Rosen & Barkin's 5-Minute Emergency Medicine Consult (651 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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Diagnostic Procedures/Surgery
  • Lumbar puncture if CNS infection or subarachnoid hemorrhage is suspected
  • Arthrocentesis for acute arthritis
DIFFERENTIAL DIAGNOSIS
  • Sickle cell crises may mimic or obscure more serious underlying pathology (e.g., acute abdomen, MI, PE, nephrolithiasis)
  • Suspect other diagnoses if pain is more severe or atypical
TREATMENT
INITIAL STABILIZATION/THERAPY
  • Identify and treat high morbidity complications
  • Establish venous access
  • Assess pain and initiate therapy
ED TREATMENT/PROCEDURES
  • Choice of analgesics dependent on patient, severity of presentation, and prior agents:
    • Reassess pain frequently (e.g., every 15–30 min) and titrate until improvement
    • IV opiates (e.g., morphine, hydromorphone, fentanyl) 1st line, consider adjunct agents
    • Adjuncts: Acetaminophen, NSAIDs (use with caution given impaired renal function)
    • Caution with meperidine as metabolites may accumulate and pose seizure risk
    • If no venous access, PO and subcutaneous analgesics preferred over IM
  • Hydration:
    • Oral hydration if patient tolerating po
    • Parenteral IV solution 0.45% NS for adults and children or 0.2% NS for infants
    • Avoid over-hydration, at risk for:
      • Hyperchloremic metabolic acidosis which promotes RBC sickling
      • Atelectasis which precipitates acute chest syndrome
  • Complication-specific therapy:
    • Acute chest syndrome:
      • Oxygen, bronchodilators, incentive spirometer
      • Consider exchange transfusion for worsening respiratory symptoms, hypoxemia, and increasing A–a gradient
    • Splenic sequestration:
      • Simple transfusion, promotes remobilization of RBCs
      • Be aware risk of precipitating VOC after raising Hb levels
      • Ideal treatment is prevention: Chronic transfusions, splenectomy
    • Aplastic crisis:
      • Simple transfusion
      • Isolation from pregnant healthcare workers
    • Priapism:
      • 1st line: Intracavernosal aspiration with α-adrenergic agonist (e.g., epinephrine, terbutaline) irrigation
      • 2nd line: Exchange transfusion if failed aspiration
    • Empiric antibiotics: Sepsis, pneumonia, and osteomyelitis
    • Exchange transfusion may be required for complications such as CVA and priapism
  • Consultations:
    • Hematology especially if exchange transfusion required
    • Neurology/neurosurgery for acute CNS events
    • Urology for priapism
FOLLOW-UP
DISPOSITION
Admission Criteria
  • Refractory pain
  • Complications: Acute chest syndrome, sequestration crisis, aplastic crisis, CVA/TIA, refractory priapism
  • Signs of bacterial infection or fever of undetermined etiology
  • Symptomatic anemia
  • ICU admission for hemodynamic instability, worsening hypoxemia in acute chest syndrome, and severe acute CNS events.
Discharge Criteria
  • Resolution of pain crisis
  • No indications for admission
  • Follow-up arranged with hematologist
Issues for Referral

Meticulous primary care can limit the frequency and severity of pain crises.

FOLLOW-UP RECOMMENDATIONS

If discharged, patient should see PCP or hematologist in 1–2 days.

