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Review
. 2009 Jun 13;373(9680):2067-77.
doi: 10.1016/S0140-6736(09)60209-9. Epub 2009 Feb 21.

Medical issues associated with commercial flights

Danielle Silverman  1 Mark Gendreau
Affiliations
Review

Medical issues associated with commercial flights

Danielle Silverman et al. Lancet. .

Abstract

Almost 2 billion people travel aboard commercial airlines every year. Health-care providers and travellers need to be aware of the potential health risks associated with air travel. Environmental and physiological changes that occur during routine commercial flights lead to mild hypoxia and gas expansion, which can exacerbate chronic medical conditions or incite acute in-flight medical events. The association between venous thromboembolism and long-haul flights, cosmic-radiation exposure, jet lag, and cabin-air quality are growing health-care issues associated with air travel. In-flight medical events are increasingly frequent because a growing number of individuals with pre-existing medical conditions travel by air. Resources including basic and advanced medical kits, automated external defibrillators, and telemedical ground support are available onboard to assist flight crew and volunteering physicians in the management of in-flight medical emergencies.

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Figures

Figure
Figure
Effect of cabin altitude on oxyhaemoglobin saturation (A) The aircraft passenger cabin is normally pressurised to an altitude of 1524–2438 m. This reduced pressure within the passenger cabin results in lower systemic PaO2 and decreased oxyhaemoglobin. For most healthy passengers, this results in a decrease in the arterial partial pressure oxygen tension from 95 mm Hg (12·7 kPa) to 65 mm Hg (8·7 kPa) corresponding to an oxyhaemoglobin saturation from 95–100% at sea level (A) to 90% at a cabin altitude of 2438 m (B). (B) Passengers with pre-existing lower sea-level oxyhaemoglobin saturations have greater declines during a flight. In this example, a passenger with mild chronic obstructive pulmonary disease with a sea-level PaO2 of 70 mm Hg (A) and a FEV1 of 1·6 L (50% predicted) will have a corresponding reduction of PaO2 to about 53 mm Hg or oxyhaemoglobin saturation of approximately 84% at a cabin altitude of 2438 m (B). This passenger should be prescribed oxygen for air travel. PaO2=arterial oxygen partial pressure. FEV1=forced expiratory effort in 1 second.
See this image and copyright information in PMC

Comment in

  • In-flight medical emergencies.
    Sand M, Bechara FG, Sand D, Mann B. Sand M, et al. Lancet. 2009 Sep 26;374(9695):1062-3; author reply 1062. doi: 10.1016/S0140-6736(09)61697-4. Lancet. 2009. PMID: 19782861 No abstract available.
  • In-flight medical emergencies.
    Hauswald M. Hauswald M. Lancet. 2009 Sep 26;374(9695):1062; author reply 1062. doi: 10.1016/S0140-6736(09)61695-0. Lancet. 2009. PMID: 19782862 No abstract available.
  • In-flight medical emergencies.
    Sprigings DC, Davies PT. Sprigings DC, et al. Lancet. 2009 Sep 26;374(9695):1063; author reply 1062. doi: 10.1016/S0140-6736(09)61698-6. Lancet. 2009. PMID: 19782864 No abstract available.

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