The Interplay Between Sleep and Emotion Regulation: Conceptual Framework Empirical Evidence and Future Directions

详细信息    查看全文

• 作者：Reut Gruber ; Jamie Cassoff
• 关键词：Emotional regulation ; Mood ; Sleep deprivation ; Emotional reactivity ; Executive function ; Sleep regulation ; Chronotype
• 刊名：Current Psychiatry Reports
• 出版年：2014
• 出版时间：November 2014
• 年：2014
• 卷：16
• 期：11
• 全文大小：376 KB
• 参考文献：1. Levenson RW. Human emotion: A functional view. The nature of emotion: Fundamental questions. 1994:123-.
  2. Smith CA, Ellsworth PC. Patterns of cognitive appraisal in emotion. J Pers Soc Psychol. 1985;48(4):813. CrossRef
  3. Campos JJ, Stenberg C. Perception, appraisal, and emotion: the onset of social referencing. Infant social cognition: empirical and theoretical considerations. 1981;273:314.
  4. Gross JJ. The emerging field of emotion regulation: an integrative review. Rev Gen Psychol. 1998;2(3):271. CrossRef
  5. Davidson RJ, Putnam KM, Larson CL. Dysfunction in the neural circuitry of emotion regulation–a possible prelude to violence. Science. 2000;289(5479):591-. CrossRef
  6. Gross JJ, Mu?oz RF. Emotion regulation and mental health. Clin Psychol Sci Pract. 1995;2(2):151-4. CrossRef
  7. Borbely AA. A two process model of sleep regulation. Hum Neurobiol. 1982;1:195-04.
  8. Czeisler CA, Allan JS, Strogatz SH, Ronda JM, Sanchez R, Rios CD, et al. Bright light resets the human circadian pacemaker independent of the timing of the sleep-wake cycle. Science. 1986;233(4764):667-1. CrossRef
  9. Moore RY. A clock for the ages. Science. 1999;284(5423):2102-. CrossRef
  10. Allada R, White NE, So WV, Hall JC, Rosbash M. A mutant Drosophila homolog of mammalian Clock disrupts circadian rhythms and transcription of period and timeless. Cell. 1998;93(5):791-04. CrossRef
  11. Blau J, Young MW. Cycling vrille expression is required for a functional Drosophila clock. Cell. 1999;99(6):661-1. CrossRef
  12. Ebadi M, Govitrapong P. Neural pathways and neurotransmitters affecting melatonin synthesis. J Neural Transm Suppl. 1986;21:125-5.
  13. Wulff K, Gatti S, Wettstein JG, Foster RG. Sleep and circadian rhythm disruption in psychiatric and neurodegenerative disease. Nat Rev Neurosci. 2010;11(8):589-9. CrossRef
  14. Cicchetti D, Ganiban J, Barnett D. Contributions from the study of high-risk populations to understanding the development of emotion regulation. In: Garber J, Dodge KA, editors. The development of emotion regulation and dysregulation. New York: Cambridge University Press; 1991.
  15. Koole SL. The psychology of emotion regulation: an integrative review. Cognit Emot. 2009;23(1):4-1. doi:10.1080/02699930802619031 . CrossRef
  16. Cicchetti D, Ackerman BP, Izard CE. Emotions and emotion regulation in developmental psychopathology. Dev Psychopathol. 1995;7(1):1-0. doi:10.1017/S0954579400006301 . CrossRef
  17. Davidson MC, Amso D, Anderson LC, Diamond A. Development of cognitive control and executive functions from 4 to 13 years: evidence from manipulations of memory, inhibition, and task switching. Neuropsychologia. 2006;44(11):2037-8. CrossRef
  18. Miyake A, Friedman NP, Emerson MJ, Witzki AH, Howerter A, Wager TD. The unity and diversity of executive functions and their contributions to complex “Frontal Lobe-tasks: a latent variable analysis. Cogn Psychol. 2000;41(1):49-00. doi:10.1006/cogp.1999.0734 . CrossRef
  19. Schaefer A, Collette F, Philippot P, Linden MVD, Laureys S, Delfiore G, et al. Neural correlates of “hot-and “cold-emotional processing: a multilevel approach to the functional anatomy of emotion. Neuroimage. 2003;18(4):938-9. CrossRef
