Economy class syndrome: what is it and who are the individuals at risk?

Dusse, Luci Maria SantAna; Silva, Marcos Vinícius Ferreira; Freitas, Letícia Gonçalves; Marcolino, Milena Soriano; Carvalho, Maria das Graças

doi:10.1016/j.bjhh.2017.05.001

Abstract

The term 'economy class syndrome' refers to the occurrence of thrombotic events during long-haul flights that mainly occur in passengers in the economy class of the aircraft. This syndrome results from several factors related to the aircraft cabin (immobilization, hypobaric hypoxia and low humidity) and the passenger (body mass index, thrombophilia, oral contraceptives or hormone replacement therapy, cancer), acting together to predispose to excessive blood coagulation, which can result in venous thromboembolism. Several risk factors, both genetic and acquired, are associated with venous thromboembolism. The most important genetic risk factors are natural anticoagulant deficiencies (antithrombin, protein C and protein S), factor V Leiden, prothrombin and fibrinogen gene mutations and non-O blood group individuals. Acquired risk factors include age, pregnancy, surgery, obesity, cancer, hormonal contraceptives and hormone replacement therapy, antiphospholipid syndrome, infections, immobilization and smoking. People who have these risk factors are predisposed to hypercoagulability and are more susceptible to suffer venous thromboembolism during air travel. For these individuals, a suitable outfit for the trip, frequent walks, calf muscle exercises, elastic compression stockings and hydration are important preventive measures. Hence, it is essential to inform about economic class syndrome in an attempt to encourage Brazilian health and transport authorities to adopt measures, in partnership with the pharmaceutical industry, to prevent venous thromboembolism.

Keywords:
Economy class syndrome; Air travel; Thromboembolism; Pregnancy

Introduction

Venous thromboembolism (VTE) is a clinical condition that involves two related situations, venous thrombosis and pulmonary embolism.¹1 Tapson VF. Acute pulmonary embolism. N Engl J Med. 2008;358(10):1037-52. It affects approximately 2-3 people per 1000 individuals per year. VTE is the third cause of death by vascular diseases, only surpassed by myocardial infarction and ischemic stroke. In addition, it is the most common cause of preventable death in hospitalized patients.²2 Reitsma PH, Versteeg HH, Middeldorp S. Mechanistic view of risk factors for venous thromboembolism. Arterioscler Thromb Vasc Biol. 2012;32(3):563-8.^,³3 Takach Lapner S, Kearon C. Diagnosis and management of pulmonary embolism. BMJ. 2013;346:f757.

The term 'economy class syndrome' refers to the occurrence of thrombotic events during long-haul flights, mainly in economy class passengers. This syndrome results from several factors related to the aircraft cabin (immobilization, hypobaric hypoxia and low humidity) and to the passenger (such as obesity, thrombophilia, oral contraceptive use, hormone replacement therapy and cancer), that act together predisposing to excessive blood coagulation, which can result in VTE.⁴4 Mendis S, Yach D, Alwan A. Air travel and venous thromboembolism. Bull World Health Org. 2002;80(5):403-6.

Several risk factors, both genetic and acquired, are associated with VTE. The most important genetic risk factors are natural anticoagulant deficiencies: (1) Deficiency of antithrombin, protein C or protein S; (2) Factor V (FV) Leiden, which is resistant to protein C inactivation; (3) The G20210A mutation in the prothrombin gene, which leads to an increase in gene expression and prothrombin plasma levels; (4) The C10034T mutation in the fibrinogen gene, which produces a variant form of fibrinogen; and (5) Non-O blood group (A, B and AB) as individuals have higher von Willebrand factor and factor VIII plasma levels than O group subjects and have increased risk of thrombosis.

Acquired risk factors include age, pregnancy, surgery, obesity, cancer, hormonal contraceptives and hormone replacement therapy, antiphospholipid syndrome, infections, immobilization and smoking.⁵5 Mackman N. New insights into the mechanisms of venous thrombosis. J Clin Invest. 2012;122(7):2331-6.^,⁶6 Alpoim PN, de Barros Pinheiro M, Junqueira DR, Freitas LG, das Graças Carvalho M, Fernandes AP, et al. Preeclampsia and ABO blood groups: a systematic review and meta-analysis. Mol Biol Rep. 2013;40(3):2253-61.

