Rosen & Barkin's 5-Minute Emergency Medicine Consult (82 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
  • Oxygen and oxygen saturation monitoring
  • Nebulized β-adrenergic agonist: Albuterol
  • Intubate for respiratory failure or severe fatigue.
  • IV fluids if evidence of dehydration
  • Rapid transport and good communication with ED
INITIAL STABILIZATION/THERAPY
  • Maintain SaO
    2
    >90–95%.
  • β-adrenergic nebulizer(s): Albuterol
  • Intubate for respiratory failure.
  • 20 mL/kg 0.9% NS bolus if evidence of dehydration.
ED TREATMENT/PROCEDURES
  • Assess patient for signs of potential respiratory failure:
    • Cyanosis
    • Severe anxiety or irritability
    • Lethargy, somnolence, fatigue
    • Persistent tachypnea
    • Poor air entry, ventilation
    • Severe retractions
  • Monitor oxygenation; titrate oxygen saturation to SaO
    2
    >95% (sea level).
  • β-adrenergic nebulizer: Albuterol:
    • Frequent or continuous for severe asthma
    • Levalbuterol may require less frequent dosing and may be associated with less side effects.
  • Ipratropium bromide may be added as adjunct to β-adrenergic agonists. Most effective when combined with 1st 3 doses of β-adrenergic agent in moderate to severely ill children
  • Steroid therapy:
    • Oral for moderate exacerbations in those able to take oral meds
    • IV for severe exacerbations or in those unable to take oral meds
    • 1 dose of dexamethasone may be equivalent to traditional steroids
  • SC epinephrine or terbutaline for severe or refractory asthma (rarely used)
  • Magnesium sulfate may be useful in severe disease following standard therapy.
  • Intubate for respiratory failure:
    • Ketamine is a useful induction agent.
  • 20 mL/kg of 0.9% NS bolus if evidence of dehydration
  • Heliox (oxygen and helium) may be useful but studies are inconclusive
MEDICATION
  • Albuterol (0.5% solution or 5 mg/mL):
    • Nebulizer: 0.15 mg/kg per dose, up to 5 mg per dose, q15–30min PRN
    • Metered-dose inhaler (MDI) (with spacer) (90 μg/puff): 2 puffs q5–10min, max. 10 puffs
    • Also available for nebulizer as 0.083% solution or 2.5 mg/3 mL
  • Dexamethasone 0.3 mg/kg/dose (max.: 16 mg)
  • Epinephrine (1:1,000) (1 mg/mL): 0.01 mg/kg SC, up to 0.35 mL per dose, q20min for 3 doses
  • Ipratropium bromide: Nebulizer (0.02% inhaled sol 500 μg/2.5 mL), 250–500 μg per dose q6h
  • Ketamine (for intubation): 1–2 mg/kg IV as induction agent
  • Levalbuterol (0.63 and 1.25 mg vials): q6–8h by nebulizer
  • Magnesium sulfate: 25 mg/kg per dose IV over 20 min; max. 1.2–2 g per dose
  • Methylprednisolone: 1–2 mg/kg per dose IV q6h; max. 125 mg per dose
  • Prednisolone: 1–2 mg/kg per dose PO q12h (available as 15 mg/5 mL)
  • Prednisone: 1–2 mg/kg per dose PO q6–12h; max. 80 mg per dose
  • Terbutaline/ (available as 1 mg/1 mL) (0.01%): 0.01 mL/kg SC q15–20min up to 0.25 mL per dose, q20min for 2 doses
First Line
  • Albuterol
  • Steroids
  • Ipratropium
Second Line
  • Epinephrine or terbutaline
  • Magnesium sulfate
FOLLOW-UP
DISPOSITION
Admission Criteria
  • Need to individualize based upon subjective and objective assessment
  • Persistent respiratory difficulty:
    • Persistent wheezing
    • Increased respiratory rate/tachypnea
    • Retraction and use of accessory muscles
  • SaO
    2
    <93% (sea level) on room air
  • Peak expiratory flow rate (PEFR) <50–70% predicted levels
  • Inability to tolerate oral medicines or liquids
  • Prior ED visit in last 24 hr
  • Comorbidity:
    • Congenital heart disease
    • Bronchopulmonary dysplasia
    • CF
    • Neuromuscular disease
  • Concomitant illness:
    • Pneumonia or severe viral infection
Intensive Care Unit Criteria
  • Severe respiratory distress
  • SaO
    2
    <90% or PaO
    2
    <60 mm Hg on 40% oxygen
  • PaCO
    2
    >40 mm Hg
  • Significant complications:
    • Pneumothorax
    • Dysrhythmia
Discharge Criteria
  • Good response to therapy. Observe in ED 60 min after last treatment before discharging:
    • PEFR >70% predicted based on age/height
    • SaO
      2
      >93% on room air (sea level)
    • Respiratory rate normal
    • No retractions
    • Clear or minimal wheezing
    • No or minimal dyspnea
  • Good follow-up and compliance. Reduce exposure to irritants (smoking) or allergens
  • Discharge treatment:
    • Intensive β-adrenergic regimen for 3–5 days
    • Short course (3–5 days) of steroids (2 mg/kg/day) for those presenting with moderate symptoms with consideration of ongoing therapy using nebulized or MDI routes. Patients with moderate or severe exacerbations should have arrangements made for inhaled steroids over a 1–2 mo period such as fluticasone, budesonide, or beclomethasone
    • Follow-up appointment 24–72 hr
    • Instructions to return for shortness of breath refractory to home regimen
    • Long-term therapy should be considered for children with recurrent episodes, persistent symptoms, or activity limitations.
FOLLOW-UP RECOMMENDATIONS

