Submersion injury: Difference between revisions

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**Term "near-drowning" no longer used
**Term "near-drowning" no longer used
*Three possible outcomes = death, survival with morbidity, survival without morbidity
*Three possible outcomes = death, survival with morbidity, survival without morbidity
*Consider secondary causes such as intoxication, syncope, cardiac arrhythmia, ACS, non-accidental trauma, etc.
 
===Consider Secondary Causes===
*[[Intoxication]]
*[[Syncope]]
*[[Cardiac arrhythmia]]
*[[ACS]]
*[[Non-accidental trauma]]


===Pathophysiology===
===Pathophysiology===

Revision as of 04:46, 17 May 2019

Background

  • Definition: "The process of experiencing respiratory impairment from submersion/immersion in liquid"[1]
    • Term "near-drowning" no longer used
  • Three possible outcomes = death, survival with morbidity, survival without morbidity

Consider Secondary Causes

Pathophysiology

  • Submersion → voluntary breath holding → aspiration → coughing/laryngospasm → aspiration continues → hypoxia → death[2]
  • Aspiration destroys surfactant which → alveolar collapse, atelectasis, non-cardiogenic pulmonary edema, and V-Q mismatch.

Clinical Features

  • Pulmonary [3][4] [5]
    • Hypoxemia due to aspiration
    • Hypoxemia varies with severity but may be seen even with small volume aspiration (1-3mL) due to interference with alveolar gas exchange [6]
    • Shortness of breath
    • Crackles
    • Wheezing
    • May progress to pulmonary edema or ARDS despite adequate ventilation
  • Neurologic [7]
    • System most susceptible to hypoxemia
    • Cerebral edema
    • Elevated ICP
    • Severity worsened with prolonged hypoxia
  • Cardiovascular [8]
    • Hypoxemia and hypothermia may cause arrhythmias
    • Sinus tachycardia, sinus bradycardia, a-fib
  • Metabolic
    • Respiratory / metabolic acidosis
    • Electrolyte disturbances are uncommon but may be seen with submersion in media with unusually high electrolyte concentrations (such as the dead sea) [9]
  • Hypothermia [10]

Differential Diagnosis

Water-related injuries

Evaluation

  • CXR (on arrival and after 4 hours)
  • ABG - lactic acidosis
  • Serum sodium does not correlate to fresh water vs. salt water drowning
  • Other work-up generally not needed unless specifically indicated by history or exam[2], but may consider:
    • Labs, EKG
    • CT head/C-spine (if history of trauma) - C-spine injury extremely unlikely without evidence or history of trauma (<0.5% in large cohort study)[11]

Management

Prehospital

  • Immediate recitation if indicated [12]
  • Assess need for CPR but do not delay removal from water
  • Ventilation is a higher priority in drowning victims in cardiac arrest than in other situations requiring CPR
  • Deliver two rescue breaths immediately upon reaching shallow water or a stable surface; early breaths have been associated with improved survival [13]
  • If no response to rescue breaths with chest rise, continue to standard CPR algorithm
  • Administer high flow 02 and intubate apneic patients
  • Do not routinely immobilize c-spine without suspicion based on mechanism or clinical signs [14]

Emergency Department

  • Supportive care based on presentation is cornerstone of management[15]
  • Consider CPAP if inadequate tidal volume with high flow O2
  • OG tube for gastric distension
  • Indications for intubation:
    • Comatose or unable to protect airway
    • Hypoxemia or hypercapnia on ABG despite high flow O2 (PaO2 below 60, PaCO2 above 50)
  • Continue recitation efforts in hypothermic patients until core temperature rises to at least 30 C (not dead until warm and dead) [16]
  • Routine antibiotics in ED are not necessary, but broad spectrum coverage may be indicated for submersion in heavily contaminated water

Disposition

  • Discharge after 4-6 hours of observation if:
    • Normal mental status, SpO2 >95% on room air, normal CXR and respiratory exam
  • Admit all others

See Also

Video

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References

  1. World Health Organization (WHO) "Global Report on Drowning". http://www.who.int/violence_injury_prevention/global_report_drowning/Final_report_full_web.pdf (Accessed 02/01/2017)
  2. 2.0 2.1 Szpilman, D., Bierens, J. J., Handley, A. J., & Orlowski, J. P. (2012). Drowning. N Engl J Med, 366(22), 2102-2110. doi: 10.1056/NEJMra1013317
  3. Olshaker JS. Near drowning. Emerg Med Clin North Am. 1992;10(2):339
  4. Bierens et al. Drowning. Curr Opin Crit Care. 2002;8(6):578
  5. DeNicola et al. Submersion injuries in children and adults. Crit Care Clin 1997; 13: pp. 477
  6. Layon et al. Drowning: Update 2009. Anesthesiology 2009; 110: pp. 1390
  7. McGillicuddy. Cerebral protection: pathophysiology and treatment of increased intracranial pressure. Chest. 1985;87(1):85
  8. Rivers et al. Drowning. Its clinical sequelae and management. Br Med J. 1970;2(5702):157
  9. Yagyl et al. Near drowning in the dead sea. Electrolyte imbalances and therapeutic implications. Arch Intern Med. 1985;145(1):50
  10. Collis ML: Survival behaviour in cold water immersion. In (eds): Proceedings of the Cold Water Symposium. Toronto, Canada: Royal Life-Saving Society of Canada, 1976
  11. Watson RS, Cummings P, Quan L, et al. Cervical Spine Injuries Among Submersion victims. J Trauma 2001; 51:658.
  12. Schmidt AC, et al. Wilderness Medical Society Practice Guidelines for the Prevention and Treatment of Drowning. Wilderness Environ Med. 2016 Jun;27(2):236-51
  13. Szpilman D, et al. In-water resuscitation: Is it worthwhile? Resuscitation 2004; 63: pp. 25
  14. Vanden Hoek TL et al. Part 12: cardiac arrest in special situations: 2010 American Heart Association Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care. Circulation. 2010;122(18 Suppl 3):S829
  15. Layon AJ et al. Drowning: Update 2009. Anesthesiology. 2009;110(6):1390
  16. American Heart Association; ILCOR : Submersion or near-drowning. Circulation 2000; 102: pp. I-233