REFERENCES
- Abe T, Mollicone D, Basner M, Dinges DF. (2014). Sleepiness and safety: Where biology needs technology. Sleep Biol Rhythms. 12:74–84
- Adrian J, Postal V, Moessinger M, et al. (2011). Personality traits and executive functions related to on-road driving performance among older drivers. Accid Anal Prev. 43:1652–9
- Akerstedt T, Folkard S. (1996). Predicting duration of sleep from the three process model of regulation of alertness. Occup Environ Med. 53:136–41
- Akerstedt T, Folkard S. (1997). The three-process model of alertness and its extension to performance, sleep latency, and sleep length. Chronobiol Int. 14:115–23
- Arboleda A, Morrow PC, Crum MR, Shelley MC II. (2003). Management practices as antecedents of safety culture within the trucking industry: Similarities and differences by hierarchical level. J Safety Res. 34:189–97
- Aschoff J, Wever R. (1981). The circadian system of man. In Aschoff J, ed. Handbook on behavioral neurobiology: Biological rhythms. London: Plenum, pp. 311–31
- Ashford R. (1998). A study of fatal approach-and-landing accidents worldwide, 1980–1986. Flight Safety Digest. 17:1–40
- Ashkenazi IE, Reinberg A, Bicakova-Rocher A, Ticher A. (1993). The genetic background of individual variations of circadian-rhythm periods in healthy human adults. Am J Hum Genet. 52:1250–9
- Balkin TJ, Horrey WJ, Graeber RC, et al. (2011). The challenges and opportunities of technological approaches to fatigue management. Accid Anal Prev. 43:565–72
- Basner M, Rubinstein J, Fomberstein KM, et al. (2008). Effects of night work, sleep loss and time on task on simulated threat detection performance. Sleep. 31:1251–9
- Benstaali C, Mailloux A, Bogdan A, et al. (2001). Circadian rhythms of body temperature and motor activity in rodents: Their relationships with the light–dark cycle. Life Sci. 68:2645–56
- Bjerner B, Holm A, Swensson A. (1955). Diurnal variations in mental performance. Br J Ind Med. 12:103–10
- Blatter K, Cajochen C. (2007). Circadian rhythms in cognitive performance: Methodological constraints, protocols, theoretical underpinnings. Physiol Behav. 90:196–208
- Bloch G, Barnes BM, Gerkema MP, Helm B. (2013). Animal activity around the clock with no overt circadian rhythms: Patterns, mechanisms and adaptive value. Proc Biol Sci. 280:1–9
- Borbély AA. (1982). A two process model of sleep regulation. Hum Neurobiol. 1:195–204
- Boyd DD. (2015). Causes and risk factors for fatal accidents in non-commercial twin engine piston general aviation aircraft. Accid Anal Prev. 77:113–19
- Brousse E, Forget C, Riedel M, et al. (2011). 24-hour rhythm in lag time of firemen when responding to calls for medical help. Chronobiol Int. 28:275–81
- Browne RC. (1949). The day and night performance in teleprinter switchboard operators. J Occup Psychol. 23:1–6
- Cajochen C, Münch M, Knoblauch V, et al. (2006). Age-related changes in the circadian and homeostatic regulation of human sleep. Chronobiol Int. 23:461–74
- Centers of Disease Prevention. Drowsy driving: Asleep at the wheel. Available from: http://www.cdc.gov/Features/dsDrowsyDriving/ [last accessed 26 Jan 2015]
- Chapotot F, Jouny C, Muzet A, et al. (2000). High frequency waking EEG: Reflection of a slow ultradian rhythm in daytime arousal. Neuroreport. 11:2223–7
- Chaumont A-J, Laporte A, Nicolai, A, Reinberg A. (1979). Adjustment of shift workers to a weekly rotation (Study 1). Chronobiologia. 6:27–34
- Chiew KS, Braver TS. (2014). Dissociable influences of reward motivation and positive emotion on cognitive control. Cogn Affect BehavNeurosci. 14:509–29
- Colquhoun WP. (1971). Circadian variations in mental efficiency. In Colquhoun WP, ed. Biological rhythms in human performances. London: Academic Press, pp. 39–107