Primary care physician for maintenance therapy, often including nebulized or MDI steroid therapy and education about acute rescue management.

PEARLS AND PITFALLS
  • Rapid treatment with continuous re-evaluation to detect any progression of disease is essential.
  • When admitting patients, assure that β-adrenergic agent therapy is not interrupted.
ADDITIONAL READING
  • Krebs SE, Flood RG, Peter JR, et al. Evaluation of a high dose continuous albuterol protocol for treatment of pediatric asthma in the emergency department.
    Pediatr Emerg Care.
    2013;29:191–196.
  • National Heart, Blood and Lung Institute; National Asthma Education and Prevention Program.
    Guidelines for the diagnosis and management of asthma
    . Bethesda, MD: NIH; 2007.
  • Robinson PD, Van Asperen P. Asthma in childhood.
    Pediatr Clin North Am
    . 2009;56(1):191–226.
  • Scarfone RJ, Friedlaender E. Corticosteroids in acute asthma: Past, present, and future.
    Pediatr Emerg Care
    . 2003;19(5):355–361.
See Also (Topic, Algorithm, Electronic Media Element)
  • Bronchiolitis, Pediatric
  • Pneumonia, Pediatric
CODES
ICD9
  • 493.00 Extrinsic asthma, unspecified
  • 493.02 Extrinsic asthma with (acute) exacerbation
  • 493.90 Asthma, unspecified type, without mention of status asthmaticus
ICD10
  • J45.901 Unspecified asthma with (acute) exacerbation
  • J45.902 Unspecified asthma with status asthmaticus
  • J45.909 Unspecified asthma, uncomplicated
ASYSTOLE
David F. M. Brown

Calvin A. Lee
BASICS
DESCRIPTION

Absence of ventricular electrical activity

ETIOLOGY
  • An end-stage rhythm, sometimes degrading from:
    • Prolonged bradycardia
    • Prolonged ventricular fibrillation (VF)
    • Prolonged pulseless electrical activity
  • Patient is extremely unlikely to survive when asystole occurs outside the hospital:
    • ∼40% will have return of spontaneous circulation and survive to hospital admission, but <15% survive to hospital discharge.
  • Prognosis is similarly poor for those patients who develop asystole after countershock for ventricular tachycardia/VF; <10% survive to hospital discharge.
  • Potentially reversible causes include:
    • Hypoxia
    • Hypovolemia (blood loss)
    • Acidosis
    • Hyperkalemia
    • Hypokalemia
    • Drug overdose
    • Hypothermia
    • Pulmonary embolism
    • Myocardial infarction
    • Tension pneumothorax
    • Cardiac tamponade
DIAGNOSIS

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