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Neuropsychological Effects of Sleep Loss: Implication for Neuropsychologists

Published online by Cambridge University Press:  04 May 2011

Flavie Waters*
Affiliation:
Centre for Clinical Research in Neuropsychiatry, Graylands Hospital, Perth, Western Australia and School of Psychiatry and Clinical Neurosciences, The University of Western Australia, Perth, Western Australia
Romola S. Bucks
Affiliation:
School of Psychology, The University of Western Australia, Perth, Western Australia
*
Correspondence and reprint requests to: Flavie Waters, Centre for Clinical Research in Neuropsychiatry, Graylands Hospital, Mail Bag No 1, Claremont, Perth, 6910, Australia. E-mail: [email protected]

Abstract

There is rapidly accumulating evidence of a close relationship between sleep loss and cognition. Neuropsychologists need to become aware of this body of knowledge as the effects of sleep loss on brain functions are significant. The current study (a) outlines the extent to which insufficient sleep affects performance on cognitive tasks in otherwise healthy people, (b) discusses the relationship between sleep and neurocognitive disorders, and (c) highlights key issues that merit consideration for neuropsychologists. This review shows that sleep loss has a measurable impact on performance through decreases in cognitive functions and effects on biological pathways that support cognitive performance. Sleep loss reliably produces reductions in speed of processing and attention. Higher order cognitive functions are affected to a lesser extent, and there is sparing on tasks of crystallized abilities. Deficits worsen with increasing time awake, but may be overturned after normal sleep is resumed. The review also shows that sleep disorders are a major feature of neuropsychological conditions contributing to the pattern of cognitive impairment. Overall, neuropsychologists must be alert to sleep problems in their clients, so that sleep interventions, or referrals, are put in place in the rehabilitation plan of individuals with cognitive dysfunctions. Recommendations also include routine screening of sleep as part of cognitive assessment. (JINS, 2011, 17, 571–586)

Type
Critical Review
Copyright
Copyright © The International Neuropsychological Society 2011

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References

REFERENCES

Alvarenga, T.A., Patti, C.L., Andersen, M.L., Silva, R.H., Calzavara, M.B., Lopez, G.B., Tufik, S. (2008). Paradoxical sleep deprivation impairs acquisition, consolidation, and retrieval of a discriminative avoidance task in rats. Neurobiology, Learning and Memory, 90(4), 624632.CrossRefGoogle ScholarPubMed
Baglioni, C., Spiegelhalder, K., Lombardo, C., Riemann, D. (2010). Sleep and emotions: A focus on insomnia. Sleep Medicine Reviews, 14(4), 227238.CrossRefGoogle ScholarPubMed
Ban, D.J., Lee, T.J. (2001). Sleep duration, subjective sleep disturbances and associated factors among university students in Korea. Journal of Korean Medicine and Science, 16, 475480.CrossRefGoogle ScholarPubMed
Banks, S., Dinges, D.F. (2007). Behavioral and physiological consequences of sleep restriction. Journal of Clinical Sleep Medicine, 3(5), 519528.CrossRefGoogle ScholarPubMed
Bamer, A., Johnson, K., Amtmann, D., Kraft, G.H. (2008). Prevalence of sleep problems in individuals with multiple sclerosis. Multiple Sclerosis, 14, 11271130.CrossRefGoogle ScholarPubMed
Bartel, P., Offermeier, W., Smith, F., Becker, P. (2004). Attention and working memory in resident anaesthetists after night duty: Group and individual effects. Occupational and Environmental Medicine, 61, 170176.CrossRefGoogle ScholarPubMed
Baumann, C.R., Werth, E., Stocker, R. (2007). Sleep-wake disturbances 6 months after TBI: A prospective study. Brain, 130, 18731883.CrossRefGoogle ScholarPubMed