  20. Bylsma LM, Morris BH, Rottenberg J. A meta-analysis of emotional reactivity in major depressive disorder. Clin Psychol Rev. 2008;28(4):676-1. CrossRef
  21. Li C-SR, Sinha R. Inhibitory control and emotional stress regulation: neuroimaging evidence for frontal–limbic dysfunction in psycho-stimulant addiction. Neurosci Biobehav Rev. 2008;32(3):581-7. CrossRef
  22. Davidson RJ, Ekman P, Saron CD, Senulis JA, Friesen WV. Approach-withdrawal and cerebral asymmetry: emotional expression and brain physiology: I. J Pers Soc Psychol. 1990;58(2):330. CrossRef
  23. Baker SC, Frith CD, Dolan RJ. The interaction between mood and cognitive function studied with PET. Psychol Med. 1997;27(03):565-8. CrossRef
  24. Knight RT, Richard Staines W, Swick D, Chao LL. Prefrontal cortex regulates inhibition and excitation in distributed neural networks. Acta Psychol. 1999;101(2):159-8. CrossRef
  25. Miller EK, Cohen JD. An integrative theory of prefrontal cortex function. Annu Rev Neurosci. 2001;24(1):167-02. CrossRef
  26. Smith EE, Jonides J. Storage and executive processes in the frontal lobes. Science. 1999;283(5408):1657-1. CrossRef
  27. Bunge SA, Ochsner KN, Desmond JE, Glover GH, Gabrieli JD. Prefrontal regions involved in keeping information in and out of mind. Brain. 2001;124(10):2074-6. CrossRef
  28. Collette F, Hogge M, Salmon E, Van der Linden M. Exploration of the neural substrates of executive functioning by functional neuroimaging. Neuroscience. 2006;139(1):209-1. doi:10.1016/j.neuroscience.2005.05.035 . CrossRef
  29. Harrison Y, Horne J. The impact of sleep deprivation on decision making: a review. J Exp Psychol. 2000;6:236-9.
  30. Harrison Y, Horne JA. Sleep loss impairs short and novel language tasks having a prefrontal focus. J Sleep Res. 1998;7(2):95-00. CrossRef
  31. Horne JA. Sleep loss and divergent thinking ability. Sleep. 1988;11:528-6.
  32. Drummond S, Brown G, Stricker J, Buxton R, Wong E, Gillin J. Sleep deprivation-induced reduction in cortical functional response to serial subtraction. Neuroreport. 1999;10:3745-. CrossRef
  33. Mesulam M. Large-scale neurocognitive networks and distributed processing for attention, language, and memory. Ann Neurol. 1990;28:597-13. CrossRef
  34. Wu J, Gillin J, Buchsbaum M, Hershey T, Hazlett E, Sicotte N, et al. The effect of sleep deprivation on cerebral glucose metabolic rate in normal humans assessed with positron emission tomography. Sleep. 1991;14:155-2.
  35. Yoo SS, Gujar N, Hu P, Jolesz FA, Walker MP. The human emotional brain without sleep–a prefrontal amygdala disconnect. Curr Biol : CB. 2007;17(20):R877-. doi:10.1016/j.cub.2007.08.007 . CrossRef
  36. Sotres-Bayon F, Bush DEA, LeDoux JE. Emotional perseveration: an update on prefrontal-amygdala interactions in fear extinction. Learn Mem. 2004;11(5):525-5. doi:10.1101/lm.79504 . CrossRef
  37. Gujar N, Yoo S-S, Hu P, Walker MP. Sleep deprivation amplifies reactivity of brain reward networks, biasing the appraisal of positive emotional experiences. J Neurosci. 2011;31(12):4466-4. CrossRef
  38. Nilsson JP, Soderstrom M, Karlsson AU, Lekander M, Akerstedt T, Lindroth NE, et al. Less effective executive functioning after one night’s sleep deprivation. J Sleep Res. 2005;14(1):1-. doi:10.1111/j.1365-2869.2005.00442.x . CrossRef
  39. Linde L, Bergstrom M. The effect of one night without sleep on problem-solving and immediate recall. Psychol Res. 1992;54(2):127-6. CrossRef
  40. Jens PN, Marie S, Andreas UK, Mats L, Torbj?Rn ?, Nina Erixon L, et al. Less effective executive functioning after one night’s sleep deprivation. J Sleep Res. 2005;14(1):1-. CrossRef
  41. Alhola P, Polo-Kantola P. Sleep deprivation: impact on cognitive performance. Neuropsychiatr Dis Treat. 2007;3(5):553-7.
