REFERENCES
- Ashkenazi IE, Ribak J, Avgar DM, Klepfish A. (1982). Altitude and hypoxia as phase shift inducers. Aviat. Space Environ. Med. 53:342–346.
- Barnett AG, Baker PJ, Dobson AJ. (2010). Analysing seasonal data R functions. In R package version 0.2-5: a language and environment for statistical computing. In Vienna, Austria: R Development Core Team. Accessed November 25, 2010, from http://www.R-project.org.
- Beh HC, McLaughlin PJ. (1991). Mental performance of air crew following layovers on transzonal flights. Ergonomics 34:123–135.
- Beh HC, McLaughlin P. (1997). Effect of long flights on the cognitive performance of air crew. Percept. Mot. Skills 84:319–322.
- Butler BD, Little TM, Sothern RB, Smolensky MH. (2010). Circadian study of decompression sickness symptoms and response-associated variables in rats. Chronobiol. Int. 27:138–160.
- Conrad ME, Umbreit JN. (2001). Iron absorption and transport—an update. Am. Hematol. 64:287–298.
- Coste O, Beaumont M, Batéjat D, Van Beers P, Touitou Y. (2004). Prolonged mild hypoxia modifies human circadian core body temperature and may be associated with sleep disturbances. Chronobiol. Int. 21:417–431.
- Coste O, Van Beers P, Bogdan A, Charbuy H, Touitou Y. (2005). Hypoxic alteration of cortisol circadian rhythm in man after simulation of a long duration flight. Steroids 70:803–810.
- Coste O, Van Beers P, Bogdan A, Charbuy H, Touitou Y. (2006). Simulation of long-haul flights in humans: prolonged mild hypoxia does not alter the circadian time structure of plasma testosterone and gonadotrophins. Steroids 71:214–221.
- Coste O, Van Beers P, Touitou Y. (2007). Impact of hypobaric hypoxia in pressurized cabins of simulated long distance flights on the 24-h patterns of biological variables, fatigue, and clinical status. Chronobiol. Int. 24:1139–1157.
- Coste O, Van Beers P, Touitou Y. (2009). Hypoxia-induced changes in recovery sleep, core body temperature, urinary 6-sulfatoxymelatonin and free cortisol after a simulated long-duration flight. J. Sleep Res. 18:454–465.
- Désir D, Van Cauter E, Fang V, Martino E, Jadot C, Spire J, Noël P, Refetoff S, Copinschi G, Golstein J. (1981). Effects of “jet lag” on hormonal patterns. I. Procedures, variations in total plasma proteins, and disruption of adrenocorticotropin-cortisol periodicity. J. Clin. Endocrinol. Metab. 52:628–641.
- Eisenstein RS. (2000). Iron regulatory proteins and the molecular control of mammalian iron metabolism. Annu. Rev. Nutr. 20:627–662.
- Eriksen CA, Akerstedt T. (2006). Aircrew fatigue in trans-Atlantic morning and evening flights. Chronobiol. Int. 23:843–858.
- Federal Aeronautical Administration (FAA). (1996). Airworthiness standards: transport category airplanes. In Federal Aviation Regulations (FAR) Part 25 (Amdt. 25-87, 61 FR 28696, 5 June 1996). Washington, DC, USA: section 841.
- Ganz T. (2007). Molecular control of iron transport. J. Am. Soc. Nephrol. 18:394–400.
- Ganz T. (2008). Iron homeostasis: fitting the puzzle pieces together. Cell Metab. 7:288–290.
- Hauty GT, Adams T. (1966a). Phase shifts of the human circadian system and performance deficit during the periods of transition: I. East-west flight. Aerospace Med. 37:668–674.
- Hauty GT, Adams T. (1966b). Phase shifts of the human circadian system and performance deficit during the periods of transition: II. West-east flight. Aerospace Med. 37:1027–1033.
- Hauty GT, Adams T. (1966c). Phase shifts of the human circadian system and performance deficit during the periods of transition: III. North-south flight. Aerospace Med. 37:1257–1262.
- Horne J, Östberg O. (1976). A self-assessment questionnaire to determine morningness-eveningness in human circadian rhythms. Int. J. Chronobiol. 4:97–110.