Beebe, D.W., Difrancesco, M.W., Tlustos, S.J., McNally, K.A., Holland, S.K. (2009). Preliminary fMRI findings in experimentally sleep-restricted adolescents engaged in a working memory task. Behavior and Brain Functions, 5, 9.CrossRefGoogle Scholar
Beebe, D.W., Gozal, D. (2002). Obstructive sleep apnea and the prefrontal cortex: Towards a comprehensive model linking nocturnal upper airway obstruction to daytime cognitive and behavioral deficits. Journal of Sleep Research, 11(1), 116.CrossRefGoogle ScholarPubMed
Belenky, G., Wesensten, N.J., Thorne, D.R., Thomas, M.L., Sing, H.C., Redmond, D.P., Balkin, T.J. (2003). Patterns of performance degradation and restoration during sleep restriction and subsequent recovery: A sleep dose-response study. Journal of Sleep Research, 12(1), 112.CrossRefGoogle ScholarPubMed
Binks, P.G., Waters, W.F., Hurry, M. (1999). Short-term total sleep deprivations does not selectively impair higher cortical functioning. Sleep, 22(3), 328334.CrossRefGoogle Scholar
Blagrove, M., Alexander, C., Horne, J. (1995). The effects of chronic sleep reduction on the performance of cognitive tasks sensitive to sleep deprivation. Applied Cognitive Psychology, 9, 2140.CrossRefGoogle Scholar
Blatter, K., Graw, P., Munch, M., Knoblauch, V., Wirz-Justice, A., Cajochen, C. (2006). Gender and age differences in psychomotor vigilance performance under differential sleep pressure conditions. Behavioural Brain Research, 168(2), 312317.CrossRefGoogle ScholarPubMed
Blatter, K., Opwis, K., Munch, M., Wirz-Justice, A., Cajochen, C. (2005). Sleep loss-related decrements in planning performance in healthy elderly depend on task difficulty. Journal of Sleep Research, 14, 409417.CrossRefGoogle ScholarPubMed
Bliwise, D. (2004). Sleep disorders in Alzheimer's disease and other dementias. Clinical Cornerstone, 6(1), S16S28.CrossRefGoogle ScholarPubMed
Bloom, H.G., Ahmed, I., Alessi, C.A., Ancoli-Israel, S., Buysse, D.J., Kryger, M.H., Zee, P.C. (2009). Evidence-based recommendations for the assessment and management of sleep disorders in older persons. Journal of American Geriatric Society, 57(5), 761789.CrossRefGoogle ScholarPubMed
Bruni, O., Ottaviano, S., Guidetti, V., Romoli, M., Innocanzi, M., Cortesi, F., Giannotti, F. (1996). The Sleep Disturbance Scale for Children (SDSC) Construction and validation of an instrument to evaluate sleep disturbances in childhood and adolescence. Journal of Sleep Research, 5, 251261.CrossRefGoogle ScholarPubMed
Buysse, D.J., Monk, T.H., Carrier, J., Begley, A. (2005). Circadian patterns of sleep, sleepiness, and performance in older and younger adults. Sleep, 28(11), 13651376.CrossRefGoogle ScholarPubMed
Buysse, D.J., IIIReynolds, C.F., Monk, T., Berman, S., Kupfer, D. (1989). The Pittsburgh Sleep Quality Index: A new instrument for psychiatric practice and research. Psychiatry Research, 28, 193213.CrossRefGoogle ScholarPubMed
Campos-Morales, R.M., Valencia-Flores, M., Castaño-Meneses, A., Castañeda-Figueiras, S., Martínez-Guerrero, J. (2005). Sleepiness, performance and mood in a group of Mexican undergraduate students. Biological Rhythm Research, 26(1–2), 913.CrossRefGoogle Scholar
Castriotta, R., Atanasov, S., Wilde, M., Masel, B., Lai, J., Kuna, S. (2009). Treatment of sleep disorders after traumatic brain injury. Journal of Clinical Sleep Medicine, 5(2), 137144.CrossRefGoogle ScholarPubMed
Chee, M.W., Choo, W.C. (2004). Functional imaging of working memory after 24 hr of total sleep deprivation. Journal of Neuroscience, 24, 45604567.CrossRefGoogle ScholarPubMed
Chee, M.W., Chuah, L.Y. (2007). Functional neuroimaging and behavioral correlates of capacity decline in visual short-term memory after sleep deprivation. Proceedings of the National Academy of Science of the United States of America, 104(22), 94879492.CrossRefGoogle ScholarPubMed