Venous thromboembolism and air travel

Data from the Brazilian National Civil Aviation Agency (ANAC) revealed that the number of passengers carried by civil aviation in 2015 surpassed 100 million.⁷7 BRASIL. Agência Nacional de Aviação Civil. Demanda e Oferta do Transporte Aéreo - Empresas Brasileiras - Dezembro de 2015. [Internet] 2016 [cited 2017 February 12]. Available from: http://www.anac.gov.br/assuntos/dados-e-estatisticas/mercado-do-transporte-aereo.
http://www.anac.gov.br/assuntos/dados-e-... Tables 1 and 2 ⁸8 GOL - VRG Linhas Aéreas S/A. [Internet] 2013 [cited 2013 May 11] Available from: http://www.voegol.com.br/pt-br/Paginas/default.aspx.
http://www.voegol.com.br/pt-br/Paginas/d...

9 TAM. - TAM Linhas Aéreas S/A - Star Alliance Member. [Internet] 2013 [cited 2013 May 11] Available from: http://www.tam.com.br/b2c/vgn/v/index.jsp?vgnextoid=97981ed526b72210VgnVCM1000003752070aRCRD.
http://www.tam.com.br/b2c/vgn/v/index.js... ^-¹⁰10 BRASIL. Anuário do Transporte Aéreo 2015, volume único, 1ª edição. Agência Nacional de Aviação Civil. [Internet] 2016 [cited 2017 February 12] Available from: http://www.anac.gov.br/assuntos/dados-e-estatisticas/mercado-do-transporte-aereo.
http://www.anac.gov.br/assuntos/dados-e-... show the main domestic and international flights in and from Brazil in 2015. The aircraft microenvironment provides very specific conditions, such as reduced oxygen tension, immobilization (in general, people are in tight uncomfortable seats) and circadian dysrhythmia, due to differences in time zones (jet lag). These factors may disturb the passenger's health, causing fatigue, anxiety and nausea.¹¹11 Artal R, Fortunato V, Welton A, Constantino N, Khodiguian N, Villalobos L, et al. A comparison of cardiopulmonary adaptations to exercise in pregnancy at sea level and altitude. Am J Obstet Gynecol. 1995;172(4 Pt 1):1170-1178. [discussion 1178–80].^,¹²12 Sandor T. Travel thrombosis: pathomechanisms and clinical aspects. Pathophysiology. 2008;15(4):243-52.

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Table 1
Major domestic flights of Brazil in 2015.

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Table 2
Major international flights from Brazil in 2015.

The first cases of VTE associated with air travel were reported in 1954, and since then, other cases have been described.⁴4 Mendis S, Yach D, Alwan A. Air travel and venous thromboembolism. Bull World Health Org. 2002;80(5):403-6. The vast majority of victims suffer pulmonary embolism and/or deep vein thrombosis, but cases of subclavian vein thrombosis,¹³13 Teruya T, Arfvidsson B, Eklof B. Could prolonged air travel be casually associated with subclavian vein thrombosis. J Travel Med. 2002;9(1):17-9. cerebral vein thrombosis,¹⁴14 Pfausler B, Vollert H, Bosch S, Schmutzhard E. Cerebral venous thrombosis - a new diagnosis in travel medicine?. J Travel Med. 1996;3(3):165-7. stroke and arterial thrombosis¹⁵15 Kakkos SK, Geroulakos G. Economy class stroke syndrome: case report and review of the literature. Eur J Vasc Endovasc Surg. 2004;27(3):239-43. have also been reported.

The actual incidence of VTE in air travel is unknown. It is difficult to arrive at an estimation given that this condition may be asymptomatic or may develop days or even weeks after the flight.¹⁶16 Clarke M, Hopewell S, Juszczak E, Eisinga A, Kjeldstrom M. Compression stockings for preventing deep vein thrombosis in airline passengers. Cochrane Database Syst Rev. 2006;(2):Cd004002. In a cohort of healthy subjects, the absolute risk of VTE on flights lasting more than 4 h was 1 in 6000.¹⁷17 World Health Organization (WHO). Wright Project. [Internet] 2013 [cited 2013 May 11] Available from: http://www.who.int/cardiovascular_diseases/wright_project/phase1_report/WRIGHT%20REPORT.pdf.
http://www.who.int/cardiovascular_diseas... A meta-analysis¹⁸18 Chandra D, Parisini E, Mozaffarian D. Meta-analysis: travel and risk for venous thromboembolism. Ann Intern Med. 2009;151(3):180-90. involving 14 studies reported 4055 cases of VTE in trips lasting up to 8 h. These studies included both air and overland trips with the follow-up time after the journey ranging from two to eight weeks. The relative risk of VTE was 2.8 [95% confidence interval (95% CI): 2.2-3.7] and at each increment of 2 h in travel time, there was an approximate 18% increase in the risk of VTE. Considering only air travel, this risk increased to 26%, suggesting a cumulative effect of flight time in the genesis of VTE.