- Connors MM. (1998). Teaming humans and automated systems in safely engineered environments. Life Support Biosph Sci. 5:453–60
- Conte S, Ferlazzo F, Renzi P. (1995). Ultradian rhythms of reaction times in performance in vigilance tasks. Biol Psychol. 39:159–72
- Cooper C, Taylor R. (1999). Personality and performance on a frustrating cognitive task. Percept Mot Skills. 88:1384
- Dawson D, Ian Noy Y, Härmä M, et al. (2011). Modeling fatigue and the use of fatigue models in work settings. Accid Anal Prev. 43:549–64
- De Prins J, Hecket B. (1992). Data processing in chronobiological studies. In Touitou Y, Haus E, eds. Biological rhythms in clinical and laboratory medicine. Berlin: Springer-Verlag, pp. 90–113
- De Prins J, Cornelissen G, Malbecq W. (1986). Statistical procedures in chronobiology and chronopharmacology. Ann Rev Chronopharmacol. 2:27–142
- Del Rio-Bermudez C, Diaz-Piedra C, Catena A, et al. (2014). Chronotype-dependent circadian rhythmicity of driving safety. Chronobiol Int. 31:532–41
- Dijk DJ, Duffy JF, Czeisler CA. (1992). Circadian and sleep/wake dependent aspects of subjective alertness and cognitive performance. J Sleep Res. 1:112–17
- Di Milia L, Smolensky MH, Costa G, et al. (2011). Demographic factors, fatigue, and driving accidents: An examination of the published literature. Accid Anal Prev. 43:516–32
- Dinges DF. (1995). An overview of sleepiness and accidents. J Sleep Res. 4:4–14
- Ekirch AR. (2001). Sleep we have lost: Pre-industrial slumber in the British Isles. Am Hist Rev. 106:343–86
- Ekirch AR. (2005). At day's close: Night in times past. New York: W. W. Norton & Company
- Escera C, Grau C. (1994). Ultradian rhythms in selective auditory attention performance. Int J Neurosci. 79:143–55
- Estonia Ferryboat Sinking. Available from: http://news.bbc.co.uk/onthisday/hi/dates/stories/september/28/newsid_2542000/2542093.stm [last accessed 9 April 2015]
- Fagioli I, Barbato G, Wehr TA. (2001). Dynamics of electroencephalographic slow wave activity and body temperature during monophasic and biphasic human sleep. Neurosci Lett. 298:83–6
- Flynn-Evans EE, Tabandeh H, Skene DJ, Lockley SW. (2014). Circadian rhythm disorders and melatonin production in 127 blind women with and without light perception. J Biol Rhythms. 29:215–24
- Folkard S. (1997). Black times: Temporal determinants of transport safety. Accid Anal Prev. 29:417–30
- Folkard S. (2000). Transport: Rhythm and blues. Available from: http://www.faa.gov/about/initiatives/maintenance_hf/library/documents/media/human_factors_maintenance/transport_rhythm_and_blues.pdf [last accessed 16 Jan 2015]
- Folkard S, Akerstedt T. (2004). Relative risk of accident and injury: Incidence across three shifts. Aviat Space Environ Med. 75:A161–7
- Folkard S, Monk TH. (1985). Hours of work: Temporal factors in work-scheduling. Chichester: John Wiley & Sons
- Folkard S, Wever RA, Wildgruber CM. (1983). Multi-oscillatory control of circadian rhythms in human performance. Nature. 305:223–6
- Folkard S, Akerstedt T, Macdonald I, et al. (1999). Beyond the three-process model of alertness: Estimating phase, time on shift, and successive night effects. J Biol Rhythms. 14:577–87
- Gander P, Hartley L, Powell D, et al. (2011). Fatigue risk management: Organizational factors at the regulatory and industry/company level. Accid Anal Prev. 43:573–90
- Gander PH, Mulrine HM, van den Berg MJ, et al. (2015). Effects of sleep/wake history and circadian phase on proposed pilot fatigue safety performance indicators. J Sleep Res. 24:110–19