  42. Durmer JS, Dinges DF. Neurocognitive consequences of sleep deprivation. Semin Neurol. 2005;25(1):117-9. doi:10.1055/s-2005-867080 . CrossRef
  43. Wimmer F, Hoffmann RF, Bonato RA, Moffitt AR. The effects of sleep deprivation on divergent thinking and attention processes. J Sleep Res. 1992;1(4):223-0. CrossRef
  44. Killgore WD, Balkin TJ, Wesensten NJ. Impaired decision making following 49 h of sleep deprivation. J Sleep Res. 2006;15(1):7-3. doi:10.1111/j.1365-2869.2006.00487.x . CrossRef
  45. Mauss IB, Troy AS, LeBourgeois MK. Poorer sleep quality is associated with lower emotion-regulation ability in a laboratory paradigm. Cognit Emot. 2013;27(3):567-6. / Participants who reported poor sleep quality performed worse on the cognitive reappraisal task. CrossRef
  46. Ochsner KN, Gross JJ. The cognitive control of emotion. Trends Cogn Sci. 2005;9(5):242-. CrossRef
  47. Schwarz JF, Popp R, Haas J, Zulley J, Geisler P, Alpers GW, et al. Shortened night sleep impairs facial responsiveness to emotional stimuli. Biol Psychol. 2013;93(1):41-. / Sleep deprived participants performed worse on psychomotor vigilance task. CrossRef
  48. Anderson C, Platten CR. Sleep deprivation lowers inhibition and enhances impulsivity to negative stimuli. Behav Brain Res. 2011;217(2):463-. CrossRef
  49. Gujar N, McDonald SA, Nishida M, Walker MP. A role for REM sleep in recalibrating the sensitivity of the human brain to specific emotions. Cerebral Cortex. 2010:bhq064.
  50. Rosales-Lagarde A, Armony JL, del Río-Portilla Y, Trejo-Martínez D, Conde R, Corsi-Cabrera M. Enhanced emotional reactivity after selective REM sleep deprivation in humans: an fMRI study. Front Behav Neurosci. 2012;6:25. doi:10.3389/fnbeh.2012.00025 . / fMRI evidence for the role of REM sleep in optimizing brain processes needed for successful emotional regulation. CrossRef
  51. Markarian SA, Pickett SM, Deveson DF, Kanona BB. A model of BIS/BAS sensitivity, emotion regulation difficulties, and depression, anxiety, and stress symptoms in relation to sleep quality. Psychiatry Res. 2013;210(1):281-. / Sleep deprivation moderates relationship between emotional regulation difficulties and depression, anxiety and stress symptoms. CrossRef
  52. Selby EA. Chronic sleep disturbances and borderline personality disorder symptoms. J Consult Clin Psychol. 2013;81(5):941. / Sleep deprivation moderated the relationship between clinical symptomology and emotional impairments in patients with borderline personlaity disorder. CrossRef
  53. Boudebesse C, Henry C. Emotional hyper-reactivity and sleep disturbances in remitted patients with bipolar disorders. L'Encéphale. 2012;38:S173-. CrossRef
  54. Hovland A, Pallesen S, Hammar ?, Hansen AL, Thayer JF, Sivertsen B, et al. Subjective sleep quality in relation to inhibition and heart rate variability in patients with panic disorder. J Affect Disord. 2013;150(1):152-. CrossRef
  55. Fairholme CP, Nosen EL, Nillni YI, Schumacher JA, Tull MT, Coffey SF. Sleep disturbance and emotion dysregulation as transdiagnostic processes in a comorbid sample. Behav Res Ther. 2013;51(9):540-. CrossRef
  56. Kamphuis J, Dijk D-J, Spreen M, Lancel M. The relation between poor sleep, impulsivity and aggression in forensic psychiatric patients. Physiol Behav. 2014;123:168-3. / Worse sleep quality and higher insomnia scores were subjectively and objectively associated with emotional dysregulation as measured by self-reported impulsivity, clinician-rated hostility and involvement in aggressive incidents. CrossRef
  57. Appelhans BM, Luecken LJ. Heart rate variability as an index of regulated emotional responding. Rev Gen Psychol. 2006;10(3):229. CrossRef
  58. Thayer JF, Brosschot JF. Psychosomatics and psychopathology: looking up and down from the brain. Psychoneuroendocrinology. 2005;30(10):1050-. CrossRef
  59. Thayer JF, Lane RD. Claude Bernard and the heart–brain connection: further elaboration of a model of neurovisceral integration. Neurosci Biobehav Rev. 2009;33(2):81-. CrossRef
  60. Butler EA, Wilhelm FH, Gross JJ. Respiratory sinus arrhythmia, emotion, and emotion regulation during social interaction. Psychophysiology. 2006;43(6):612-2. CrossRef
  61. Ingjaldsson JT, Laberg JC, Thayer JF. Reduced heart rate variability in chronic alcohol abuse: relationship with negative mood, chronic thought suppression, and compulsive drinking. Biol Psychiatry. 2003;54(12):1427-6. CrossRef