MacCallum et al.¹⁹19 MacCallum PK, Ashby D, Hennessy EM, Letley L, Martin J, Mt-Isa S, et al. Cumulative flying time and risk of venous thromboembolism. Br J Haematol. 2011;155(5):613-9. demonstrated that on flights lasting less than 4 h, the risk of VTE is approximately two times higher compared to non-traveler subjects [odds ratio (OR): 2.20; 95% CI: 1.29-3.73] and remained high in the four subsequent weeks. In long-haul flights (greater than 12 h as one or more flights), the risk of VTE is around three times higher (OR: 2.75; 95% CI: 1.44-5.28). After 12 weeks, no time-flight effect was observed in the occurrence of thrombotic events.

A number of factors associated both to the aircraft or passengers have been singled out as responsible for triggering VTE.²⁰20 Schreijer AJ, Cannegieter SC, Meijers JC, Middeldorp S, Buller HR, Rosendaal FR. Activation of coagulation system during air travel: a crossover study. Lancet. 2006;367(9513):832-8. Stasis and hypercoagulability, two components of Virchow's triad, have a crucial role in the occurrence of thromboembolism in flights.¹⁸18 Chandra D, Parisini E, Mozaffarian D. Meta-analysis: travel and risk for venous thromboembolism. Ann Intern Med. 2009;151(3):180-90.

The factors associated with the aircraft include:

Hypobaric hypoxia: The hypoxia caused by reduced air pressure in the aircraft cabin contributes to VTE. At sea level, normal atmospheric pressure is 760 mmHg, which corresponds to a partial oxygen pressure of 159 mmHg. Under these conditions, oxygen saturation in healthy individuals is 95%. In the cockpit of an aircraft at flight altitude, the pressure is usually 570 mmHg and the partial oxygen pressure is 125 mmHg, resulting in oxygen saturation of 90-93%. However, in the elderly and people with lung and/or heart diseases, reductions of up to 80% of oxygen saturation can occur. The relative hypoxia in the aircraft leads to a decrease in fibrinolytic activity and the release of venous relaxation factors, which help to increase the hemostasis.¹²12 Sandor T. Travel thrombosis: pathomechanisms and clinical aspects. Pathophysiology. 2008;15(4):243-52.
Low humidity: The relative humidity inside the aircraft is approximately 10%, while at sea level is 30-40%. Low humidity is associated with increases in plasmatic and urinary osmolarity, which result in hemoconcentration that favors VTE.¹²12 Sandor T. Travel thrombosis: pathomechanisms and clinical aspects. Pathophysiology. 2008;15(4):243-52.

The main passenger-related factors are:

Immobilization: Lack of movement in the sitting position during the flight results in hemostasis of the lower limbs predisposing the individual to VTE.¹²12 Sandor T. Travel thrombosis: pathomechanisms and clinical aspects. Pathophysiology. 2008;15(4):243-52. An evaluation of coagulation biomarkers showed that there is an increased generation of thrombin during flights lasting more than 8 h; this does not occur in other situations where the subject is immobilized in the sitting position. It suggests that there is an additional mechanism resulting in hypercoagulability during flights.²⁰20 Schreijer AJ, Cannegieter SC, Meijers JC, Middeldorp S, Buller HR, Rosendaal FR. Activation of coagulation system during air travel: a crossover study. Lancet. 2006;367(9513):832-8.
Body mass index (BMI) and height: In obese subjects (BMI > 30 kg/m²), there is a reduction in blood flow in the lower limbs, favoring hemostasis. It has been observed that individuals at the extremes of stature (>1.90 m or <1.60 m) have an increased risk of VTE during air travel.¹²12 Sandor T. Travel thrombosis: pathomechanisms and clinical aspects. Pathophysiology. 2008;15(4):243-52.
Thrombophilia: The presence of genetic thrombophilia is an independent risk factor for VTE. Martinelli et al. reported that the risk of VTE is 6.6 (95% CI: 3.9-11.3) times higher in patients with thrombophilia, compared to individuals without these mutations. In patients with thrombophilia, the risk of VTE was 16.8 times higher (95% CI: 3.8-74.7), compared to non-thrombophilic, non-travelers, which suggests a synergistic interaction resulting in an increase in thrombotic risk.²¹21 Martinelli I, Taioli E, Battaglioli T, Podda GM, Passamonti SM, Pedotti P, et al. Risk of venous thromboembolism after air travel: interaction with thrombophilia and oral contraceptives. Arch Intern Med. 2003;163(22):2771-4.
Oral contraceptives and hormone replacement therapy: The use of oral contraceptives increases the risk of VTE by about fourfold in the general population (OR: 4.2; 95% CI: 1.9-9.3). A synergistic association between air travel and oral contraceptive use in the genesis of VTE can be inferred since the occurrence of thrombosis is high in women under oral contraceptives use during or after air travel (OR: 23.4; 95% CI: 2.6-11.2). Similarly, hormone replacement therapy predisposes to VTE.²2 Reitsma PH, Versteeg HH, Middeldorp S. Mechanistic view of risk factors for venous thromboembolism. Arterioscler Thromb Vasc Biol. 2012;32(3):563-8.
Cancer: It is well established that cancer patients have an increased risk of developing VTE throughout the history of the disease, mainly in the first three months after the initial diagnosis (OR: 53.5; 95% CI: 8.6-334.3).²²22 Khorana AA. Cancer and coagulation. Am J Hematol. 2012;87(Suppl. 1):S82-7. Kuipers et al.²³23 Kuipers S, Venemans A, Middeldorp S, Büller HR, Cannegieter SC, Rosendaal FR. The risk of venous thrombosis after air travel: contribution of clinical risk factors. Br J Haematol. 2014;165(3):412-3. estimated that the presence of a malignant disease is associated to an 18-fold increase in thromboembolic risk during flights.
Other factors: Although it is admitted that factors such as diabetes and smoking are associated with a hypercoagulable state,²⁴24 Domingueti CP, Dusse LM, Carvalho Md de Sousa LP, Gomes KB, Fernandes AP. Diabetes mellitus: the linkage between oxidative stress, inflammation, hypercoagulability and vascular complications. J Diabetes Compl. 2016;30(4):738-45. there is a lack of studies about the association of these conditions and the incidence of VTE during flights.

Pregnancy, air travel and venous thrombosis

Pregnancy progresses with important physiological changes in the hemostatic system, which determines a hypercoagulable state. These adaptive changes aim to prepare the maternal organism to the great hemostatic challenge of placenta expulsion and simultaneous disruption of numerous blood vessels to prevent excessive bleeding.²⁵25 Brenner B. Haemostatic changes in pregnancy. Thromb Res. 2004;114(5-6):409-14.

Literature data suggest that 1:6000 young passengers without risk factors for thrombosis have a risk of symptomatic VTE in a four-hour flight.²⁶26 Cannegieter SC, Rosendaal FR. Pregnancy and travel-related thromboembolism. Thromb Res. 2013;131(Suppl. 1):S55-8. Pregnant women in four-hour flights have a thromboembolic risk five to ten times higher than non-pregnant women have. This risk rises exponentially on long-haul trips, by around fourfold and eightfold if the flight time exceeds eight or 12 h, respectively.²⁶26 Cannegieter SC, Rosendaal FR. Pregnancy and travel-related thromboembolism. Thromb Res. 2013;131(Suppl. 1):S55-8.

For pregnant women with thrombophilia who fly over 4 h, the thromboembolic risk is 1:200. For women with Factor V Leiden in homozygosis or those heterozygosis for both Factor V Leiden and the prothrombin mutation, the risk is about 1:40.²⁶26 Cannegieter SC, Rosendaal FR. Pregnancy and travel-related thromboembolism. Thromb Res. 2013;131(Suppl. 1):S55-8. In addition to genetic thrombophilia, parturients with an acquired thrombophilia such as antiphospholipid syndrome also have an increased risk for VTE. These findings raise the debate about the relevance of the adoption of pharmacological prophylaxis in pregnant women while flying.²⁷27 Brenner B. Prophylaxis of travel-related thrombosis in women. Thromb Res. 2009;123(Suppl. 3):S26-9.^,²⁸28 Cannegieter SC, Doggen CJ, van Houwelingen HC, Rosendaal FR. Travel-related venous thrombosis: results from a large population-based case control study (MEGA study). PLoS Med. 2006;3(8):e307.