Chee, M.W., Chuah, L.Y., Venkatraman, V., Chan, W.Y., Philip, P., Dinges, D.F. (2006). Functional imaging of working memory following normal sleep and after 24 and 35 h of sleep deprivation: Correlations of fronto-parietal activation with performance. Neuroimage, 31, 419428.CrossRefGoogle Scholar
Chen, C., Hardy, M., Zhang, J., LaHoste, G.L., Bazan, N. (2006). Altered NMDA receptor trafficking contributes to sleep deprivation-induced hippocampal synaptic cognitive impairments. Biochemical and Biophysical Research Communications, 340, 435440.CrossRefGoogle ScholarPubMed
Chervin, R.D., Dillon, J.E., Bassetti, C., Ganoczy, D., Pituch, K. (1997). Symptoms of sleep disorders, inattention and hyperactivity in children. Sleep, 20(12), 11851192.CrossRefGoogle ScholarPubMed
Choo, W.C., Lee, W.W., Venkatraman, V., Sheu, F.S., Chee, M.W. (2005). Dissociation of cortical regions modulated by both working memory load and sleep deprivation and by sleep deprivation alone. Neuroimage, 25, 579587.CrossRefGoogle ScholarPubMed
Clarke, D.J., Waters, J., Corbett, J.A. (1989). Adults with Prader-Willi syndrome: Abnormalities of sleep and behaviour. Journal of the Royal Society of Medicine, 82, 2125.CrossRefGoogle ScholarPubMed
Comella, C. (2008). Sleep disorders in Parkinson's Disease. Sleep Medicine Clinics, 3(3), 325335.CrossRefGoogle Scholar
De Gennaro, L., Ferrara, M., Curcio, G., Bertini, M. (2001). Visual search performance across 40 h of continuous wakefulness: Measures of speed and accuracy and relation with oculomotor performance. Physiology & Behavior, 74, 197204.CrossRefGoogle Scholar
Devine, E.B., Zafar, H., Green, J. (2005). A systematic review of patient-reported outcome instruments measuring sleep dysfunction in adults. Pharmacoeconomics, 23(9), 889912.CrossRefGoogle ScholarPubMed
Dinges, D.F., Powell, J.W. (1985). Microcomputer analyses of performance on a portable, simple visual RT task during sustained operations. Behaviour Research Methods, Instruments and Computers, 17(6), 652655.CrossRefGoogle Scholar
Doran, S.M., Van Dongen, H.P., Dinges, D.F. (2001). Sustained attention performance during sleep deprivation: Evidence of state instability. Archives of Italian Biology, 139(3), 253267.Google ScholarPubMed
Drake, C.L., Roehrs, T.A., Burduvali, E., Bonahoom, A., Rosekind, M., Roth, T. (2001). Effects of rapid versus slow accumulation of eight hours of sleep loss. Psychophysiology, 38(6), 979987.CrossRefGoogle ScholarPubMed
Drummond, S.P., Bischoff-Grethe, A., Dinges, D.F., Ayalon, L., Mednick, S.C., Meloy, M.J. (2005). The neural basis of the psychomotor vigilance task. Sleep, 28(9), 10591068.Google ScholarPubMed
Drummond, S.P., Brown, G.G., Gillian, J., Stricker, J., Wong, E., Buxton, R. (2000). Altered brain response to verbal learning following sleep deprivation. Nature, 403, 655657.CrossRefGoogle ScholarPubMed
Drummond, S.P., Brown, G.G., Salamat, J.S., Gillin, J.C. (2004). Increasing task difficulty facilitates the cerebral compensatory response to total sleep deprivation. Sleep, 27, 445451.Google ScholarPubMed
Drummond, S.P., Brown, G.G., Stricker, J.L., Buxton, R.B., Wong, E.C., Gillin, J.C. (1999). Sleep deprivation-induced reduction in cortical functional response to serial subtraction. Neuroreport, 10, 37453748.CrossRefGoogle ScholarPubMed
Drummond, S.P., Gillin, J.C., Brown, G.G. (2001). Increased cerebral response during a divided attention task following sleep deprivation. Journal of Sleep Research, 10, 8592.CrossRefGoogle ScholarPubMed
Drummond, S.P., Meloy, M.J., Yanagi, M.A., Orff, H.J., Brown, G.G. (2005). Compensatory recruitment after sleep deprivation and the relationship with performance. Psychiatry Research, 140, 211223.CrossRefGoogle ScholarPubMed
Drummond, S.P., Paulus, M.P., Tapert, S.F. (2006). Effects of two nights sleep deprivation and two nights recovery sleep on response inhibition. Journal of Sleep Research, 15(3), 261265.CrossRefGoogle ScholarPubMed