- Gillooly P, Smolensky MH, Albright D, et al. (1990). Circadian variations in human performance evaluated by the Walter Reed Performance Assessment Battery. Chronobiol Int. 7:143–53
- Goel N, Basner M, Rao H, Dinges DF. (2013). Circadian rhythms, sleep deprivation, and human performance. Prog Mol Biol Transl Sci. 119:155–90
- Gordon HW, Stoffer DS, Lee PA. (1995). Ultradian rhythms in performance on tests of specialized cognitive function. Int J Neurosci. 83:199–211
- Goschke T, Bolte A. (2014). Emotional modulation of control dilemmas: The role of positive affect, reward, and dopamine in cognitive stability and flexibility. Neuropsychologia. 62:403–23
- Guilding C, Piggins HD. (2007).Challenging the omnipotence of the suprachiasmatic timekeeper: Are circadian oscillators present throughout the mammalian brain? Eur J Neurosci. 25:3195–216
- Halberg F. (1960). Temporal organization of physiologic functions. Cold Spring Harbor Symp Quant Biol. 23:289–310
- Halberg F, Reinberg A. (1967). Rythmes circadiens et rythmes de basses frequencies en physiologie humaine. J Physiol(Paris). 59:117–200
- Halberg F, Johnson EA, Nelson W, et al. (1972). Autorhythmometry – Procedures for physiologic self-measurements and their analysis. Physiol Teach. 1:1–11
- Harris W. (1977). Fatigue, circadian rhythms and truck accidents. In Mackie R, ed. Vigilance, operational performance and physiological correlates. New York: Plenum Press, pp. 133–46
- Hayashi M, Sato K, Hori T. (1994). Ultradian rhythms in task performance, self-evaluation, and EEG activity. Percept Mot Skills. 79:791–800
- Hildebrandt G, Rohmert W, Rutenfranz J. (1974). 12 and 24-hour rhythms in error frequency of locomotive drivers and the influence of tiredness. Chronobiol Int. 2:175–80
- Hobbs A, Williamson A, Van Dongen HPA. (2010). A circadian rhythm in skill-based errors in aviation maintenance. Chronobiol Int. 27:1304–16
- Hoc, JM. (2000). From human–machine interaction to human-machine cooperation. Ergonomics. 43:833–43
- Horne JA, Ostberg O. (1976). A self-assessment questionnaire to determine morningness–eveningness in human circadian rhythms. Int J Chronobiol. 4:97–110
- Horwitz IB, McCall BP. (2004). The impact of shift work on the risk and severity of injuries for hospital employees: An analysis using Oregon workers' compensation data. Occup Med (Lond). 54:556–63
- Iskra-Golec I. (2001). Ultradian rhythms in processing speed of laterally exposed words and pictures. J Hum Ergol (Tokyo). 30:241–4
- Iskra-Golec I, Smith L. (2011). Bright light effects on ultradian rhythms in performance on hemisphere-specific tasks. Appl Ergon. 42:256–60
- Johnson MP, Duffy JF, Dijk DJ, et al. (1992). Short-term memory, alertness and performance: A reappraisal of their relationship to body temperature. J Sleep Res. 1:24–9
- Kantermann T, Haubruge D, Skene D. (2013). The shift-work accident rate is more related to shift type than to shift rotation. Human Ecol Risk Assess. 19:1586–94
- Kleitman N. (1963). Sleep and wakefulness. Chicago: Chicago University Press
- Kleitman N. (1967a). The basic rest-activity cycle and physiological correlates of dreaming. Exp Neurol. 4:2–4
- Kleitman N. (1967b). Phytogenetic, ontogenetic and environmental determinants in the evolution of sleep-wakefulness cycles. Res Publ Assoc Res Nerv Ment Dis. 45:30–8
- Kleitman N. (1982). Basic rest-activity cycle–22 years later. Sleep. 5:311–17
- Knight M, Mather M. (2013). Look out-it's your off-peak time of day! Time of day matters more for alerting than for orienting or executive attention. Exp Aging Res. 39:305–21
- Koukkari WL, Sothern RB. (2006). Introducing biological rhythms. New York: Springer
- Kumari V, Ffytche DH, Williams SC, Gray JA. (2004). Personality predicts brain responses to cognitive demands. J Neurosci. 24:10636–41