It has been reported that hypoxia during flights and, consequently trophoblastic injury, favors the occurrence of preterm birth and intrauterine death, especially in pregnant women aged over 35 years, with preeclampsia, abruptio placentae or intrauterine growth restriction.²⁹29 Brenner B. Interventions to prevent venous thrombosis after air travel, are they necessary? Yes. J Thromb Haemost. 2006;4(11):2302-5.

Aware of the risks, many commercial airlines allow pregnant women to travel only up to the 36th week of pregnancy. Other companies make restrictions for international flights in early pregnancy and require evidentiary documentation of gestational age or state that cases should be evaluated individually. Pregnant civilian or military crewmembers should check with regulatory bodies with regard to restrictions on their professional activities. However, the main concern with pregnant women of airlines is associated with the risk of labor during the trip, which could disrupt or interrupt the flight. In addition, there is a lack of skilled professionals to manage obstetric complications occurring aboard.²⁷27 Brenner B. Prophylaxis of travel-related thrombosis in women. Thromb Res. 2009;123(Suppl. 3):S26-9.

Obstetricians advise at-risk pregnant women not to fly. All pregnant women should be informed of the obstetric emergencies that can occur in the first and third trimesters of pregnancy and it is prudent to avoid travel during these periods.³⁰30. ACOG Committee Opinion No 443: air travel during pregnancy. Obstet Gynecol. 2009;114(4):954-5.

Currently, with the progressive increase in the possibility of air travel given by the expansion of routes and drop in ticket prices, the risk of venous thrombotic events associated with long hours of immobilization during air travel has emerged as a topic to be discussed. Preventive measures are extremely important. Passengers should be informed of potential risks and encouraged to exercise regularly, with short walks in the aisles, and to avoid dehydration. It is controversial as to whether drinking alcoholic beverages increases the risk of thromboembolic events, but it may contribute to dehydration and there is still the possibility of fetus damage during pregnancy. Thus, the intake of alcoholic beverages must be discouraged.²⁹29 Brenner B. Interventions to prevent venous thrombosis after air travel, are they necessary? Yes. J Thromb Haemost. 2006;4(11):2302-5.

The choice of a suitable outfit for the trip is also important and must prioritize comfort, avoiding tight garments with elastic. Adequate hydration should be encouraged.²⁷27 Brenner B. Prophylaxis of travel-related thrombosis in women. Thromb Res. 2009;123(Suppl. 3):S26-9.

Individual risk stratification is essential to define the most appropriate measures. The Aerospace Medical Association (AsMA) has published guidelines on the use of prophylaxis in individuals who travel by air. The risk groups defined in these guidelines are shown in Table 3.³¹31 Moyle J. Medical guidelines for airline travel. Aviat Space Environ Med. 2003;74(9):1009 [author reply 1009]. Pregnancy and the puerperium are defined as moderate risk. For individuals with moderate risk, the guidelines suggest acetylsalicylic acid associated or not with compression stockings.³²32 Medical Guidelines for Airline Travel, 2nd ed. Aviat Space Environ Med. 2003; 74(5 Suppl):A1-19. However, the evidence about acetylsalicylic acid use is controversial as it crosses the placenta and therefore it cannot be recommended prophylactically in pregnant women according to the American College of Chest Physicians Guidelines.³³33 Geerts WH, Bergqvist D, Pineo GF, Heit JA, Samama CM, Lassen MR, et al. Prevention of venous thromboembolism: American College of Chest Physicians Evidence-Based Clinical Practice Guidelines (8th Edition). Chest. 2008;133(6 Suppl.):381s-453s.

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Table 3
Risk categories for the occurrence of thromboembolic events.

Elastic compression stockings exert graduated pressure of the lower limb with greater pressure at the ankle. When combined with muscle activity, they direct the blood flow from the superficial venous system to the deep system, reducing venous stasis and potentially preventing the occurrence of venous thrombosis. A Cochrane systematic review included nine randomized trials (2821 individuals) comparing flyers who used compression stockings with those who did not (seven studies in low- or medium-risk individuals). The study noted a significant reduction in the risk of asymptomatic travel-related deep venous thrombosis with the use of compression stockings (OR: 0.10; 95% CI: 0.05-0.25).¹⁵15 Kakkos SK, Geroulakos G. Economy class stroke syndrome: case report and review of the literature. Eur J Vasc Endovasc Surg. 2004;27(3):239-43. The tolerability of compression stockings was good in all studies and no adverse effects were reported with the exception of superficial thrombophlebitis.¹⁵15 Kakkos SK, Geroulakos G. Economy class stroke syndrome: case report and review of the literature. Eur J Vasc Endovasc Surg. 2004;27(3):239-43.^,³⁴34 Scurr JH, Machin SJ, Bailey-King S, Mackie IJ, McDonald S, Smith PD. Frequency and prevention of symptomless deep-vein thrombosis in long-haul flights: a randomised trial. Lancet. 2001;357(9267):1485-9.