Durmer, J.S., Dinges, D.F. (2005). Neurocognitive consequences of sleep deprivation. Seminars in Neurology, 25(1), 117129.CrossRefGoogle ScholarPubMed
Falleti, M., Maruff, P., Collie, A., Darby, D., McStephen, M. (2003). Qualitative similarities in cognitive impairment associated with 24 hr of sustained wakefulness and a blood alcohol concentration of 0.05%. Journal of Sleep Research, 12(4), 265274.CrossRefGoogle Scholar
Ferri, R., Drago, V., Arico, D., Bruni, O., Remington, R., Stamatakis, K., Punjabi, N. (2001). The effects of experimental sleep fragmentation on cognitive processing. Sleep Medicine, 11(4), 378385.CrossRefGoogle Scholar
Festen, D., deWeerd, A., van den Bossche, R., Hoeve, J, Hokken-Koelega, A. (2006). Sleep-related breathing disorders in prepubertal children with Prader-Willi Syndrome and Effects of Growth Hormone Treatment. The Journal of Clinical Endocrinology & Metabolism, 91(12), 49114915.CrossRefGoogle ScholarPubMed
Fluck, E., File, S., Springett, J., Kopelman, M., Rees, J., Orgill, J. (1998). Does the sedation resulting from sleep deprivation and Lorazepam cause similar cognitive deficits? Pharmacology Biochemistry and Behaviour, 59(4), 909915.CrossRefGoogle ScholarPubMed
Frey, D.J., Badia, P., Wright, K.P. Jr. (2004). Inter- and intra-individual variability in performance near the circadian nadir during sleep deprivation. Journal of Sleep Research, 13(4), 305315.CrossRefGoogle ScholarPubMed
Forest, G., Godbout, R. (2000). Effects of sleep deprivation on performance and EEG spectral analysis in young adults. Brain & Cognition, 43, 195200.Google ScholarPubMed
Gais, S., Koster, S., Sprenger, A., Bethke, J., Heide, W., Kimmig, H. (2008). Sleep is required for improving reaction times after training on a procedural visuo-motor task. Neurobiology, Learning and Memory, 90(4), 610615.CrossRefGoogle ScholarPubMed
Glenville, M., Broughton, R., Wing, A.M., Wilkinson, R.T. (1978). Effects of sleep deprivation on short duration performance measures compared to the Wilkinson auditory vigilance task. Sleep, 1(2), 169176.CrossRefGoogle Scholar
Goel, N., Banks, S., Mignot, E., Dinges, D.F. (2009). PER3 polymorphism predicts cumulative sleep homeostatic but not neurobehavioral changes to chronic partial sleep deprivation. PLoS One, 4(6), e5874.CrossRefGoogle Scholar
Gradisar, M., Terrill, G., Johnston, A., Douglas, P. (2008). Adolescent sleep and working memory performance. Sleep and Biological Rhythms, 6(3), 146154.CrossRefGoogle Scholar
Gregory, A.M., Caspi, A., Moffitt, T.E., Poulton, R. (2009). Sleep problems in childhood predict neuropsychological functioning in adolescence. Pediatrics, 123(4), 11711176.CrossRefGoogle ScholarPubMed
Habeck, C., Rakitin, B.C., Moeller, J., Scarmeas, N., Zarahn, E., Brown, T., Stern, Y. (2004). An event-related fMRI study of the neurobehavioral impact of sleep deprivation on performance of a delayed-match-to-sample task. Cognition and Brain Research, 18, 306321.CrossRefGoogle ScholarPubMed
Hagewoud, R., Havekes, R., Novati, A., Keijser, J.N., Van der Zee, E.A., Meerlo, P. (2010). Sleep deprivation impairs spatial working memory and reduces hippocampal AMPA receptor phosphorylation. Journal of Sleep Research, 19(2), 280288.CrossRefGoogle ScholarPubMed
Harrison, Y., Espelid, E. (2004). Loss of negative priming following sleep deprivation. Quarterly Journal of Experimental Psychology A, 57(3), 437446.CrossRefGoogle ScholarPubMed
Harrison, Y., Horne, J.A. (1997). Sleep deprivation affects speech. Sleep, 20(10), 871877.CrossRefGoogle ScholarPubMed
Harrison, Y., Horne, J.A. (1998). Sleep loss impairs short and novel language tasks having a prefrontal focus. Journal of Sleep Research, 7(2), 95100.CrossRefGoogle Scholar
Harrison, Y., Horne, J.A. (2000). The impact of sleep deprivation on decision making: A review. Journal Experimental Psychology Applied, 6(3), 236249.CrossRefGoogle ScholarPubMed