- Joint Airworthiness Authorities (JAA). (1994). Large aeroplanes. In Joint Aviation Regulations (JAR) Part 25. Hoofddorp, The Netherlands: section 841.
- Kalsbeek A, Perreau-Lenz S, Buijs RM. (2006). A network of (autonomic) clock outputs. Chronobiol. Int. 23:201–215.
- Kräuchi K, Cajochen C, Moeri D, Graw P, Wirz-Justice A. (1997). Early evening melatonin and S-20098 advance circadian phase and nocturnal regulation of core body temperature. Am. J. Physiol. 272:R1178–R1188.
- Merle U, Fein E, Gehrke SG, Stremmel W, Kulaksiz H. (2007). The iron regulatory peptide is expressed in the heart and regulated by hypoxia and inflammation. Endocrinology 148:2663–2668.
- Morgan EH. (1970). Effect of hypoxia on serum concentration of transferrin and other serum proteins in human subjects. J. Lab. Clin. Med. 75:1006–1012.
- Muhm JM, Rock PB, McMullin DL, Jones SP, Lu IL, Eilers KD, Space DR, McMullen A. (2007). Effect of aircraft-cabin altitude on passenger discomfort. N. Engl. J. Med. 357:18–27.
- NATO Military Agency for Standardization. (1991). Functional requirements of aircraft equipment and pressure suit. In Standardization Agreement (STANAG) 3198 AMD (Ed. 4, 30 December 1991). Brussels, Belgium.
- Portaluppi F, Smolensky MH, Touitou Y. (2010). Ethics and methods for biological rhythm research on animals and human beings. Chronobiol. Int. 27:1911–1929.
- Reinberg AE, Smolensky MH. (1992). Shift work and transmeridian flights. In Touitou Y, Haus E (eds.). Biologic rhythms in clinical and laboratory medicine. Berlin: Springer-Verlag, 243–255.
- Richalet J-P. (1984). Médecine de l'alpinisme. Paris: Masson.
- Richalet J-P, Souberbielle JC, Antezana AM, Dechaux M, Le Trong JL, Bienvenu A, Daniel F, Blanchot C, Zittoun J. (1994). Control of erythropoiesis in humans during prolonged exposure to the altitude of 6542 m. Am. J. Physiol. 266(3 Pt 2):R756–R764.
- Robach P, Fulla Y, Westerterp KR, Richalet JP. (2004). Comparative response of EPO and soluble transferrin receptor at high altitude. Med. Sci. Sports Exerc. 36:1493–1498.
- Toth I, Yuan L, Rogers JT, Boyce H, Bridges KR. (1999). Hypoxia alters iron-regulatory protein-1 binding capacity and modulates cellular iron homeostasis in human hepatoma and erythroleukemia cells. J. Biol. Chem. 274:4467–4473.
- Touitou Y, Touitou C, Bogdan A, Reinberg A, Auzeby A, Beck H, Guillet P. (1986). Differences between young and elderly subjects in seasonal and circadian variations of total plasma proteins and blood volume as reflected by hemoglobin, hematocrit, and erythrocyte counts. Clin. Chem. 32:801–804.
- Touitou Y, Coste O, Dispersyn G, Pain L. (2010). Disruption of the circadian system by environmental factors: effects of hypoxia, magnetic fields and general anesthetics agents. Adv. Drug Deliv. Rev. 62:928–945.
- Waterhouse JM, Nevill A, Edwards B, Godfrey R, Reilly T. (2003). The relationship between assessments of jet lag and some of its symptoms. Chronobiol. Int. 20:1061–1073.
- Waterhouse JM, Nevill A, Finnegan J, Williams P, Edwards B, Kao SY, Reilly T. (2005). Further assessments of the relationship between jet lag and some of its symptoms. Chronobiol. Int. 22:121–136.
- Waterhouse JM, Reilly T, Atkinson G, Edwards B. (2007). Jet lag: trends and coping strategies. Lancet. 369:1117–1129.
- Wittmann M, Dinich J, Merrow M, Roenneberg T. (2006). Social jet lag: misalignment of biological and social time. Chronobiol. Int. 23:497–509.