- Kurvers RHJM, Hölker F. (2015). Bright nights and social interactions: A neglected issue. Behav Ecol. 26:334–9
- Lac-Mégantic freight train derailment, Quebec, Canada. Available from: http://www.ntsb.gov/safety/safety-recs/recletters/R-14-001-003.pdf [last accessed 19 March 2015]
- Langlois PH, Smolensky MH, Hsi BP, Weir FW. (1985). Temporal patterns of reported single-vehicle car and truck accidents in Texas, USA during 1980–1983. Chronobiol Int. 2:131–40
- Lavie P. (1979). Ultradian rhythms in alertness – A pupillometric study. Biol Psychol. 9:49–62
- Lavie P. (1989). Ultradian rhythms in arousal – The problem of masking. Chronobiol Int. 6:21–8
- Lavie P. (1991). The 24-hour sleep propensity function (SPF): Practical and theoretical implications. In Monk TH, ed. Sleep, sleepiness and performance. Chichester: John Wiley & Sons, pp. 65–93
- Lenior D, Janssen W, Neerincx M, Schreibers K. (2006). Human-factors engineering for smart transport: Design support for car drivers and train traffic controllers. Appl Ergon. 37:479–90
- Lev D, Hershkovitz E, Yechiam E. (2008). Decision making and personality in traffic offenders: A study of Israeli drivers. Accid Anal Prev. 40:223–30
- Li C-Y, Sung F-C. (1999). A review of the healthy worker effect in occupational epidemiology. Occup Med. 49:225–9
- Li G, Baker SP. (1999). Correlates of pilot fatality in general aviation crashes. Aviat Space Environ Med. 70:305–9
- Lockley SW, Skene DJ, Butler LJ, Arendt J. (1999). Sleep and activity rhythms are related to circadian phase in the blind. Sleep. 22:616–23
- Lombardi DA, Jin K, Courtney TK, et al. (2014). The effects of rest breaks, work shift start time, and sleep on the onset of severe injury among workers in the People's Republic of China. Scand J Work Environ Health. 40:146–55
- Marquié JC, Tucker P, Folkard S, et al. (2014). Chronic effects of shift work on cognition: Findings from the VISATlongitudinal study. Occup Environ Med. 72:258–64
- Mitler MM, Carskadon MA, Czeisler CA, et al. (1988). Catastrophes, sleep and public policy: Consensus report. Sleep. 11:100–9
- Monk TH, Buysse DJ. (2014). Chronotype, bed timing and total sleep time in seniors. Chronobiol Int. 31:655–9
- Motohashi Y, Reinberg A, Ashkenazi IE, Bicakova-Rocher A. (1995). Genetic aspects of circadian dyschronism: Comparison between Asiatic-Japanese and Caucasian-French populations. Chronobiol Int. 12:324–32
- Nanthavanij S, Yenradee P, Techapichetvanich K. (1995). An intelligent safety feature for AGV's economic operations: A simulation analysis. J Hum Ergol (Tokyo). 24:73–80
- National Sleep Foundation. The pledge against drowsy driving. Available from: http://www.sleepfoundation.org/drowsy-driving-advocacy [last accessed 26 Jan 2015]
- Nelson W, Tong YL, Lee JK, Halberg F. (1979). Methods for cosinor rhythmometry. Chronobiologia. 6:305–23
- Neubauer C, Matthews G, Langheim L, Saxby D. (2012). Fatigue and voluntary utilization of automation in simulated driving. Hum Factors. 54:734–46
- Novak RD, Smolensky MH, Fairchild EJ, Reves RR. (1990). Shift work and industrial injuries at a chemical plant in southeast Texas. Chronobiol Int. 7:155–64
- Parks DK, Yetman RJ, McNess MC, et al. (2000). Day-night patterns in accidental exposure to blood-borne pathogens among medical students and residents. Chronobiol Int. 17:61–70
- Partch CL, Green CB, Takahashi JS. (2014). Molecular architecture of the mammalian circadian clock. Trends Cell Biol. 24:90–9
- Price WJ, Holley DC. (1981). The last minutes of flight 2860: an analysis of the crew shift-work scheduling. In Reinberg A, Vieux N, Andlauer P, eds. Night and shift work: biological and social aspects. Oxford: Pergamon Press, pp. 287–94