Harrison, Y., Horne, J.A., Rothwell, A. (2000). Prefrontal neuropsychological effects of sleep deprivation in young adults, a model for healthy aging? Sleep, 23(8), 10671973.CrossRefGoogle Scholar
Harrison, Y., Jones, K., Waterhouse, J. (2007). The influence of time awake and circadian rhythm upon performance on a frontal lobe task. Neuropsychologia, 45(8), 19661972.CrossRefGoogle ScholarPubMed
Hoddes, E., Zarcone, V., Smythe, H., Phillips, R., Dement, W.C. (1972). Quantification of sleepiness: A new approach. Psychophysiology, 10, 431436.CrossRefGoogle Scholar
Horne, J.A. (1988). Why we sleep: The functions of sleep in humans and other animals. Oxford: Oxford University Press.Google Scholar
Horne, J.A. (1993). Human sleep, sleep loss and behaviour. Implications for the prefrontal cortex and psychiatric disorder. British Journal of Psychiatry, 162, 413419.CrossRefGoogle ScholarPubMed
Hublin, C., Kaprio, J., Partinen, M., Koskenvuo, M. (2001). Insufficient sleep--a population-based study in adults. Sleep, 24(4), 392400.CrossRefGoogle ScholarPubMed
Jansson-Frojmark, M., Lindblom, K. (2008). A bi-directional relationship between anxiety and depression, and insomnia? A prospective study in the general population. Journal of Psychosomatic Research, 64, 440443.CrossRefGoogle Scholar
Jennings, J.R., Monk, T.H., van der Molen, M.W. (2003). Sleep deprivation influences some but not all processes of supervisory attention. Psychological Science, 14(5), 473486.CrossRefGoogle Scholar
Johns, M.W. (1991). A new method for measuring daytime sleepiness: The Epworth Sleepiness Scale. Sleep, 14, 540545.CrossRefGoogle ScholarPubMed
Killgore, W.D., Balkin, T.J., Wesensten, N.J. (2006). Impaired decision making following 49 h of sleep deprivation. Journal of Sleep Research, 15(1), 713.CrossRefGoogle Scholar
Killgore, W.D., Grugle, N.L., Reichardt, R.M., Killgore, D.B., Balkin, T.J. (2009). Executive functions and the ability to sustain vigilance during sleep loss. Aviation and Space Environmental Medicine, 80(2), 8187.CrossRefGoogle ScholarPubMed
Killgore, W.D., Kahn-Greene, E.T., Lipizzi, E.L., Newman, R.A., Kamimori, G.H., Balkin, T.J. (2008). Sleep deprivation reduces perceived emotional intelligence and constructive thinking skills. Sleep Medicine, 9(5), 517526.CrossRefGoogle ScholarPubMed
Killgore, W.D., Killgore, D.B., Day, L.M., Li, C., Kamimori, G.H., Balkin, T.J. (2007). The effects of 53 hours of sleep deprivation on moral judgment. Sleep, 30(3), 345352.CrossRefGoogle ScholarPubMed
Koslowsky, M., Babkoff, H. (1992). Meta-analysis of the relationship between total sleep deprivation and performance. Chronobiology International, 9(2), 132136.CrossRefGoogle ScholarPubMed
Kripke, D.F. (2004). Do we sleep too much? Sleep, 27(1), 1314.Google ScholarPubMed
Krueger, P., Friedman, E. (2009). Sleep duration in the United States: A cross sectional population based study. The American Journal of Epidemiology, 169(9), 10521963.CrossRefGoogle ScholarPubMed
Kyle, S., Morgan, K., Espie, C. (2010). Insomnia and health related quality of life. Sleep Medicine Reviews, 14, 6982.CrossRefGoogle ScholarPubMed
Lezak, M.D., Howieson, D.B., Loring, D.W. (2004). Neuropsychological assessment. New York: Oxford University Press.Google Scholar
Lim, J., Choo, W.C., Chee, M.W. (2007). Reproducibility of changes in behaviour and fMRI activation associated with sleep deprivation in a working memory task. Sleep, 30(1), 6170.CrossRefGoogle Scholar
Lim, J., Dinges, D.F. (2008). Sleep deprivation and vigilant attention. Annals of the New York Academy of Sciences, 1129, 305322.CrossRefGoogle ScholarPubMed
Lim, J., Dinges, D.F. (2010). A meta-analysis of the impact of short-term sleep deprivation on cognitive variables. Psychological Bulletin, 136(3), 375389.CrossRefGoogle ScholarPubMed
Linde, L., Bergstrom, M. (1992). The effect of one night without sleep on problem-solving and immediate recall. Psychological Research, 54(2), 127136.CrossRefGoogle ScholarPubMed
