REFERENCES
- Atkinson G, Drust B, Reilly T, Waterhouse J. (2003). The relevance of melatonin to sports medicine and science. Sports Med. 33:809–831.
- Atkinson G, Edwards B, Reilly T, Waterhouse J. (2007). Exercise as a synchroniser of human circadian rhythms: An update and discussion of the methodological problems. Eur. J. Appl. Physiol. 99:331–341.
- Atkinson G, Fullicks, Grindey C, MacLaren D. (2008). Exercise, energy balance and the shift worker. Sports Med. 38:671–685.
- Banks WA, Coon AB, Robinson SM, Moinuddin A, Shultz JM, Nakaoke R, Moreley JE. (2004). Triglycerides induce leptin resistance at the blood-brain barrier. Diabetes 53:1253–1260.
- Biggi N, Consonni D, Galluzzo V, Sogliani M, Costa G. (2008). Metabolic syndrome in permanent night workers. Chronobiol. Int. 25:443–454.
- Bland JM, Altman DG. (1995). Calculating correlation coefficients with repeated observations, part 1: Correlation within subjects. BMJ 310:446.
- Broom DR, Stensel DJ, Bishop NC, Burns SF, Miyashita M. (2007). Exercise-induced suppression of acylated ghrelin in humans. J. Appl. Physiol. 102:2165–2171.
- Broom DR, Batterham RL, King JA, Stensel DJ. (2009). Influence of resistance and aerobic exercise on hunger, circulating levels of acylated ghrelin, peptide YY in healthy males. Am. J. Physiol. Regul. Integr. Comp. Physiol. 296:R29–R35.
- Cappiello V, Ronchi C, Morpurgo PS, Epaminonda P, Arosio M, Beck-Peccoz P, Spada A. (2002). Circulating ghrelin levels in basal conditions and during glucose tolerance test in acromegalic patients. Eur. J. Endocrinol. 147:189–194.
- Cnaan A, Laird NM, Slasor P. (1997). Using the general linear mixed model to analyse unbalanced repeated measures and longitudinal data. Stat. Med. 16:2349–2380.
- Dagogo-Jack S, Fanelli C, Paramore D, Brothers J, Landt M. (1996). Plasma leptin and insulin relationships in obese and nonobese humans. Diabetes 45:695–698.
- Dagogo-Jack S, Tykodi G, Umamaheswaran I. (2005). Inhibition of cortisol biosynthesis decreases circulating leptin levels in obese humans. J. Clin. Endocrinol. Metab. 90:5333–5335.
- Dill DB, Costill DL. (1974). Calculation of percentage changes in volumes of blood, plasma, and red cells in dehydration. J. Appl. Physiol. 37:247–248.
- Drust B, Waterhouse J, Atkinson G, Edwards B, Reilly T. (2005). Circadian rhythms in sports performance—an update. Chronobiol. Int. 22:21–44.
- Esquirol Y, Bougard V, Mabile L, Jonnier B, Soulat JM, Perret B. (2009). Shiftwork and metabolic syndrome: Respective impacts of job strain, physical activity, and dietary rhythms. Chronobiol. Int. 26:544–559.
- Fisher JS, Van Pelt RE, Zinder O, Landt M, Kohrt WM. (2001). Acute exercise effect on postabsorptive serum leptin. J. Appl. Physiol. 91:680–686.
- Folkard S. (2008). Do permanent night workers show circadian adjustment? A review based on the endogenous melatonin rhythm. Chronobiol. Int. 25:215–224.
- Gill J. (2004). Exercise and postprandial lipid metabolism—an analysis of the current evidence. Eur. J. Lipid Sci. Technol. 106:110–121.
- Gormsen LC, Gjedsted J, Gjedde S, Vestergaard ET, Christiansen JS, Jørgensen JO, Nielsen S, Møller N. (2006). Free fatty acids decrease circulating ghrelin concentrations in humans. Eur. J. Endocrinol. 154:667–673.
- Halaas JL, Gajiwala KS, Maffei M, Cohen SL, Chait BT, Rabinowitz D, Lallone RL, Burley SK, Friedman JM. (1995). Weight-reducing effects of the plasma protein encoded by the obese gene. Science 269:543–546.