PEARLS AND PITFALLS
  • Distinguish typical sickle cell crisis from acute life-threatening complications
  • Treat pain aggressively with appropriately selected and administered analgesic agents
  • Patients with acute pain may not demonstrate typical signs, such as tachycardia or diaphoresis
ADDITIONAL READING
  • Glassberg J. Evidence-based management of sickle cell disease in the emergency department.
    Emerg Med Pract.
    2011;13(8):1–20.
  • Montelambert MD. Management of sickle cell disease.
    BMJ.
    2008;337:626–630.
  • Rees DC, Williams TN, Gladwin MT. Sickle-cell disease.
    Lancet.
    2010;376:2018–2031.
  • Rogers DT, Molokie R. Sickle cell disease in pregnancy.
    Obstet Gynecol Clin North Am.
    2010;37:223–237.
  • Wang W, et al. Sickle cell anemia and other sickling syndromes. In: Greer J, ed.
    Wintrobe’s Clinical Hematology.
    12th ed. Philadelphia, PA: Lippincott Williams & Wilkins; 2009:1038–1082.
  • http://scinfo.org
    .
  • http://www.cdc.gov/NCBDDD/sicklecell/index.html
    .
See Also (Topic, Algorithm, Electronic Media Element)

Anemia

CODES
ICD9
  • 282.41 Sickle-cell thalassemia without crisis
  • 282.61 Hb-SS disease without crisis
  • 282.63 Sickle-cell/Hb-C disease without crisis
ICD10
  • D57.1 Sickle-cell disease without crisis
  • D57.20 Sickle-cell/Hb-C disease without crisis
  • D57.40 Sickle-cell thalassemia without crisis
SINUSITIS (RHINOSINUSITIS)
Cory A. Siebe

Maria E. Moreira
BASICS
DESCRIPTION
  • Inflammation of mucous membranes lining the paranasal sinuses and nasal passages with or without fluid collection in the sinus cavities
  • Classifications:
    • Acute: Signs and symptoms for <4 wk
    • Subacute: Signs and symptoms for 4–8 wk
    • Chronic: Signs and symptoms for >8 wk in spite of antibiotic treatment
    • Recurrent: 3 or more episodes per year
ETIOLOGY
  • Acute rhinosinusitis pathophysiology:
    • Viral upper respiratory infection or allergies causes mucous membrane inflammation
    • Inflammation causes obstruction of sinus ostia, decreased mucociliary clearance, and thickening of secretions
    • Viruses are the primary cause, but 0.5–2.2% develop into bacterial infection after bacteria become trapped and multiply, resulting in suppuration
    • Nosocomial rhinosinusitis associated with nasogastric and nasotracheal tubes
    • Immunocompromised patients at higher risk for rhinosinusitis
  • Subacute and chronic rhinosinusitis pathophysiology:
    • Multifactorial, role of bacteria remains elusive
    • Allergic inflammation causing narrowed ostia and blocked drainage
    • Immune dysfunction leading to increased infectious risk
    • Impaired ciliary function leading to decreased mucous clearance
    • Odontogenic infection causing maxillary sinusitis
    • Fungus ball
    • Anatomical obstruction or polyps obstructing sinus ostia
  • Microbiology:
    • Acute rhinosinusitis:
      • Nontypable
        Haemophilus influenzae
      • Streptococcus pneumoniae
      • Moraxella catarrhalis
      • Staphylococcus aureus
      • Anaerobes
      • Viruses: Parainfluenza, adenovirus, rhinovirus, influenza
    • Chronic rhinosinusitis:
      • Same as acute, often polymicrobial, with increasing anaerobes and gram negatives
    • Nosocomial rhinosinusitis:
      • S. aureus
      • Streptococcal species
      • Pseudomonas
      • Klebsiella
    • Immunocompromised patients with rhinosinusitis:
      • Bacteria as above
      • Fungal pathogens (
        Aspergillus
        )
Pediatric Considerations
  • Nontypable
    H. influenzae
    more common than
    S. pneumoniae
    as cause of acute bacterial rhinosinusitis in children
  • Ethmoid and maxillary sinuses present at birth
  • Frontal and sphenoid sinuses do not emerge until age 6–7 yr
  • Rhinosinusitis more common in children
  • Periorbital/orbital cellulitis is a common complication of ethmoid rhinosinusitis in children:
    • Periorbital swelling, fever, ptosis, proptosis, and painful or decreased extraocular movements

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