Rosen & Barkin's 5-Minute Emergency Medicine Consult (109 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

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FOLLOW-UP
DISPOSITION
Admission Criteria

All cases of Boerhaave syndrome must be admitted to surgical ICU:

  • Cervical esophageal perforations may be treated by drainage alone.
  • All thoracic and abdominal perforations require surgical intervention.
Discharge Criteria

None

Issues for Referral

Thoracic or general surgeon must be consulted for admission and possible operative intervention.

FOLLOW-UP RECOMMENDATIONS

As per surgeon recommendations

PEARLS AND PITFALLS
  • Chest radiographs done immediately after injury may be normal.
  • Left pleural space involvement is usually associated with a distal esophageal perforation.
  • Right pleural space involvement is usually associated with proximal esophageal perforations.
  • If esophagram is negative and there is high suspicion, repeat with patient in left and right decubitus positions.
  • Immediate surgical consultation is the keystone of management.
  • Significant increases in mortality are seen with delay in diagnosis and management.
ADDITIONAL READING
  • Brinster CJ, Singhal S, Lee L, et al. Evolving options in the management of esophageal perforation.
    Ann Thoracic Surg
    . 2004;77:1475–1483.
  • Katabathina VS, Restrepo CS, Martinez-Jimenez S, et al. Nonvascular, nontraumatic mediastinal emergencies in adults: A comprehensive review of imaging findings.
    Radiographics
    . 2011;31:1150–1153.
  • Onat S, Ulku R, Cigdem KM, et al. Factors affecting the outcome of surgically treated non-iatrogenic traumatic cervical esophageal perforation: 28 years experience at a single center.
    J Cardiothorac Surg
    . 2010;5:46.
  • Vogel SB, Rout WR, Martin TD, et al. Esophageal peforation in adults: Aggressive, conservative treatment lowers morbidity and mortality.
    Ann Surg
    . 2005;241:1016–1023.
  • Wu JT, Mattox KL, Wall MJ Jr. Esophageal perforations: New perspectives and treatment paradigms.
    J Trauma
    . 2007;63:1173–1184.
CODES
ICD9

