clin Obstet Gynaecol
    . 2009;23:549–564.
  • Goodwin TM. Hyperemesis gravidarum.
    Obstet Gynecol Clin North Am
    . 2008;35(3):401–417.
CODES
ICD9
  • 643.00 Mild hyperemesis gravidarum, unspecified as to episode of care or not applicable
  • 643.10 Hyperemesis gravidarum with metabolic disturbance, unspecified as to episode of care or not applicable
ICD10
  • O21.0 Mild hyperemesis gravidarum
  • O21.1 Hyperemesis gravidarum with metabolic disturbance
HYPERKALEMIA
Christopher B. Colwell
BASICS
DESCRIPTION
  • Potassium distribution:
    • Extracellular space: 2%
    • Intracellular space: 98%
  • Potassium excretion:
    • Renal: 90%
    • GI: 10%
  • Renal (80–90%) and extrarenal mechanisms maintain normal plasma concentration between 3.5 and 5 mmol/L.
  • Renal excretion of potassium affected by:
    • Dietary intake
    • Distal renal tubular function
    • Acid–base balance
    • Mineralocorticoids
  • Regulation between intracellular and extracellular potassium balance is affected by:
    • Acid–base balance
    • Insulin
    • Mineralocorticoids
    • Catecholamines
    • Osmolarity
    • Drugs
ETIOLOGY
  • Decreased potassium excretion:
    • Most common cause: Renal failure (acute or chronic)
    • Distal tubular diseases:
      • Acute interstitial nephritis
      • Renal transplant rejection
      • Sickle cell nephropathy
      • Renal tubular acidosis (diabetes)
    • Mineralocorticoid deficiency:
      • Addison disease
      • Hypoaldosteronism
    • Drugs:
      • ACE inhibitors/angiotensin receptor blockers
      • β-blockers
      • Potassium-sparing diuretics
      • NSAIDs
      • Cyclosporine
      • High-dose trimethoprim
      • Lithium toxicity
  • Intracellular to extracellular potassium shifts:
    • Metabolic acidosis:
      • Serum K
        +
        rises 0.2–1.7 mmol/L for each 0.1 U fall in arterial pH.
    • Hyperosmolar states
    • Insulin deficiency
    • Cell necrosis
    • Rhabdomyolysis
    • Hemolysis
    • Chemotherapy
    • Drugs:
      • Digitalis toxicity
      • Depolarizing muscle relaxants (e.g., succinylcholine)
      • β-blockers
      • α-agonists
    • Hyperkalemic periodic paralysis
  • Excess exogenous potassium load:
    • Cellular breakdown:
      • Trauma
      • Tumor lysis
    • Salt substitutes
    • Oral potassium
    • Potassium penicillin G
    • Rapid transfusions of banked blood
  • Pseudohyperkalemia:
    • Traumatic venipuncture with hemolysis
    • Postvenipuncture release of potassium can occur in the setting of:
      • Thrombocytosis (platelets >800,000/mm
        3
        )
      • Extreme leukocytosis (WBC >100,000/mm
        3
        )
    • Prolonged tourniquet time
DIAGNOSIS
SIGNS AND SYMPTOMS
History
  • Hyperkalemia is often asymptomatic, even at high levels.
  • Neuromuscular symptoms, predominantly weakness, which can progress to paralysis.
  • Dyspnea owing to respiratory muscle weakness.
  • Cardiac dysrhythmias may be the initial manifestation, so patients could also present with chest pain, palpitations, or syncope.
Physical-Exam
  • Muscular weakness (rare except in severe cases)
    • Paralysis has been described
  • Cardiac dysrhythmias (see ECG Changes)

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