  62. Wirz-Justice A. Diurnal variation of depressive symptoms. Dialogues Clin Neurosci. 2008;10(3):337.
  63. Srinivasan V, Singh J, Pandi-Perumal SR, Brown GM, Spence DW, Cardinali DP. Jet lag, circadian rhythm sleep disturbances, and depression: the role of melatonin and its analogs. Adv Ther. 2010;27(11):796-13. CrossRef
  64. Grandin LD, Alloy LB, Abramson LY. The social zeitgeber theory, circadian rhythms, and mood disorders: review and evaluation. Clin Psychol Rev. 2006;26(6):679-4. CrossRef
  65. Mongrain V, Lavoie S, Selmaoui B, Paquet J, Dumont M. Phase relationships between sleep-wake cycle and underlying circadian rhythms in Morningness-Eveningness. J Biol Rhythm. 2004;19(3):248-7. doi:10.1177/0748730404264365 . CrossRef
  66. Smith CS, Reilly C, Midkiff K. Evaluation of three circadian rhythm questionnaires with suggestions for an improved measure of morningness. J Appl Psychol. 1989;74(5):728-8. doi:10.1037/0021-9010.74.5.728 . CrossRef
  67. Chelminski I, Ferraro FR, Petros T, Plaud JJ. Horne and Ostberg questionnaire: a score distribution in a large sample of young adults. Personal Individ Differ. 1997;23(4):647-2. doi:10.1016/S0191-8869(97)00073-1 . CrossRef
  68. Horne JA, Ostberg O. A self-assessment questionnaire to determine morningness-eveningness in human circadian rhythms. Int J Chronobiol. 1976;4(2):97-10.
  69. Chelminski I, Ferraro FR, Petros TV, Plaud JJ. An analysis of the “eveningness–morningness-dimension in “depressive-college students. J Affect Disord. 1999;52(1):19-9. CrossRef
  70. Drennan MD, Klauber MR, Kripke DF, Goyette LM. The effects of depression and age on the Horne-Ostberg morningness-eveningness score. J Affect Disord. 1991;23(2):93-. CrossRef
  71. Hsu C-Y, Gau SS-F, Shang C-Y, Chiu Y-N, Lee M-B. Associations between chronotypes, psychopathology, and personality among incoming college students. Chronobiol Int. 2012;29(4):491-01. CrossRef
  72. Roeser K, Obergfell F, Meule A, V?gele C, Schlarb AA, Kübler A. Of larks and hearts—morningness/eveningness, heart rate variability and cardiovascular stress response at different times of day. Physiol Behav. 2012;106(2):151-. CrossRef
  73. Gaspar-Barba E, Calati R, Cruz-Fuentes CS, Ontiveros-Uribe MP, Natale V, De Ronchi D, et al. Depressive symptomatology is influenced by chronotypes. J Affect Disord. 2009;119(1):100-. CrossRef
  74. Hidalgo MP, Caumo W, Posser M, Coccaro SB, Camozzato AL, Chaves MLF. Relationship between depressive mood and chronotype in healthy subjects. Psychiatry Clin Neurosci. 2009;63(3):283-0. CrossRef
  75. Lemoine P, Zawieja P, Ohayon MM. Associations between morningness/eveningness and psychopathology: an epidemiological survey in three in-patient psychiatric clinics. J Psychiatr Res. 2013;47(8):1095-. / Evening types are more likely to be diagnosed with affective disorders such as anxiety disorders, addiction disorders or personality disorders. CrossRef
  76. Gau SS-F, Shang C-Y, Merikangas KR, Chiu Y-N, Soong W-T, Cheng AT-A. Association between morningness-eveningness and behavioral/emotional problems among adolescents. J Biol Rhythm. 2007;22(3):268-4. CrossRef
  77. Goldstein D, Hahn CS, Hasher L, Wiprzycka UJ, Zelazo PD. Time of day, intellectual performance, and behavioral problems in Morning versus Evening type adolescents: is there a synchrony effect? Personal Individ Differ. 2007;42(3):431-0. CrossRef
  78. Adan A, Natale V, Caci H, Prat G. Relationship between circadian typology and functional and dysfunctional impulsivity. Chronobiol Int. 2010;27(3):606-9. CrossRef
