Abstract
We spend a third of our lives sleeping, a behavioral state that typically requires the person to lie recumbent in the dark with eyes closed, in a comfortable, quiet, and safe location. If evolutionary processes, spanning millions of years, are responsible for fine-tuning our adaptive advantage, then it stands to reason that sleep must be an evolved adaptation important for the survival (and health) of all mammalian species. Since the 1950s, when the different stages of sleep were first identified, enormous intellectual and physical resources have been dedicated to the task of identifying a function (or set of functions) for sleep and to better understand why sleep is so important for general health. Prominent among the many scientific hypotheses of sleep function are whether (and how) sleep serves a basic restorative function, a memory/cognition function, and/or a general health function. In contrast to these health-oriented hypotheses of sleep function is the reality that lost and disrupted sleep promote their own set of negative health outcomes. This chapter will describe what is known about healthy sleep, disrupted sleep, and sleep loss and their general effects on cognitive and physical health. An efficient, practical clinical assessment of sleep quality and quantity and the approach to sleep interventions are also described.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Almeida CM, Malheiro A. Sleep, immunity and shift workers: a review. Sleep Sci. 2016;9(3):164–8.
Banks S, Dinges DF. Behavioral and physiological consequences of sleep restriction. J Clin Sleep Med. 2007;3(5):519–28.
Baum KT, Desai A, et al. Sleep restriction worsens mood and emotion regulation in adolescents. J Child Psychol Psychiatry. 2014;55(2):180–90.
Bent S, Padula A, et al. Valerian for sleep: a systematic review and meta-analysis. Am J Med. 2006;119(12):1005–12.
Berger RJ, Phillips NH. Energy conservation and sleep. Behav Brain Res. 1995;69(1–2):65–73.
Bliwise DL. Sleep in normal aging and dementia. Sleep. 1993;16(1):40–81.
Broussard JL, Kilkus JM, et al. Elevated ghrelin predicts food intake during experimental sleep restriction. Obesity (Silver Spring). 2016a;24(1):132–8.
Broussard JL, Wroblewski K, et al. Two nights of recovery sleep reverses the effects of short-term sleep restriction on diabetes risk. Diabetes Care. 2016b;39(3):e40–1.
Burgess HJ, Sharkey KM, Eastman CI. Bright light, dark, and melatonin can promote circadian adaptation in night shift workers. Sleep Med Rev. 2002;6:407–20.
Buysse DJ, Reynolds CF 3rd, et al. The Pittsburgh Sleep Quality Index: a new instrument for psychiatric practice and research. Psychiatry Res. 1989;28(2):193–213.
Buzsaki G. The hippocampo-neocortical dialogue. Cereb Cortex. 1996;6(2):81–92.
Cajochen C, Krauchi K, et al. Role of melatonin in the regulation of human circadian rhythms and sleep. J Neuroendocrinol. 2003;15(4):432–7.
Corkin S. What’s new with the amnesic patient H.M.? Nat Rev Neurosci. 2002;3(2):153–60.
Cunnington D. Non-benzodiazepine hypnotics: do they work for insomnia? BMJ. 2012;346:e8699.
Daley C, McNiel DE, et al. “I did what?” Zolpidem and the courts. J Am Acad Psychiatry Law. 2011;39(4):535–42.
Dement W. The effect of dream deprivation. Science. 1960;131(3415):1705–7.
Diekelmann S, Wilhelm I, et al. The whats and whens of sleep-dependent memory consolidation. Sleep Med Rev. 2009;13(5):309–21.
Drager LF, McEvoy RD, et al. Sleep apnea and cardiovascular disease: lessons from recent trials and need for team science. Circulation. 2017;136(19):1840–50.
Duffy JF, Willson HJ, et al. Healthy older adults better tolerate sleep deprivation than young adults. J Am Geriatr Soc. 2009;57(7):1245–51.
Dumoulin Bridi MC, Aton SJ, et al. Rapid eye movement sleep promotes cortical plasticity in the developing brain. Sci Adv. 2015;1(6):e1500105.
Dworak M, McCarley RW, et al. Sleep and brain energy levels: ATP changes during sleep. J Neurosci. 2010;30(26):9007–16.
Endo T, Schwierin B, et al. Selective and total sleep deprivation: effect on the sleep EEG in the rat. Psychiatry Res. 1997;66(2–3):97–110.