- Prokop O, Prokop L. (1955). Fatigue and falling asleep at the steering wheel. Deut Zeits Ges Gericht Med. 44:343–55
- Reinberg A, Ed. (1979). Chronobiological field studies on oil refinery operators. Chronobiologia. 61:120pp
- Reinberg A. (1993). Les rythmesbiologiques. Chronobiologie. “Que-sais-je?” 27th ed., Paris: PUF
- Reinberg A., Ed. (2003a). Chronobiologie médicale, chronothérapeutique. 2nd ed. Paris: Médecine – Science, Flammarion
- Reinberg, A. (2003b). Heuresnoires: Rythme du risque des accidents. In Reinberg A, ed. Chronobiologiemédicale, chronothérapeutique, 2nd ed. Paris: Médecine-Sciences, Flammarion, pp. 263–74
- Reinberg A. (2010). Les rythmes biologiques. In Doumet C, Wald Lasowski A, eds. Rythmes de l'hommeetrythmes du monde. Paris: Hermann, pp. 127–9
- Reinberg A, Ashkenazi I. (2003). Concepts in human biological rhythms. Dialog Clin Neurosci. 5:327–42
- Reinberg A, Smolensky MH. (1983). Biological rhythms in medicine. Berlin: Springer-Verlag
- Reinberg A, Smolensky MH. (1985). Chonobiologic considerations on the Bhopal methyl isocyanate disaster. Chronobiol Int. 2:61–2
- Reinberg A, Touitou Y. (1996). Synchronisation et dyschronisme des rythmes circadiens humains. Pathol Biol. 44:487–95
- Reinberg A, Proux S, Bartal JP, et al. (1985). Circadian rhythms in competitive SABRE fencers: Internal desynchronization and performance. Chronobiol Int. 2:195–201
- Reinberg A, Bicakova-Rocher A, Nouguier J, et al. (1997). Circadian rhythm period in reaction time to light signals: Difference between right- and left-hand side. Cogn Brain Res. 6:135–40
- Reinberg AE, Ashkenazi I, Smolensky MH. (2007). Euchronism, allochronism and dyschronism. Is internal desynchronization of human circadian rhythms a sign of illness? Chronobiol Int. 24:553–8
- Reinberg A, Riedel M, Brousse E, et al. (2013). Circadian time organization of professional firemen: Desynchronization - tau differing from 24.0h – documented by longitudinal self-assessment of 16 variables. Chronobiol Int. 30:1050–65
- Reinberg O, Reinberg A, Mechkouri M. (2005). 24-Hour, weekly, and annual patterns in traumatic and non-traumatic surgical pediatric emergencies. Chronobiol Int. 22:353–81
- Riedel M, Berrez S, Pelisse D, et al. (2011). 24-Hour pattern of work-related injury risk of French firemen: Nocturnal peak time. Chronobiol Int. 28:697–705
- Roenneberg T, Kantermann T, Juda M, et al. (2013). Light and the human circadian clock. Handb Exp Pharmacol. 217:311–31
- Rose DM, Jung D, Parera D, Konietzko J. (1999). Time zone shifts and jet lag after long-distance flights. Z Arztl Fortbild Qualitatssich. 93:485–90
- Rybak J, Ashkenazi IE, Klepfish A, et al. (1983). Diurnal rhythmicity and air force flight accidents due to pilot error. Aviat Space Environ Med. 54:1096–9
- Sandman CA. (1975). Physiological responses during escape and non-escape from stress in field independent and field dependent subjects. Biol Psychol. 2:205–16
- Sandoz Chemical Pollution. Available from: http://news.bbc.co.uk/onthisday/hi/dates/stories/november/1/newsid_4679000/4679789.stm [last accessed 29 April 2015]
- Saper CB. (2013). The central circadian timing system. Curr Opin Neurobiol. 23:747–51
- Shub Y, Ashkenazi IE, Reinberg A. (1997). Difference between left- and right-hand reaction time rhythms; indications of shifts in strategies of human brain activity. Cogn Brain Res. 6:141–6
- Shub Y, Lewy H, Ashkenazi IE. (2001). Circadian pattern of simulated flight performance of pilots is derived from ultradian components. Chronobiol Int. 18:987–1003
- Siffre M. (1964). Beyond time. New York: McGraw Hill