For high-risk individuals, frequent walking, calf muscle exercises and compression stockings should be encouraged.²⁷27 Brenner B. Prophylaxis of travel-related thrombosis in women. Thromb Res. 2009;123(Suppl. 3):S26-9.^,³¹31 Moyle J. Medical guidelines for airline travel. Aviat Space Environ Med. 2003;74(9):1009 [author reply 1009].

Despite the fact that thrombophilia constitutes a major risk factor for VTE, routine screening is not recommended in pregnant women, since there are multiple risk factors in pregnant women (even though each individual factor is not associated to high risk).³⁵35 Bates SM, Greer IA, Middeldorp S, Veenstra DL, Prabulos AM, Vandvik PO. VTE, thrombophilia, antithrombotic therapy, and pregnancy: Antithrombotic Therapy and Prevention of Thrombosis, 9th ed: American College of Chest Physicians Evidence-Based Clinical Practice Guidelines. Chest. 2012;141(2 Suppl.):e691S-736S.

Considering the large extension of the Brazilian territory, thrombosis during long overland trips (with immobilization in a sitting position) should be expected however only one case report was found in the Brazilian literature concerning the occurrence of a thromboembolic event.³⁶36 de Oliveira MT, de Faveri M, Farias CM, Mansur AJ, Pereira-Barretto AC. Economy class syndrome after long duration bus travel. Arq Bras Cardiol. 2006;86(5):388-9.

Final considerations

In the context of Brazil, the majority of domestic flights last less than 2 h, although trips from the south to the north and northeast can last from 8 to 10 h. With respect to international travel, most flights are of long duration and thus represent a greater risk of VTE. Despite this, there is no data about Brazilian individuals who travel with a risk of hypercoagulability or about VTE related to flights.

It is essential to inform about economic class syndrome in an attempt to encourage the Brazilian health and transport authorities to adopt some measures, in partnership with the pharmaceutical industry, to prevent venous thromboembolism.

Acknowledgments

The authors thank the financial support granted by the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) and Fundação de Amparo à Pesquisa do estado de Minas Gerais (FAPEMIG). LSD and MGC are grateful to CNPq for providing Research Fellowships.