Eriksen CA, Gillberg M, et al. Sleepiness and sleep in a simulated “six hours on/six hours off” sea watch system. Chronobiol Int. 2006;23(6):1193–202.
Fitzgerald MP, Litman HJ, et al. The association of nocturia with cardiac disease, diabetes, body mass index, age and diuretic use: results from the BACH survey. J Urol. 2007;177(4):1385–9.
Fogel SM, Smith CT. The function of the sleep spindle: a physiological index of intelligence and a mechanism for sleep-dependent memory consolidation. Neurosci Biobehav Rev. 2011;35(5):1154–65.
Frank MG. Sleep and developmental plasticity not just for kids. Prog Brain Res. 2011;193:221–32.
Hasselmo ME. Neuromodulation: acetylcholine and memory consolidation. Trends Cogn Sci. 1999;3(9):351–9.
Hedner J, Yaeche R, et al. Zaleplon shortens subjective sleep latency and improves subjective sleep quality in elderly patients with insomnia. The Zaleplon Clinical Investigator Study Group. Int J Geriatr Psychiatry. 2000;15(8):704–12.
Huedo-Medina TB, Kirsch I, et al. Effectiveness of non-benzodiazepine hypnotics in treatment of adult insomnia: meta-analysis of data submitted to the Food and Drug Administration. BMJ. 2012;345:e8343.
Ibarra-Coronado EG, Pantaleon-Martinez AM, et al. The bidirectional relationship between sleep and immunity against infections. J Immunol Res. 2015;2015:678164.
Irish LA, Kline CE, et al. The role of sleep hygiene in promoting public health: a review of empirical evidence. Sleep Med Rev. 2015;22:23–36.
Irwin MR. Why sleep is important for health: a psychoneuroimmunology perspective. Annu Rev Psychol. 2015;66:143–72.
Irwin MR, Opp MR. Sleep health: reciprocal regulation of sleep and innate immunity. Neuropsychopharmacology. 2017;42(1):129–55.
Jacobs BP, Bent S, et al. An internet-based randomized, placebo-controlled trial of kava and valerian for anxiety and insomnia. Medicine (Baltimore). 2005;84(4):197–207.
Johns MW. A new method for measuring daytime sleepiness: the Epworth sleepiness scale. Sleep. 1991;14(6):540–5.
Khalsa SB, Jewett ME, et al. A phase response curve to single bright light pulses in human subjects. J Physiol. 2003;549(Pt 3):945–52.
Knutson KL. Impact of sleep and sleep loss on glucose homeostasis and appetite regulation. Sleep Med Clin. 2007;2(2):187–97.
Krause AJ, Simon EB, et al. The sleep-deprived human brain. Nat Rev Neurosci. 2017;18(7):404–18.
Kushida CA, Bergmann BM, et al. Sleep deprivation in the rat: IV. Paradoxical sleep deprivation. Sleep. 1989;12(1):22–30.
Lee AK, Wilson MA. Memory of sequential experience in the hippocampus during slow wave sleep. Neuron. 2002;36(6):1183–94.
Li W, Ma L, et al. REM sleep selectively prunes and maintains new synapses in development and learning. Nat Neurosci. 2017;20(3):427–37.
Lo JC, Ong JL, et al. Cognitive performance, sleepiness, and mood in partially sleep deprived adolescents: the need for sleep study. Sleep. 2016;39(3):687–98.
Mander BA, Winer JR, et al. Sleep and human aging. Neuron. 2017;94(1):19–36.
Marks GA, Shaffery JP, et al. A functional role for REM sleep in brain maturation. Behav Brain Res. 1995;69(1–2):1–11.
Morgenstern M, Wang J, et al. Obstructive sleep apnea: an unexpected cause of insulin resistance and diabetes. Endocrinol Metab Clin North Am. 2014;43(1):187–204.
Morgenthaler TI, Hashmi S, et al. High school start times and the impact on high school students: what we know, and what we hope to learn. J Clin Sleep Med. 2016;12(12):1681–9.
Nishida M, Pearsall J, et al. REM sleep, prefrontal theta, and the consolidation of human emotional memory. Cereb Cortex. 2009;19(5):1158–66.
Plihal W, Born J. Effects of early and late nocturnal sleep on declarative and procedural memory. J Cogn Neurosci. 1997;9(4):534–47.
Porcu S, Casagrande M, et al. Sleep and alertness during alternating monophasic and polyphasic rest-activity cycles. Int J Neurosci. 1998;95(1–2):43–50.