Liu, X., Hubbard, J., Fabes, R., Adams, J. (2006). Sleep disturbances and correlates of children with autism spectrum disorders. Child Psychiatry & Human Development, 37(2), 179191.CrossRefGoogle ScholarPubMed
Martin, S.E., Engleman, H.M., Deary, I.J., Douglas, N.J. (1996). The effect of sleep fragmentation on daytime function. American Journal of Respiratory and Critical Care Medicine, 153, 13281332.CrossRefGoogle ScholarPubMed
Mittler, M.M., Carskadon, M.A., Czeisler, C., Dement, W.C., Dinges, D., Graeber, R.C. (1988). Catastrophes, sleep and public policy: Consensus report. Sleep, 11(1), 100109.CrossRefGoogle Scholar
Monteleone, P., Maj, M. (2008). The circadian basis of mood disorders: Recent developments and treatment implications. European Neuropsychopharmacology, 18, 701711.CrossRefGoogle ScholarPubMed
Morris, G.O., Williams, H.L., Lubin, A. (1960). Misperception and distortion during sleep deprivation. Archives of General Psychiatry, 2, 247254.CrossRefGoogle Scholar
Moturi, S., Avis, K. (2010). Assessment and treatment of common pediatric sleep disorders. Psychiatry (Edgmont), 7(6), 2437.Google ScholarPubMed
Mu, Q., Nahas, Z., Johnson, K.A., Yamanaka, K., Mishory, A., Koola, J., George, M.S. (2005). Decreased cortical response to verbal working memory following sleep deprivation. Sleep, 28(1), 5567.CrossRefGoogle ScholarPubMed
Neikrug, A.B., Ancoli-Israel, S. (2010). Sleep disorders in the older adult – a mini-review. Gerontology, 56(2), 181189.CrossRefGoogle ScholarPubMed
Nilsson, J.P., Soderstrom, M., Karlsson, A.U., Lekander, M., Akerstedt, T., Lindroth, N.E., Axelsson, J. (2005). Less effective executive functioning after one night's sleep deprivation. Journal of Sleep Research, 14(1), 16.CrossRefGoogle ScholarPubMed
Owens, J., Nobile, C., McGuinn, M., Spirito, A. (2000). The Children's Sleep Habits Questionnaire: Construction and validation of a sleep survey for school-aged children. Sleep, 23(8), 10431051.CrossRefGoogle Scholar
Partinen, M., Hublin, C. (2005). Epidemiology of sleep disorders. In M. Kryger, T. Roth, & W. Dement (Eds.), Principles and practice of sleep medicine (4th ed.). Philadelphia: W.B. Saunders Co.Google Scholar
Patrick, G., Gilbert, J. (1896). On the effects of loss of sleep. Psychological Review, 3(5), 469483.CrossRefGoogle Scholar
Petit, D., Montplaisir, J., Boeve, B.F. (2005). Alzheimer's disease and other dementias. In M. Kryger, T. Roth, & W. Dement (Eds.),, Principles and practice of sleep medicine (4th ed.). Philadelphia: W.B. Saunders Co.Google Scholar
Pilcher, J.J., Huffcutt, A.I. (1996). Effects of sleep deprivation on performance: A meta-analysis. Sleep, 19, 318326.CrossRefGoogle ScholarPubMed
Pilcher, J.J., McClelland, L.E., Moore, D.D., Haarmann, H., Baron, J., Wallsten, T.S., McCubbin, J.A. (2007). Language performance under sustained work and sleep deprivation conditions. Aviation Space and Environmental Medicine, 78(5 Suppl), B25B38.Google ScholarPubMed
Philip, P., Taillard, J., Sagaspe, P., Valtat, C., Sanchez-Ortuno, M., Moore, N., Bioulac, B. (2004). Age, performance and sleep deprivation. Journal of Sleep Research, 13, 105110.CrossRefGoogle ScholarPubMed
Phillips, K.D., Sowell, R.L., Boyd, M., Dudgeon, W.D., Hand, G.A. (2005). Sleep quality and health-related quality of life in HIV-infected African-American women of childbearing age. Quality of Life Research, 14(4), 959970.CrossRefGoogle ScholarPubMed
Plihal, W., Born, J. (1999). Effects of early and late nocturnal sleep on priming and spatial memory. Psychophysiology, 36(5), 571582.CrossRefGoogle ScholarPubMed
Polzella, D.J. (1975). Effects of sleep deprivation on short-term recognition memory. Journal of Experimental Psychology: Human Learning, 104(2), 194200.Google ScholarPubMed