  79. Merikanto I, Lahti T, Kronholm E, Peltonen M, Laatikainen T, Vartiainen E, et al. Evening types are prone to depression. Chronobiol Int. 2013;30(5):719-5. CrossRef
  80. Konttinen H, Kronholm E, Partonen T, Kanerva N, M?nnist? S, Haukkala A. Morningness-eveningness, depressive symptoms, and emotional eating: a population-based study. Chronobiol Int. 2014;31(4):554-3. CrossRef
  81. Baglioni C, Battagliese G, Feige B, Spiegelhalder K, Nissen C, Voderholzer U, et al. Insomnia as a predictor of depression: a meta-analytic evaluation of longitudinal epidemological studies. J Affect Disord. 2011;135(1-):10-. CrossRef
  82. Kahn M, Sheppes G, Sadeh A. Sleep and emotions: bidirectional links and underlying mechanisms. Int J Psychophysiol. 2013. doi:10.1016/j.ijpsycho.2013.05.010 . / The associations between sleep deprivation and emtional dysregulation are bidirectional and complex.
  83. Cousins JC, Whalen DJ, Dahl RE, Forbes EE, Olino TM, Ryan ND, et al. The bidirectional association between daytime affect and nighttime sleep in youth with anxiety and depression. J Pediatr Psychol. 2011;36(9):969-9. CrossRef
  
• 作者单位：Reut Gruber (1) (2)
  Jamie Cassoff (2) (3)
  
  1. Department of Psychiatry McGill University, Montreal, QC, H3A 1A1, Canada
  2. Attention Behavior and Sleep Lab, Douglas Mental Health University Institute, 6875 LaSalle Boulevard, Verdun, QC, H4H 1R3, Canada
  3. Department of Psychology, McGill University, 1205 Dr. Penfield, Montreal, QC, H3A 1B1, Canada
  
• ISSN：1535-1645

文摘

Emotions are biologically-based responses that help an organism meet challenges and opportunities, and involve changes in subjective experience, behavior, and physiology. Emotions arise when something important to us is at stake. Although many factors have been associated with healthy emotional regulation, the role of sleep in this process has been largely ignored. Recent studies, however, have begun to delineate how sleep critically affects emotional functioning. Nighttime sleep affects daytime mood, emotional reactivity and the capacity to regulate positive and negative emotions; conversely, daytime experiences affect sleep. Hence, there is a complex interplay between sleep and emotional regulation. The objective of this article is to examine this interplay in adults. This objective is addressed by utilizing a framework that identifies key aspects of the relationship between sleep and emotion. We propose that the connectivity between the emotional centers of the brain -the prefontal cortex and the amygdala -is in part dependent on the homeostatic sleep system such that connectivity between these brain networks is higher when rested and lower when sleep deprived. High connectivity drives more efficient executive functioning, while a disconnect leads to poor executive functioning capacity including emotional reactivity and impulsivity. The cognitive effects of the homeostatic system are couple with the mood regulation effects of the circadian system together dictating the degree to which one experiences emotional regulation or dysregulation. Further, the affective brain systems of individuals with clinical symptomology and/or pathology are suggested to be more vulnerable to homeostatic pressure and circadian lows or misalignment resulting in increased affective clinical symptomology. We review empirical evidence that supports this framework and explore the implications of this framework. Finally, we describe future directions for this type of work.