Rajan P, Greenberg H. Obstructive sleep apnea as a risk factor for type 2 diabetes mellitus. Nat Sci Sleep. 2015;7:113–25.
Rechtschaffen A. Current perspectives on the function of sleep. Perspect Biol Med. 1998;41(3):359–90.
Rechtschaffen A, Bergmann BM, et al. Sleep deprivation in the rat: X. Integration and discussion of the findings. 1989. Sleep. 2002;25(1):68–87.
Reynolds AC, Banks S. Total sleep deprivation, chronic sleep restriction and sleep disruption. Prog Brain Res. 2010;185:91–103.
Roffwarg HP, Muzio JN, et al. Ontogenetic development of the human sleep-dream cycle. Science. 1966;152(3722):604–19.
Schmid SM, Hallschmid M, et al. The metabolic burden of sleep loss. Lancet Diabetes Endocrinol. 2015;3(1):52–62.
Schrimpf M, Liegl G, et al. The effect of sleep deprivation on pain perception in healthy subjects: a meta-analysis. Sleep Med. 2015;16(11):1313–20.
Scoville WB, Milner B. Loss of recent memory after bilateral hippocampal lesions. J Neurol Neurosurg Psychiatry. 1957;20(1):11–21.
Shapiro CM, Goll CC, et al. Heat production during sleep. J Appl Physiol Respir Environ Exerc Physiol. 1984;56(3):671–7.
Spiegel K, Knutson K, et al. Sleep loss: a novel risk factor for insulin resistance and type 2 diabetes. J Appl Physiol (1985). 2005;99(5):2008–19.
Stepanski EJ, Wyatt JK. Use of sleep hygiene in the treatment of insomnia. Sleep Med Rev. 2003;7(3):215–25.
Taheri S, Lin L, et al. Short sleep duration is associated with reduced leptin, elevated ghrelin, and increased body mass index. PLoS Med. 2004;1(3):e62.
Tononi G, Cirelli C. Sleep function and synaptic homeostasis. Sleep Med Rev. 2006;10(1):49–62.
Urry E, Landolt HP. Adenosine, caffeine, and performance: from cognitive neuroscience of sleep to sleep pharmacogenetics. Curr Top Behav Neurosci. 2015;25:331–66.
van Cauter E, Leproult R, et al. Age-related changes in slow wave sleep and REM sleep and relationship with growth hormone and cortisol levels in healthy men. JAMA. 2000;284(7):861–8.
van Cauter E, Holmback U, et al. Impact of sleep and sleep loss on neuroendocrine and metabolic function. Horm Res. 2007;67(Suppl 1):2–9.
van der Helm E, Walker MP. Sleep and emotional memory processing. Sleep Med Clin. 2011;6(1):31–43.
Walker MP, Brakefield T, et al. Practice with sleep makes perfect: sleep-dependent motor skill learning. Neuron. 2002;35(1):205–11.
Williamson AM, Feyer AM. Moderate sleep deprivation produces impairments in cognitive and motor performance equivalent to legally prescribed levels of alcohol intoxication. Occup Environ Med. 2000;57(10):649–55.
Yurcheshen M, Seehuus M, et al. Updates on nutraceutical sleep therapeutics and investigational research. Evid Based Complement Alternat Med. 2015;2015:105256.
Zepelin H. Mammalian sleep. In: Kryger R, Dement WC, editors. Principles and practice of sleep medicine. Philadelphia: W.B. Saunders Company; 2000. p. 82–92.
Zhang XM, Shi J, et al. The effect of obstructive sleep apnea syndrome on growth and development in nonobese children: a parallel study of twins. J Pediatr. 2015;166(3):646–50 e641.
Zielinski MR, McKenna JT, et al. Functions and mechanisms of sleep. AIMS Neurosci. 2016;3(1):67–104.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2020 Springer Nature Switzerland AG
About this chapter
Cite this chapter
Tucker, M.A. (2020). The Value of Sleep for Optimizing Health. In: Uribarri, J., Vassalotti, J. (eds) Nutrition, Fitness, and Mindfulness. Nutrition and Health. Humana, Cham. https://doi.org/10.1007/978-3-030-30892-6_14
Download citation
DOI: https://doi.org/10.1007/978-3-030-30892-6_14
Published:
Publisher Name: Humana, Cham
Print ISBN: 978-3-030-30891-9
Online ISBN: 978-3-030-30892-6
eBook Packages: MedicineMedicine (R0)