- Holmbäck U, Forslund A, Forslund J, Hambraeus L, Lennernäs M, Lowden A, Stridsberg M, Åkerstedt T. (2002). Metabolic responses to nocturnal eating in men are affected by sources of dietary energy. J. Nutr. 132:1892–1899.
- Holmbäck U, Forslund A, Lowden A, Forslund J, Åkerstedt T, Lennernäs M, Hambraeus L, Stridsberg M. (2003a). Endocrine responses to nocturnal eating—possible implications for night work. Eur. J. Nutr. 42:75–83.
- Holmbäck U, Lowden A, Åkerfeldt T, Lennernäs M, Hambraeus L, Forslund J, Åkerstedt T, Stridsberg M, Forslund A. (2003b). The human body may buffer small differences in meal size and timing during 24-h wake period provided energy balance is maintained. J. Nutr. 2748–2755.
- Hulver MW, Houmard JA. (2003). Plasma leptin and exercise: Recent findings. Sports Med. 33:473–482.
- Kanaley JA, Weltman JY, Pieper KS, Weltman A, Hartman ML. (2001). Cortisol and growth hormone responses to exercise at different times of day. J. Clin. Endocrinol. Metab. 86:2881–2889.
- King NA, Blundell JE. (1995). High-fat foods overcome the energy expenditure induced by high-intensity cycling or running. Eur. J. Clin. Nutr. 49:114–123.
- King NA, Burley VJ, Blundell JE. (1994). Exercise-induced suppression of appetite: Effects on food intake and implications for energy balance. Eur. J. Clin. Nutr. 48:715–724.
- King NA, Lluch A, Stubbs RJ, Blundell JE. (1997). High dose exercise does not increase hunger or energy intake in free living males. Eur. J. Clin. Nutr. 51:478–483.
- Kraemer RR, Johnson LG, Haltom R, Kraemer GR, Hebert EP, Gimpel T, Castracane VD. (1999). Serum leptin concentrations in response to acute exercise in postmenopausal women with and without hormone replacement therapy. Proc. Soc. Exp. Biol. Med. 221:171–177.
- Laferrère B, Abraham C, Awad M, Jean-Baptiste S, Hart AB, Garcia-Lorda P, Kokkoris P, Russell CD. (2006). Inhibiting endogenous cortisol blunts the meal-entrained rise in serum leptin. J. Clin. Endocrinol. Metab. 91:2232–2238.
- Lluch A, King NA, Blundell JE. (1998). Exercise in dietary restrained women: No effect on energy intake but change in hedonic ratings. Eur. J. Clin. Nutr. 52:300–307.
- Malmström R, Taskinen MR, Karonen SL, Yki-Järvinen H. (1996). Insulin increases plasma leptin concentrations in normal subjects and patients with NIDDM. Diabetologia 39:993–996.
- Maraki M, Tsofliou F, Pitsiladis YP, Malkova D, Mutrie N, Higgins S. (2005). Acute effects of a single exercise class on appetite, energy intake and mood. Is there a time of day effect? Appetite 45:272–278.
- Möhlig M, Spranger J, Otto B, Ristow M, Tschöp M, Pfeiffer AF. (2002). Euglycemic hyperinsulinemia, but not lipid infusion, decreases circulating ghrelin levels in humans. J. Endocrinol. Invest. 25:RC36–RC38.
- Nakagawa E, Nagaya N, Okumura H, Enomoto M, Oya H, Ono F, Hosoda H, Kojima M, Kangawa K. (2002). Hyperglycaemia suppresses the secretion of ghrelin, a novel growth-hormone-releasing peptide: Responses to the intravenous and oral administration of glucose. Clin. Sci. (Lond.) 103:325–328.
- Portaluppi F, Touitou Y, Smolensky MH. (2008). Ethical and methodological standards for laboratory and medical biological rhythm research. Chronobiol. Int. 25:996–1016.
- Reeves SL, Newling-Ward E, Gissane C. (2004). The effect of shift-work on food intake and eating habits. Nutr. Food Sci. 34:216–221.