530.4 Perforation of esophagus

ICD10

K22.3 Perforation of esophagus

BOTULISM
Philip Shayne

Jean Wheeler
BASICS
DESCRIPTION
  • Rare in US, causing <200 cases/yr; however, has significant bioterrorism potential.
  • Caused by a polypeptide, heat-labile exotoxin produced by
    Clostridium botulinum:
    • Most potent poison known
  • Toxin blocks neuromuscular transmission in cholinergic nerve fibers.
  • Symptoms occur by inhibition of acetylcholine release from presynaptic nerve membranes:
    • Damage is permanent.
    • Recovery is by formation of new synapses through sprouting from the axon.
  • Onset: 12–72 hr after exposure; may be up to 1 wk after exposure:
    • Death can occur 24 hr after onset of symptoms.
  • Slow recovery; symptoms often persist for months
  • Mortality:
    • Untreated: 60–70%
    • With supportive care: 3–10%
  • 3 major types: Food-borne botulism, wound botulism, and infantile botulism (see “Pediatric Considerations”). Absorbed through mucosal surfaces or nonintact skin
  • Food-borne botulism:
    • Occurs by ingestion of preformed toxin; from improperly canned food, improper refrigeration
    • Conditions required for exposure:
      • Food product contaminated with
        C. botulinum
        bacilli or spores
      • Proper conditions for germination of spores exist.
      • Time and conditions permit production of toxin before eating.
      • Food not heated sufficiently to destroy botulism toxin
      • Toxin-containing food ingested by susceptible host
  • Wound botulism:
    • Clinical evidence of botulism after trauma with a resultant infected wound and no history suggestive of food-borne illness
    • Botulinum isolated in about 50%
    • Wounds usually contaminated with soil
    • Majority of US cases from IV drug use
  • Other types:
    • Adult intestinal toxemia botulism:
      • Seen in adults with functional or structural GI abnormalities, are immunocompromised or with prolonged antibiotic use
      • Predisposes to
        Clostridial
        colonization
      • May have sporadic or recurrent botulism with no known source and even after immunoglobulin treatment
    • Iatrogenic botulism:
      • Doses found in cosmetic applications are insufficient to cause systemic symptoms.
      • No known recent cases from medical use.
      • Symptoms would be expected to be classic.
    • Inhalation botulism:
      • Aerosolization of toxin may have bioterrorism applications. Last reported naturally occurring case in 1962 from the disposal of animal remains.
Pediatric Considerations
  • Infantile botulism occurs from the ingestion of
    C. botulinum
    spores, which germinate in the gut and produce the toxin.
  • Accounts for 50–76% of botulism cases
  • 90% occur in children <6 mo:
    • Associated with patient or family exposure to soil, dust, or agricultural industry.
    • May also be associated with weaning from breast milk, which may alter intestinal flora and increase susceptibility to
      Clostridia
      infection.
  • Usually presents with change in stool pattern or constipation, progressing over several days to symptoms of bulbar weakness, then descending flaccid paralysis.
  • Slower onset is attributed to the toxin being produced locally as opposed to being ingested in 1 dose.
  • C. botulinum
    spores found in honey:
    • Honey not recommended for children <1 yr.
ETIOLOGY
  • C. botulinum
    is a large spore-forming, usually gram-positive, strictly anaerobic bacilli ubiquitous in nature.
  • Each strain produces antigenically distinct toxins, designated types A to G:
    • Types A, B, E, and rarely F are responsible for most human cases.
DIAGNOSIS
SIGNS AND SYMPTOMS
History
  • Ingestions/food history for previous 4–5 days:
    • Exposures traditionally from home-processed fruit or vegetable products
    • In prison populations ingestion of “pruno” (alcohol product created by prisoners using leftover food products)
  • Immune status (AIDS, cancer, chronic illness)
  • IV drug use
Physical-Exam
  • Food-borne botulism (classic botulism):
    • Bulbar weakness is invariably the initial presentation: Diplopia, dysphagia, dysarthria, and dysphonia
    • Subsequent symmetric, descending weakness or paralysis of the extremities (hallmark of the disease)
    • No sensory deficit
    • May have progressively diminishing deep tendon reflexes
    • Patient remains awake/alert; mentation unaffected.
    • Ventilatory insufficiency from weakness of respiratory muscles
    • Autonomic dysfunction (sympathetic and parasympathetic):
      • Dry mouth
      • Blurred vision
      • Orthostatic hypotension
      • Constipation
      • Urinary retention
    • Nausea and vomiting with food-borne botulism only
    • Afebrile
  • Wound botulism:
    • Finding similar to food-borne botulism
    • May be febrile as a result of soft-tissue infection
  • Infantile botulism:
    • Constipation
    • Weakness
    • Poor suck
    • Weak cry
    • Lethargy
    • Hypotonia
    • Flaccid facial expression
    • Respiratory difficulty
  • Inhalation botulism:
    • Similar to food-borne botulism with absence of GI symptoms
ESSENTIAL WORKUP
  • Diagnosis is entirely clinical.
  • Workup focuses on differentiation from other conditions causing general paralysis.
  • If diagnosis is suspected, immediately notify state health department or CDC (770-488-7100 for adults or 1-510-231-7600 for infant cases).
DIAGNOSIS TESTS & NTERPRETATION
Lab
  • CBC
  • Electrolytes, BUN/creatinine, and glucose:
    • Check for hypokalemia.
  • Arterial blood gas (ABG):
    • For signs of respiratory insufficiency
  • Confirmatory testing via mouse assay performed by select state and federal labs, using samples from:
    • Blood
    • Feces
    • Gastric contents
    • Suspected food and containers
    • Takes between 6–96 hr for results
  • Anaerobic blood cultures:
    • May detect bacterium
  • Nasal swab for ELISA test:
    • For inhalation botulism, as less reliably detected in sera and stool than other forms
    • Sample needs to be collected within 24 hr of exposure

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