Quigley, N., Green, J.F., Morgan, D., Idzikowski, C., King, D.J. (2000). The effect of sleep deprivation on memory and psychomotor function in healthy volunteers. Human Psychopharmacology, 15(3), 171177.3.0.CO;2-D>CrossRefGoogle ScholarPubMed
Rauchs, G., Desgranges, B., Foret, J., Eustache, F. (2005). The relationships between memory systems and sleep stages. Journal of Sleep Research, 14(2), 123140.CrossRefGoogle ScholarPubMed
Ravid, S., Afek, I., Suraiya, S., Shahar, E., Pillar, G. (2009). Kindergarten children's failure to qualify for first grade could result from sleep disturbances. Journal of Child Neurology, 24(7), 816822.CrossRefGoogle ScholarPubMed
Reid, S., Dwyer, J. (2005). Insomnia in HIV infection: A systematic review of prevalence, correlates, and management. Psychosomatic Medicine, 67, 260269.CrossRefGoogle ScholarPubMed
Richdale, A., Prior, M. (1995). The Sleep/wake rhythm in children with autism. European Child and Adolescent Psychiatry, 4(3), 175186.CrossRefGoogle ScholarPubMed
Riemann, D., Spiegelhalder, K., Feige, B., Voderholzer, U., Berger, M., Perlis, M., Nissen, C. (2010). The hyperarousal of insomnia: A review of the concept and its evidence. Sleep Medicine Review, 14, 1931.CrossRefGoogle ScholarPubMed
Roehrs, T., Burduvali, E., Bonahoom, A., Drake, C., Roth, T. (2003). Ethanol and sleep loss: A dose comparison of impairing effects. Sleep, 26(8), 981998.CrossRefGoogle Scholar
Ruskin, D.N., Liu, C., Dunn, K.E., Bazan, N.G., LaHoste, G.J. (2004). Sleep deprivation impairs hippocampus-mediated contextual learning but not amygdala-mediated cued learning in rats. European Journal of Neuroscience, 19(11), 31213124.CrossRefGoogle Scholar
Russo, M., Thomas, M., Thorne, D., Sing, H., Redmond, D., Rowland, L., Balkin, T. (2003). Oculomotor impairment during chronic partial sleep deprivation. Clinical Neurophysiology, 114(4), 723736.CrossRefGoogle ScholarPubMed
Sagaspe, P., Sanchez-Ortuno, M., Charles, A., Taillard, J., Valtat, C., Bioulac, B., Philip, P. (2006). Effects of sleep deprivation on color-word, emotional, and specific Stroop interference and on self-reported anxiety. Brain & Cognition, 60(1), 7687.CrossRefGoogle ScholarPubMed
Schmidt, R.E., Gay, P., Ghisletta, P. (2010). Linking impulsivity to dysfunctional thought control and insomnia: A structural equation model. Journal of Sleep Research, 19(1 Pt 1), 311.CrossRefGoogle ScholarPubMed
Shekleton, J.A., Parcell, D.L., Redman, J.R., Phipps-Nelson, J., Ponsford, J.L., Rajaratnam, S.M. (2010). Sleep disturbance and melatonin levels following traumatic brain injury. Neurology, 74, 17321738.CrossRefGoogle ScholarPubMed
Smulders, F.T., Kenemans, J.L., Jonkman, L.M., Kok, A. (1997). The effects of sleep loss on task performance and the electroencephalogram in young and elderly subjects. Biology Psychology, 45(1–3), 217239.CrossRefGoogle Scholar
Stenuit, P., Kerkhofs, M. (2008). Effects of sleep restriction on cognition in women. Biological Psychology, 77(1), 8188.CrossRefGoogle ScholarPubMed
Stores, G. (2006). Practitioner review: Assessment and treatment of sleep disorders in children and adolescents. Journal of Child Psychology and Psychiatry, 37, 907925.CrossRefGoogle Scholar
Strangman, G., Thompson, J.H., Strauss, M.M., Marshburn, T.H., Sutton, J.P. (2005). Functional brain imaging of a complex navigation task following one night of total sleep deprivation: A preliminary study. Journal of Sleep Research, 14(4), 369375.CrossRefGoogle ScholarPubMed
Stricker, J.L., Brown, G.G., Wetherell, L.A., Drummond, S.P. (2006). The impact of sleep deprivation and task difficulty on networks of fMRI brain response. Journal of International Neuropsychological Society, 12(5), 591597.CrossRefGoogle ScholarPubMed
Taheri, S., Lin, L., Austin, D., Young, T., Mignot, E. (2004). Short sleep duration is associated with reduced leptin, elevated ghrelin, and increased body mass index. PLoS Medicine, 1(3), e62.CrossRefGoogle ScholarPubMed
