BargerLKWrightKPHughesRJCzeislerCA (2004) Daily exercise facilitates phase delays of circadian melatonin rhythm in very dim light. Am J Physiol Regul Integr Comp Physiol286, R1077-R1084.
2.
BuxtonOMLeeCWL’Hermite-BaleriauxMTurekFWCauterEV (2003) Exercise elicits phase shifts and acute alterations of melatonin that vary with circadian phase. Am J Physiol Regul Integr Comp Physiol284, R714-R724.
3.
CzeislerCADuffyJFShanahanTLBrownENMitchellJFRimmerDWRondaJWSilvaEJAllanJSEmensJS, et al. (1999) Stability, precision, and near-24-hour period of the human circadian pacemaker. Science284:2177-2181.
4.
CzeislerCAShanahanTLKlermanEBMartensHBrotmanDJEmensJSKleinTRizzoJF (1995) Suppression of melatonin secretion in some blind patients by exposure to bright light. N Engl J Med332:6-11.
5.
EmensJSLaurieALSongerJBLewyAJ (2013) Non-24-hour disorder in blind individuals revisited: variability and the influence of environmental time cues. Sleep36:1091-1100.
6.
EmensJSSt HilaireMAKlermanEBBrotmanDJLinALLewyAJCzeislerCA (2022) Behaviorally and environmentally induced non–24-hour sleep-wake rhythm disorder in sighted patients. J Clin Sleep Med18:453-459.
7.
Flynn-EvansEETabandehHSkeneDJLockleySW (2014) Circadian rhythm disorders and melatonin production in 127 blind women with and without light perception. J Biol Rhythms29:215-224.
8.
HealyKLMorrisARLiuAC (2021) Circadian synchrony: sleep, nutrition, and physical activity. Front Netw Physiol1: 732243.
9.
HullJT (2009) Photic and nonphotic effects on the human circadian pacemaker: field and laboratory assessments in MLP blind individuals with and without circadian photoreception [PhD]. Surrey (UK): University of Surrey.
10.
HullJTCzeislerCALockleySW (2018) Suppression of melatonin secretion in totally visually blind people by ocular exposure to white light. Ophthalmology125:1160-1171.
11.
KasMJEdgarDM (2001) Scheduled voluntary wheel running activity modulates free-running circadian body temperature rhythms in octodon degus. J Biol Rhythms16:66-75.
12.
KlermanEB (2001) Non-photic effects on the circadian system: results from experiments in blind and sighted individuals. In: HonmaKHonmaS, editors. Zeitgebers, Entrainment and Masking of the Circadian System Entrainment and Masking of the Circadian System. Sapporo: Hokkaido University Press, p. 155-169.
13.
KlermanEBDijkDJKronauerRECzeislerCA (1996) Simulations of light effects on the human circadian pacemaker: implications for assessment of intrinsic period. Am J Physiol270:R271-282.
14.
KlermanEBRimmerDWDijkDJKronauerRERizzoJFCzeislerCA (1998) Nonphotic entrainment of the human circadian pacemaker. Am J Physiol274:R991-996.
15.
LockleySWDressmanMALicameleLXiaoCFisherDMFlynn-EvansEEHullJTTorresRLavedanCPolymeropoulosMH (2015) Tasimelteon for non-24-hour sleep-wake disorder in totally blind people (SET and RESET): two multicentre, randomised, double-masked, placebo-controlled phase 3 trials. Lancet386:1754-1764.
16.
LockleySWSkeneDJArendtJTabandehHBirdACDefranceR (1997) Relationship between Melatonin Rhythms and Visual Loss in the Blind. J Clin Endocrinol Metab82:3763-3770.
17.
SackRLLewyAJBloodMLKeithLDNakagawaH (1992) Circadian rhythm abnormalities in totally blind people: incidence and clinical significance. J Clin Endocrinol Metab75:127-134.
18.
ScheerFAJLWrightKPKronauerRECzeislerCA (2007) Plasticity of the Intrinsic Period of the Human Circadian Timing System. PLoS ONE2:e721.
19.
ShenBMaCWuGLiuHChenLYangG (2023) Effects of exercise on circadian rhythms in humans. Front Pharmacol14:1282357.
20.
St HilaireMAGooleyJJKhalsaSBSKronauerRECzeislerCALockleySW (2012) Human phase response curve to a 1 h pulse of bright white light. J Physiol590:3035-3045.
21.
St HilaireMAKlermanEBKhalsaSBSWrightKPCzeislerCAKronauerRE (2007) Addition of a non-photic component to a light-based mathematical model of the human circadian pacemaker. J Theor Biol247:583-599.
22.
TaylorSRWebbABSmithKSPetzoldLRDoyleFJ (2010) Velocity response curves support the role of continuous entrainment in circadian clocks. J Biol Rhythms25:138-149.
23.
UsmaniIMDijkDJSkeldonAC (2024) Mathematical analysis of light-sensitivity related challenges in assessment of the intrinsic period of the human circadian pacemaker. J Biol Rhythms39:166-182.
24.
WangWYuanRKMitchellJFZittingK-MSt HilaireMAWyattJKScheerFAJLWrightKPBrownENRondaJM, et al. (2023) Desynchronizing the sleep–wake cycle from circadian timing to assess their separate contributions to physiology and behaviour and to estimate intrinsic circadian period. Nat Protocol18:579-603.
25.
WrightKPHughesRJKronauerREDijkDJCzeislerCA (2001) Intrinsic near-24-h pacemaker period determines limits of circadian entrainment to a weak synchronizer in humans. Proc Natl Acad Sci USA98:14027-14032.
26.
ZeitzerJMDijkDJKronauerREBrownENCzeislerCA (2000) Sensitivity of the human circadian pacemaker to nocturnal light: melatonin phase resetting and suppression. J Physiol526:695-702.