References

¹
Tapson VF. Acute pulmonary embolism. N Engl J Med. 2008;358(10):1037-52.
²
Reitsma PH, Versteeg HH, Middeldorp S. Mechanistic view of risk factors for venous thromboembolism. Arterioscler Thromb Vasc Biol. 2012;32(3):563-8.
³
Takach Lapner S, Kearon C. Diagnosis and management of pulmonary embolism. BMJ. 2013;346:f757.
⁴
Mendis S, Yach D, Alwan A. Air travel and venous thromboembolism. Bull World Health Org. 2002;80(5):403-6.
⁵
Mackman N. New insights into the mechanisms of venous thrombosis. J Clin Invest. 2012;122(7):2331-6.
⁶
Alpoim PN, de Barros Pinheiro M, Junqueira DR, Freitas LG, das Graças Carvalho M, Fernandes AP, et al. Preeclampsia and ABO blood groups: a systematic review and meta-analysis. Mol Biol Rep. 2013;40(3):2253-61.
⁷
BRASIL. Agência Nacional de Aviação Civil. Demanda e Oferta do Transporte Aéreo - Empresas Brasileiras - Dezembro de 2015. [Internet] 2016 [cited 2017 February 12]. Available from: http://www.anac.gov.br/assuntos/dados-e-estatisticas/mercado-do-transporte-aereo
» http://www.anac.gov.br/assuntos/dados-e-estatisticas/mercado-do-transporte-aereo
⁸
GOL - VRG Linhas Aéreas S/A. [Internet] 2013 [cited 2013 May 11] Available from: http://www.voegol.com.br/pt-br/Paginas/default.aspx
» http://www.voegol.com.br/pt-br/Paginas/default.aspx
⁹
TAM. - TAM Linhas Aéreas S/A - Star Alliance Member. [Internet] 2013 [cited 2013 May 11] Available from: http://www.tam.com.br/b2c/vgn/v/index.jsp?vgnextoid=97981ed526b72210VgnVCM1000003752070aRCRD
» http://www.tam.com.br/b2c/vgn/v/index.jsp?vgnextoid=97981ed526b72210VgnVCM1000003752070aRCRD
¹⁰
BRASIL. Anuário do Transporte Aéreo 2015, volume único, 1ª edição. Agência Nacional de Aviação Civil. [Internet] 2016 [cited 2017 February 12] Available from: http://www.anac.gov.br/assuntos/dados-e-estatisticas/mercado-do-transporte-aereo
» http://www.anac.gov.br/assuntos/dados-e-estatisticas/mercado-do-transporte-aereo
¹¹
Artal R, Fortunato V, Welton A, Constantino N, Khodiguian N, Villalobos L, et al. A comparison of cardiopulmonary adaptations to exercise in pregnancy at sea level and altitude. Am J Obstet Gynecol. 1995;172(4 Pt 1):1170-1178. [discussion 1178–80].
¹²
Sandor T. Travel thrombosis: pathomechanisms and clinical aspects. Pathophysiology. 2008;15(4):243-52.
¹³
Teruya T, Arfvidsson B, Eklof B. Could prolonged air travel be casually associated with subclavian vein thrombosis. J Travel Med. 2002;9(1):17-9.
¹⁴
Pfausler B, Vollert H, Bosch S, Schmutzhard E. Cerebral venous thrombosis - a new diagnosis in travel medicine?. J Travel Med. 1996;3(3):165-7.
¹⁵
Kakkos SK, Geroulakos G. Economy class stroke syndrome: case report and review of the literature. Eur J Vasc Endovasc Surg. 2004;27(3):239-43.
¹⁶
Clarke M, Hopewell S, Juszczak E, Eisinga A, Kjeldstrom M. Compression stockings for preventing deep vein thrombosis in airline passengers. Cochrane Database Syst Rev. 2006;(2):Cd004002.
¹⁷
World Health Organization (WHO). Wright Project. [Internet] 2013 [cited 2013 May 11] Available from: http://www.who.int/cardiovascular_diseases/wright_project/phase1_report/WRIGHT%20REPORT.pdf
» http://www.who.int/cardiovascular_diseases/wright_project/phase1_report/WRIGHT%20REPORT.pdf
¹⁸
Chandra D, Parisini E, Mozaffarian D. Meta-analysis: travel and risk for venous thromboembolism. Ann Intern Med. 2009;151(3):180-90.
¹⁹
MacCallum PK, Ashby D, Hennessy EM, Letley L, Martin J, Mt-Isa S, et al. Cumulative flying time and risk of venous thromboembolism. Br J Haematol. 2011;155(5):613-9.
²⁰
Schreijer AJ, Cannegieter SC, Meijers JC, Middeldorp S, Buller HR, Rosendaal FR. Activation of coagulation system during air travel: a crossover study. Lancet. 2006;367(9513):832-8.
²¹
Martinelli I, Taioli E, Battaglioli T, Podda GM, Passamonti SM, Pedotti P, et al. Risk of venous thromboembolism after air travel: interaction with thrombophilia and oral contraceptives. Arch Intern Med. 2003;163(22):2771-4.
²²
Khorana AA. Cancer and coagulation. Am J Hematol. 2012;87(Suppl. 1):S82-7.
²³
Kuipers S, Venemans A, Middeldorp S, Büller HR, Cannegieter SC, Rosendaal FR. The risk of venous thrombosis after air travel: contribution of clinical risk factors. Br J Haematol. 2014;165(3):412-3.
²⁴
Domingueti CP, Dusse LM, Carvalho Md de Sousa LP, Gomes KB, Fernandes AP. Diabetes mellitus: the linkage between oxidative stress, inflammation, hypercoagulability and vascular complications. J Diabetes Compl. 2016;30(4):738-45.
²⁵
Brenner B. Haemostatic changes in pregnancy. Thromb Res. 2004;114(5-6):409-14.
²⁶
Cannegieter SC, Rosendaal FR. Pregnancy and travel-related thromboembolism. Thromb Res. 2013;131(Suppl. 1):S55-8.
²⁷
Brenner B. Prophylaxis of travel-related thrombosis in women. Thromb Res. 2009;123(Suppl. 3):S26-9.
²⁸
Cannegieter SC, Doggen CJ, van Houwelingen HC, Rosendaal FR. Travel-related venous thrombosis: results from a large population-based case control study (MEGA study). PLoS Med. 2006;3(8):e307.
²⁹
Brenner B. Interventions to prevent venous thrombosis after air travel, are they necessary? Yes. J Thromb Haemost. 2006;4(11):2302-5.
³⁰
ACOG Committee Opinion No 443: air travel during pregnancy. Obstet Gynecol. 2009;114(4):954-5.
³¹
Moyle J. Medical guidelines for airline travel. Aviat Space Environ Med. 2003;74(9):1009 [author reply 1009].
³²
Medical Guidelines for Airline Travel, 2nd ed. Aviat Space Environ Med. 2003; 74(5 Suppl):A1-19.
³³
Geerts WH, Bergqvist D, Pineo GF, Heit JA, Samama CM, Lassen MR, et al. Prevention of venous thromboembolism: American College of Chest Physicians Evidence-Based Clinical Practice Guidelines (8th Edition). Chest. 2008;133(6 Suppl.):381s-453s.
³⁴
Scurr JH, Machin SJ, Bailey-King S, Mackie IJ, McDonald S, Smith PD. Frequency and prevention of symptomless deep-vein thrombosis in long-haul flights: a randomised trial. Lancet. 2001;357(9267):1485-9.
³⁵
Bates SM, Greer IA, Middeldorp S, Veenstra DL, Prabulos AM, Vandvik PO. VTE, thrombophilia, antithrombotic therapy, and pregnancy: Antithrombotic Therapy and Prevention of Thrombosis, 9th ed: American College of Chest Physicians Evidence-Based Clinical Practice Guidelines. Chest. 2012;141(2 Suppl.):e691S-736S.
³⁶
de Oliveira MT, de Faveri M, Farias CM, Mansur AJ, Pereira-Barretto AC. Economy class syndrome after long duration bus travel. Arq Bras Cardiol. 2006;86(5):388-9.