Tarter, R.E., Butters, M., Beers, S.R. (2001). Medical neuropsychology (2nd ed.). New York: Kluwer Academic. Plenum Publishers.CrossRefGoogle Scholar
Tempesta, D., Couyoumdjian, A., Curcio, G., Moroni, F., Marzano, C., DeGennaro, L., Ferrara, M. (2010). Lack of sleep affects the evaluation of emotional stimuli. Brain Research Bulletin, 82, 104108.Google ScholarPubMed
Tilley, A.J., Wilkinson, R.T. (1984). The effects of a restricted sleep regime on the composition of sleep and on performance. Psychophysiology, 21(4), 406412.CrossRefGoogle ScholarPubMed
Thomas, M., Sing, H., Belenky, G., Holcomb, H., Mayberg, H., Dannals, R., Redmond, D. (2000). Neural basis of alertness and cognitive performance impairments during sleepiness. I. Effects of 24 h of sleep deprivation on waking human regional brain activity. Journal of Sleep Research, 9(4), 335352.CrossRefGoogle Scholar
Thomas, R.J., Kwong, K. (2006). Modafinil activates cortical and subcortical sites in the sleep-deprived state. Sleep, 29, 14711481.CrossRefGoogle ScholarPubMed
Tomasi, D., Wang, R.L., Telang, F., Boronikolas, V., Jayne, M.C., Wang, G.J., Volkow, N.D. (2009). Impairment of attentional networks after 1 night of sleep deprivation. Cerebral Cortex, 19(1), 233240.CrossRefGoogle ScholarPubMed
Tucker, A.M., Whitney, P., Belenky, G., Hinson, J.M., Van Dongen, H.P. (2010). Effects of sleep deprivation on dissociated components of executive functioning. Sleep, 33(1), 4757.CrossRefGoogle ScholarPubMed
Turner, T.H., Drummond, S.P., Salamat, J.S., Brown, G.G. (2007). Effects of 42 hr of total sleep deprivation on component processes of verbal working memory. Neuropsychology, 21(6), 787795.CrossRefGoogle ScholarPubMed
Van der Werf, Y., Altena, E., Schoonheim, M., Sanz-Arigita, E., Vis, J.C., De Rijke, W., Van Someren, J.W. (2009). Sleep benefits subsequent hippocampal functioning. Nature, Neuroscience, 12(2), 122123.CrossRefGoogle ScholarPubMed
Van Dongen, H.P., Maislin, G., Mullington, J.M., Dinges, D.F. (2003). The cumulative cost of additional wakefulness: Dose-response effects on neurobehavioral functions and sleep physiology from chronic sleep restriction and total sleep deprivation. Sleep, 26(2), 117126.CrossRefGoogle ScholarPubMed
Viola, A.U., Archer, S.N., James, L.M., Groeger, J.A., Lo, J.C., Skene, D.J., Dijk, D.J. (2007). PER3 polymorphism predicts sleep structure and waking performance. Current Biology, 17(7), 613618.CrossRefGoogle ScholarPubMed
Weaver, T., Laizner, A., Evans, L., Maislin, G., Chugh, D., Lyon, K., Smith, P., Schwartz, A., Redline, S., Pack, A., Dinges, D. (1997). An instrument to measure functional status outcomes for disorders of excessive sleepiness. Sleep, 20, 835843.Google ScholarPubMed
Wilkinson, R.T. (1961). Interaction of lack of sleep with knowledge of results, repeated testing, and individual differences. Journal of Experimental Psychology, 62, 263271.CrossRefGoogle ScholarPubMed
Williams, E.S. (1959). Sleep and wakefulness at high altitudes. British Medical Journal, 1(5116), 197198.CrossRefGoogle ScholarPubMed
Williamson, A.M., Feyer, A.M. (2000). Moderate sleep deprivation produces impairments in cognitive and motor performance equivalent to legally prescribed levels of alcohol intoxication. Occupational Environmental Medicine, 57, 649655.CrossRefGoogle ScholarPubMed
Wimmer, F., Hoffmann, R.F., Bonato, R.A., Moffitt, A.R. (1992). The effects of sleep deprivation on divergent thinking and attention processes. Journal of Sleep Research, 1, 223230.CrossRefGoogle ScholarPubMed
Yoo, S.S., Hu, P.T., Gujar, N., Jolesz, F.A., Walker, M.P. (2007). A deficit in the ability to form new human memories without sleep. Nature Neuroscience, 10, 385392.CrossRefGoogle ScholarPubMed
Young, T., Evans, L., Finn, L., Palta, M. (1997). Estimation of the clinically diagnosed proportion of sleep apnea syndrome in middle aged men and women. Sleep, 9, 705706.CrossRefGoogle Scholar