- Siffre M, Reinberg A, Halberg F, et al. (1966). Prolonged subterranean isolation: Study of 2 healthy adult subjects before, during and after this isolation (French). Presse Med. 74:915–19
- Smith L, Folkard S, Poole CJ. (1994). Increased injuries on night shift. Lancet. 344:1137–9
- Smolensky MH, Lamberg L. (2000). The body clock guide for better health. New York: Henry Holt & Co
- Smolensky MH, Di Milia L, Ohayon M, Philip P. (2011). Sleep disorders, medical conditions, and road accidents. Accid Anal Prev. 43:533–48
- Smolensky MH, Portaluppi F, Manfredini R, et al. (2015a). Diurnal and twenty-four-hour patterning of human diseases: Cardiac, vascular, and respiratory diseases, conditions and syndromes. Sleep Med Rev. 21:3–11
- Smolensky MH, Portaluppi F, Manfredini R, et al. (2015b). Diurnal and twenty-four-hour patterning of human diseases: Acute and chronic common and uncommon medical conditions. Sleep Med Rev. 21:12–22
- Ticher A, Ashkenazi IE, Reinberg A. (1995). Preservation of the functional advantage of human time structure. FASEB J. 9:269–72
- Tinajero C, Páramo MF, Cadaveira F, Rodriguez-Holguin S. (1993). Field dependence-independence and brain organization: The confluence of two different ways of describing general forms of cognitive functioning? A theoretical review. Percept Mot Skills. 77:787–802
- Touitou Y. (2013). Adolescent sleep misalignment: A chronic jet lag and a matter of public health. J Physiol (Paris). 107:323–6
- Touitou Y, Haus E., eds. (1992). Biological rhythms in clinical and laboratory medicine. Berlin: Springer-Verlag
- Tsuji Y, Kobayashi T. (1988). Short and long ultradian EEG components in daytime arousal. Electroencephalogr Clin Neurophysiol. 70:110–17
- Van Dongen HP. (2006). Shift work and inter-individual differences in sleep and sleepiness. Chronobiol Int. 23:1139–47
- Van Dongen HP, Maislin G, Dinges DF. (2004). Dealing with inter-individual differences in the temporal dynamics of fatigue and performance: Importance and techniques. Aviat Space Environ Med. 75:A147–54
- Vetter C, Juda M, Roenneberg T. (2012). The influence of internal time, time awake, and sleep duration on cognitive performance in shiftworkers. Chronobiol Int. 29:1127–38
- Vieux N, Ghata J, Laporte A, et al. (1979). Adjustment of shift workers adhering to a three- to four-day rotation (study 2). Chronobiologia. 61:37–42
- Webster’s New World College Dictionary, 3rd ed. (1997). V. Neufeldt (Ed. in chief) & DB Guralnik (Ed. in chief emeritus). New York: MacMillan, p. 8
- Wever RA. (1979). The circadian system of man. New York: Springer-Verlag
- Wehr TA. (1992). In short photoperiods, human sleep is biphasic. J Sleep Res. 1:103–7
- Wehr TA, Aeschbach D, Duncan WC Jr. (2001). Evidence for a biological dawn and dusk in the human circadian timing system. J Physiol. 535:937–51
- Whiddy Island Disaster. Available from: https://stairnaheireann.wordpress.com/2014/01/08/1979-the-tanker-betelgeuse-explodes-in-bantry-bay-co-cork/ [last accessed 1 May 2015]
- Williamson AM. (1995). Neurobehavioural test batteries: Current status, critical evaluation and new directions. Toxicol Lett. 82–83:203–9
- Williamson AM, Feyer AM. (1995). Causes of accidents and time of day. Work Stress. 9:158–64
- Williamson A, Lombardi DA, Folkard S, et al. (2011). The link between fatigue and safety. Accid Anal Prev. 43:498–515
- Witkin HA, Goodenough DR. (1981). Field dependence and field independence cognitive styles: Essence and origins. New York: International Universities Press
- Wright KP Jr, Hull JT, Czeisler CA. (2002). Relationship between alertness, performance, and body temperature in humans. Am J Physiol Regul Integr Comp Physiol. 283:R1370–7