Publication Dates

Publication in this collection
Oct-Dec 2017

History

Received
1 Sept 2016
Accepted
2 May 2017

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivative License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium provided the original work is properly cited and the work is not changed in any way.

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de Oliveira MT, de Faveri M, Farias CM, Mansur AJ, Pereira-Barretto AC. Economy class syndrome after long duration bus travel. Arq Bras Cardiol. 2006;86(5):388-9.

Route	Passengers (millions)	Mean flight time
São Paulo (CGH) – Rio de Janeiro (SDU)	4.05	1 h
São Paulo (CGH) – Brasília (BSB)	2.23	1 h 45 min
São Paulo (GRU) – Salvador (SSA)	2.2	2 h 20 min
São Paulo (GRU) – Porto Alegre (POA)	2.02	1 h 35 min
São Paulo (GRU)–Recife (REC)	1.98	3 h 30 min
São Paulo (CGH) – Belo Horizonte (CNF)	1.82	1 h 20 min
São Paulo (CGH) – Porto Alegre (POA)	1.7	1 h 35 min
São Paulo (CGH) – Curitiba (CWB)	1.52	1 h 00 min
São Paulo (CGH) – Brasília (BSB)	1.35	1 h 45 min
Rio de Janeiro (GIG) – Salvador (SSA)	1.34	2 h 15 min
Total	20.21

Destination	Passengers (millions)	Mean flight time^a a Flight time departing from the city of São Paulo
USA	5.38	11 h
Argentina	3.07	2 h 50 min
Portugal	1.54	11 h
Chile	1.41	4 h
Spain	0.98	12 h
France	0.97	14 h
Germany	0.84	15 h
Peru	0.65	5 h 30 min
Uruguay	0.62	2 h 40 min
United Kingdom	0.59	12 h
Italy	0.50	12 h

Risk	Risk category
Low	Age over 40 years, obesity, inflammatory disease, recent minor surgery (within three days)
Moderate	Varicose veins, decompensated heart failure, recent acute myocardial infarction (within six weeks), hormone therapy (including contraceptives), pregnancy or the postpartum period, lower limb hemiparesis, lower limb trauma (within six weeks)
High	Previous venous thromboembolism, known thrombophilia, recent major surgery (within six weeks), prior stroke, cancer, family history of venous thromboembolism.