5-Minute Emergency Consult
Decompression Sickness
Basics
Description
A disease process resulting from escape of absorbed gas bubbles (commonly nitrogen) out of solution into body fluids and tissues, affecting multiple organ systems
Background
- Henry’s law:
- Amount of gas that will dissolve in a solution at a given temperature is directly proportional to partial pressure of that gas in the atmosphere above the solution
- Increases in partial pressure result in larger amount of gas dissolved in tissue
- Decreases in partial pressure result in gas coming out of solution and producing bubbles
Etiology
Mechanism:
- Pathophysiology:
- Increased ambient pressure during diving increases partial pressure of inhaled gases (typically nitrogen, common component of diver’s gas)
- Gases accumulate in tissues in solution
- As ambient pressure decreases (ascending in water), gas comes out of solution and back into a gaseous state
- Decompression sickness (DCS) results when rapid pressure changes do not allow for gradual removal of excess nitrogen or inhaled gas
- Supersaturation of tissues when gases not eliminated rapidly enough and bubble formation results
- Bubbles incite inflammatory and coagulation responses:
- Increased vessel permeability, hemoconcentration, edema, endothelial dysfunction, clot formation
- Resulting disruption of blood flow or lymphatic drainage can to ischemia, infarction, or lymphedema
- Clinical effects determined by bubble location and extent
- Risk factors for DCS:
- Dive factors:
- Greater depth
- Prolonged time at depth
- Multiple dives in a day
- Rapid ascent
- Cold water
- Human factors:
- Patent foramen ovale (PFO)
- Obesity
- Concurrent illness
- Pulmonary disease
- Dehydration
- Smoking history
- Alcohol use prior to dives
- Proper use of dive tables, timers, and computers does not completely eliminate risk for DCS, though can help mitigate it
- Dive factors:
- 50% of patients develop symptoms in 1 hr, 90% develop symptoms within 6 hr, but can present up to 36 hr postdive
- Airplane flight within 12–24 hr following diving can precipitate DCS due to lower cabin pressure
Epidemiology
- Due to improvements in diving tech and safety protocols, DCS is increasingly rare
- Recreational divers
- 3 per 10,000 dives
- Higher for commercial divers
- Recreational divers
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Citation
Schaider, Jeffrey J., et al., editors. "Decompression Sickness." 5-Minute Emergency Consult, 7th ed., Wolters Kluwer, 2027. Emergency Central, emergency.unboundmedicine.com/emergency/view/5-Minute_Emergency_Consult/307696/0/Decompression_Sickness_.
Decompression Sickness. In: Schaider JJJ, Barkin RMR, Hayden SRS, et al, eds. 5-Minute Emergency Consult. Wolters Kluwer; 2027. https://emergency.unboundmedicine.com/emergency/view/5-Minute_Emergency_Consult/307696/0/Decompression_Sickness_. Accessed June 22, 2026.
Decompression Sickness. (2027). In Schaider, J. J., Barkin, R. M., Hayden, S. R., Wolfe, R. E., Barkin, A. Z., Shayne, P., & Rosen, P. (Eds.), 5-Minute Emergency Consult (7th ed.). Wolters Kluwer. https://emergency.unboundmedicine.com/emergency/view/5-Minute_Emergency_Consult/307696/0/Decompression_Sickness_
Decompression Sickness [Internet]. In: Schaider JJJ, Barkin RMR, Hayden SRS, et al, eds. 5-Minute Emergency Consult. Wolters Kluwer; 2027. [cited 2026 June 22]. Available from: https://emergency.unboundmedicine.com/emergency/view/5-Minute_Emergency_Consult/307696/0/Decompression_Sickness_.
* Article titles in AMA citation format should be in sentence-case
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