- Reinberg A, Migraine C, Apfelbaum M, Brigant L, Ghata J, Vieux N, Laporte A. (1979). Circadian and ultradian rhythms in the feeding behaviour and nutrient intakes of oil refinery operators with shift-work every 3–4 days. Diabetes Metab. 5:33–41.
- Ribeiro DC, Hampton SM, Morgan L, Deacon S, Arendt J. (1998). Altered postprandial hormone and metabolic responses in a simulated shift work environment. J. Endocrinol. 158:305–310.
- Romon M, Edme JL, Boulenguez C, Lescroart JL, Frimat P. (1993). Circadian variation of diet-induced thermogenesis. Am. J. Clin. Nutr. 57:476–480.
- Ryan AS, Elahi D. (1996). The effects of acute hyperglycemia and hyperinsulinemia on plasma leptin levels: Its relationships with body fat, visceral adiposity, and age in women. J. Clin. Endocrinol. Metab. 81:4433–4438.
- Scheer FA, Hilton MF, Mantzoros CS, Shea SA. (2009). Adverse metabolic and cardiovascular consequences of circadian misalignment. Proc. Natl. Acad. Sci. USA 106:4453–4458.
- Simon C, Weibel L, Brandenberger G. (2000). Twenty-four-hour rhythms of plasma glucose and insulin secretion rate in regular night workers. Am. J. Physiol. Endocrinol. Metab. 278:E413–E420.
- Suwazono Y, Dochi M, Sakata K, Okubo Y, Oishi M, Tanaka K, Kobayashi E, Kido T, Nogawa K. (2008). A longitudinal study on the effect of shift work on weight gain in male Japanese workers. Obesity 16:1887–1893.
- Suwazono Y, Dochi M, Oishi M, Tanaka K, Kobayashi E, Sakata M. (2009). Shiftwork and impaired glucose metabolism: A 14-year cohort study on 7104 male workers. Chronobiol. Int. 26:926–944.
- Thompson DA, Wolfe LA, Eikelboom R. (1988). Acute effects of exercise intensity on appetite in young men. Med. Sci. Sports. Exerc. 20:222–227.
- Trayhurn P, Hoggard N, Mercer JG, Rayner DV. (1998). Hormonal and neuroendocrinology regulation of energy balance—the role of leptin. Arch. Tierernahr. 51:177–185.
- U.S. Department of Labor, Bureau of Labor Statistics. (2005). Workers on flexible and shift schedules in May 2004. Available at: http://www.bls.gov/news.release/pdf/flex.pdf (accessed 5 April 2009).
- Utriainen T, Malmström R, Mäkimattila S, Yki-Järvinen H. (1996). Supraphysiological hyperinsulinemia increases plasma leptin concentrations after 4 h in normal subjects. Diabetes 45:1364–1366.
- van der Lely AJ, Tschöp M, Heiman ML, Ghigo E. (2004). Biological, physiological, pathophysiological, and pharmacological aspects of ghrelin. Endocr. Rev. 25:426–457.
- Vickers AJ, Altman DG. (2001). Analysing controlled trials with baseline and follow up measurements. BMJ 323:1123–1124.
- Weltman A, Pritzlaff CJ, Wideman L, Considline RV, Fryburg DA, Gutgesell ME, Hartman ML, Veldhuis JD. (2000). Intensity of acute exercise does not affect serum leptin concentrations in young men. Med. Sci. Sports. Exerc. 32:1556–1561.
- Westerterp-Plantenga MS, Verwegen CR, Ijedema MJ, Wijckmans NE, Saris WH. (1997). Acute effects of exercise or sauna on appetite in obese and nonobese men. Physiol. Behav. 62:1345–1354.
- Woods SC, Stein LJ, McKay LD, Porte DJr. (1984). Suppression of food intake by intravenous nutrients and insulin in the baboon. Am. J. Physiol. 247:R393–R401.
- Wren AM, Seal LJ, Cohen MA, Brynes AE, Frost GS, Murphy KG, Dhillo WS, Ghatei MA, Bloom SR. (2001). Ghrelin enhances appetite and increases food intake in humans. J. Clin. Endocrinol. Metab. 86:5992–5995.