Rosen & Barkin's 5-Minute Emergency Medicine Consult (556 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
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SIGNS AND SYMPTOMS
  • General (in all ages):
    • Cough
    • Rales
    • Fever
    • Hypoxia
    • Tachycardia
    • Tachypnea, retractions, grunting
    • Rash (up to 10% of cases); usually maculopapular
    • Nonspecific symptoms of toxicity
    • Pulmonary exam:
      • Decreased breath sounds, ventilation
      • Dullness to percussion
      • Wheezing, ronchi, rales
  • Infants <6 mo:
    • Altered behavior: Listless, irritable
    • Apnea (esp. RSV in premature infants)
    • Conjunctivitis (
      Chlamydia
      <1 mo old)
    • Cyanosis
    • Grunting
    • Poor feeding
    • Temperature instability (hypothermia/hyperthermia)
    • Vomiting, often with coughing
    • Cough
    • Nasal congestion
    • Nasal flaring
    • Wheezing
    • Staccato cough (
      Chlamydia
      )
  • Children >5 yr:
    • Pleuritic chest pain
    • Productive cough
    • Rigors, chills
History
  • Immunization history
  • Past medical history include immune status
  • Exposures
  • Progression of signs and symptoms
Physical-Exam
  • Pulmonary exam may be helpful, particularly in children >5 yr.
  • Peripheral and central cyanosis should be assessed.
  • Evidence of respiratory compromise, distress, failure
ESSENTIAL WORKUP
  • Pulse oximetry
  • Chest radiograph:
    • Gold standard for diagnosis
    • Should be ordered for patients with signs of lower respiratory tract infection and patients <36 mo old with marked leukocytosis or neutrophilia (WBC >15,000 or absolute neutrophil count [ANC] >9,000).
    • Much overlap between viral and bacterial findings
    • Viral and
      M. pneumoniae
      tend to show interstitial infiltrates, often perihilar and peribronchial.
    • Bacterial pneumonias may show focal lobar consolidation, focal alveolar infiltrates, and possibly effusion or pneumatocele.
    • Round pneumonia pathognomonic of
      S. pneumonia
    • Lateral decubitus films may aid in demonstrating effusion.
DIAGNOSIS TESTS & NTERPRETATION
Lab
  • CBC with differential:
    • Patients with bacteremia tend to have leukocytosis with left shift.
    • Sensitivity and specificity are poor.
    • Patients with WBC ≥20,000 or ANC >9,000 are at increased risk of pneumococcal bacteremia.
    • B. pertussis
      usually has elevated WBC with lymphocytosis.
  • Blood culture:
    • Low yield (<10–20%)
    • Recommended in children <36 mo
    • Probably worthwhile in toxic patients requiring hospitalization
  • Arterial blood gas may be useful in determining degree of respiratory insufficiency in critically ill patients.
  • Electrolytes to exclude syndrome of inappropriate antidiuretic hormone secretion and in hypotensive children
  • Sputum for Gram stain and culture may be obtained in older children with suspected bacterial infection.
  • Mycoplasma
    IgM or cold agglutinin titers:
    • Useful if suspecting this organism
    • More likely positive with severe illness
  • Nasopharyngeal washes for direct fluorescent antibody and culture:
    • Identify RSV,
      C. trachomatis,
      and
      B. pertussis
      infections
Imaging

Chest radiographs are still the imaging modality of choice:

  • Posteroanterior and lateral films should be obtained whenever possible.
  • CT provides additional detail and better identification of underlying lung pathology but adds little as an initial testing modality.
Diagnostic Procedures/Surgery

Pleural fluid (if present) for culture, Gram stain, protein, glucose, and cell counts

DIFFERENTIAL DIAGNOSIS
  • Reactive airway disease (asthma, bronchiolitis [age <2 yr])
  • Aspiration:
    • Gastroesophageal reflux
    • Vascular ring
    • H-type tracheoesophageal fistula
    • Foreign body
    • Hydrocarbon
  • Congestive heart failure
  • Congenital:
    • Cystic fibrosis
    • Sequestered lobe
    • Congenital lobe absence
    • Hemangioma
  • Neoplasm
TREATMENT
PRE HOSPITAL
  • Pulse oximetry
  • Administer high-flow oxygen for respiratory distress.
  • IV fluids (0.9% normal saline [NS] 20 mL/kg initial bolus) for volume depletion, hypotension
  • Support and intubation for respiratory failure
INITIAL STABILIZATION/THERAPY
  • If moderately or severely ill:
    • Secure airway, as appropriate; intubate for clinical respiratory failure. Children with severe sepsis or septic shock benefit from aggressive airway management.
    • High-flow oxygen
    • IV hydration (0.9% NS 20 mL/kg initial bolus) and resuscitation if in shock or hypovolemia
  • Monitor
  • Ongoing pulse oximetry
  • Arterial blood gas if inadequate ventilation
  • Check bedside glucose in severely ill-appearing infants and toddlers:
    • If hypoglycemic, administer glucose D25 at 2 mL/kg IV for toddlers or D10 at 5 mL/kg IV for neonates.
ED TREATMENT/PROCEDURES
  • Continue pre-hospital and initial stabilization therapy.
  • Early antibiotic therapy should be broad enough to address local resistance patterns in your area.
  • Often have concurrent reactive airway disease that needs specific treatment with bronchodilator (albuterol or levalbuterol)
  • Perform thoracentesis if pleural effusion is compromising respiratory function or for diagnostic tests.
MEDICATION
  • Empiric therapy with oral antibiotics for most well-appearing children ≥6 mo:
    • Infants <2 mo:
      • Outpatient treatment generally not recommended unless child has no respiratory distress or associated conditions or issues.
    • Children 3 mo–5 yr:
      • Amoxicillin
      • Amoxicillin—clavulanate
      • Trimethoprim—sulfamethoxazole
      • Erythromycin—sulfisoxazole
      • Macrolide (azithromycin or clarithromycin)
    • Children 5–18 yr:
      • Macrolide (azithromycin or clarithromycin)
  • Initiate IV antibiotic therapy for moderate to severely ill children who require admission:
    • Neonate:
      • Ampicillin, and cefotaxime or gentamicin
      • Azithromycin for suspected
        C. trachomatis
        or
        B. pertussis
        pneumonia
    • Infants 1–2 mo:
      • Ampicillin and cefotaxime
      • Azithromycin or erythromycin for suspected
        C. trachomatis
        or
        B. pertussis
    • Children ≥3 mo:
      • Cefotaxime, cefuroxime, or ceftriaxone
      • Vancomycin for suspected or confirmed penicillin-resistant
        S. pneumoniae
      • Macrolide (i.e., azithromycin) for suspected
        M. pneumoniae
      • Clindamycin if group A strep suspected in patient with severe disease
  • Unusual organisms require specific therapy in coordination with infectious disease consultation.
  • Albuterol (0.5% solution or 5 mg/mL): Nebulizer 0.015 mg (0.03 mL)/kg per dose up to 5 mg per dose q10–20min as needed; metered dose inhaler (with spacer; 90 mg per puff) 2 puffs q10–20min up to total of 10 puffs
  • Amoxicillin: 80 mg/kg/24 h q12h PO
  • Amoxicillin–clavulanate: 30 mg/kg/24 h q12h PO
  • Ampicillin: 100–150 mg/kg/24 h q6h IV
  • Azithromycin: 10 mg/kg/24 h daily for 1 day, then 5 mg/kg/24 h daily for 4 days
  • Cefotaxime: 50–75 mg/kg/24 h q8h IV, max. 2 g q8h
  • Ceftriaxone: 100 mg/kg/24 h q12–24 h IV, max. 2 g q12h
  • Cefuroxime: 100 mg/kg/24 h q8h IV, max. 2 g q8h
  • Clarithromycin: 15 mg/kg/24 h q12h PO, max. 500 g q12h
  • Clindamycin 30–40 mg/kg/24 h q6–8h IV
  • Erythromycin–sulfisoxazole: 40 mg/kg/24 h as erythromycin q8h PO, max. 2 g/d
  • Gentamicin: 5–7.5 mg/kg/24 h q8–12h IV
  • Trimethoprim–sulfamethoxazole: 8–10 mg/kg/24 h as TMP q12h PO
  • Vancomycin: 10–15 mg/kg/24 h q8–12h IV; max. 1,000 mg
FOLLOW-UP
DISPOSITION
Admission Criteria
  • Toxic appearance
  • Respiratory distress or failure
  • Dehydration/vomiting
  • Apnea
  • Infants <2 mo
  • Infants <6 mo with lobar pneumonia
  • Hypoxia (O
    2
    saturation <92% on room air [sea level])
  • Pleural effusion
  • Poor response to outpatient oral therapy
  • Immunocompromised children
  • Concern about noncompliant parents
Discharge Criteria
  • Most cases are mild and can be discharged home if no evidence of hypoxia, significant work-of-breathing, dehydration, vomiting, or noncompliance.
  • Ensured follow-up within 1–2 days
Issues for Referral

Respiratory failure, effusion, toxicity

FOLLOW-UP RECOMMENDATIONS

Clinical resolution should be ensured through follow-up.

PEARLS AND PITFALLS
  • Early, aggressive airway management for patients with severe sepsis and septic shock
  • Delays to antibiotic therapy should be avoided.
  • Discharged patients should have clear evidence of good support, follow-up, and lack of toxicity.
  • Local patterns of drug resistance should be known and empiric therapy should take these resistance patterns into consideration.
ADDITIONAL READING
  • Cevey-Macherel M, Galetto-Lacour A, Gervaix A, et al. Etiology of community-acquired pneumonia in hospitalized children based on WHO clinical guidelines.
    Eur J Pediatr
    . 2009;168(12):1429–1436.
  • Kronman MP, Hersh AL, Feng R, et al: Ambulatory visit rates and antibiotic prescribing for children with pneumonia, 1994-2007.
    Pediatrics
    2011;127:411–418.
  • Michelow IC, Olsen K, Loranzo J, et al. Epidemiology and clinical characteristics of community-acquired pneumonia in hospitalized children.
    Pediatrics
    . 2004;113(4):701–707.
  • Murphy CG, van de Pol AC, Harper MB, et al. Clinical predictors of occult pneumonia in the febrile child.
    Acad Emerg Med
    . 2007;14(3):243–249.
  • Shah SS, Dugan MH, Bell LM, et al. Blood cultures in the emergency department evaluation of childhood pneumonia.
    Pediatr Infect Dis J.
    2011;30:475–479.

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