Abstract
Research on brain areas involved in experiencing emotion and physical pain is abundant; however, psychological pain has received little attention in studies of the brain. The purpose of this systematic review was to provide an overview of studies on brain function related to psychological pain. The review was limited to studies in which participants experienced actual psychological pain or recalled a significant autobiographical event that may be assumed to have involved psychological pain. Based on results of the studies (N = 18), a tentative neural network for psychological pain is proposed that includes the thalamus, anterior and posterior cingulate cortex, the prefrontal cortex, cerebellum, and parahippocampal gyrus. Results indicated that grief may be a more accurate exemplar of psychological pain than recalled sadness, with indications of greater arousal during psychological pain. The proposed neural network for psychological pain overlaps to some extent with brain regions involved in physical pain, but results suggest a markedly reduced role for the insula, caudate, and putamen during psychological pain. Psychological pain is well known for its association with depression and as a precursor of suicidal behavior. Thus, identification of brain areas involved in psychological pain may help guide development of interventions to decrease mortality and morbidity.
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References
Apkarian, A. V., Bushnell, M. C., Treede, R. D., & Zubieta, J. K. (2005). Human brain mechanisms of pain perception and regulation in health and disease. European Journal of Pain, 9(4), 463–484. doi:10.1016/j.ejpain.2004.11.001.
Apkarian, A. V., Baliki, M. N., & Geha, P. Y. (2009). Towards a theory of chronic pain. Progress in Neurobiology, 87(2), 81–97. doi:10.1016/j.pneurobio.2008.09.018.
Biro, D. (2010). Is there such a thing as psychological pain? and why It matters. Culture, Medicine and Psychiatry. doi:10.1007/s11013-010-9190-y.
Borsook, D., Moulton, E. A., Tully, S., Schmahmann, J. D., & Becerra, L. (2008). Human cerebellar responses to brush and heat stimuli in healthy and neuropathic pain subjects. Cerebellum, 7(3), 252–272. doi:10.1007/s12311-008-0011-6.
Bush, G., Luu, P., & Posner, M. I. (2000). Cognitive and emotional influences in anterior cingulate cortex. Trends in Cognitive Sciences, 4(6), 215–222.
Chavez-Hernandez, A. M., Leenaars, A. A., Chavez-de Sanchez, M. I., & Leenaars, L. (2009). Suicide notes from Mexico and the United States: a thematic analysis. Salud Pública de México, 51(4), 314–320.
Colibazzi, T., Posner, J., Wang, Z., Gorman, D., Gerber, A., Yu, S., et al. (2010). Neural systems subserving valence and arousal during the experience of induced emotions. Emotion, 10(3), 377–389. doi:10.1037/a0018484.
Collins, D. L., Neelin, P., Peters, T. M., & Evans, A. C. (1994). Automatic 3D intersubject registration of MR volumetric data in standardized Talairach space. Journal of Computer Assisted Tomography, 18(2), 192–205.
Davidson, R. J., & Irwin, W. (1999). The functional neuroanatomy of emotion and affective style. Trends in Cognitive Sciences, 3(1), 11–21.
Drevets, W. C., & Raichle, M. E. (1998). Reciprocal suppression of regional cerebral blood flow during emotional versus higher cognitive processes: implications for interactions between emotion and cognition. Cognition and Emotion. Special Issue: Neuropsychological perspectives on affective and anxiety disorders, 12(3), 353–385.
Eickhoff, S. B., Laird, A. R., Grefkes, C., Wang, L. E., Zilles, K., & Fox, P. T. (2009). Coordinate-based activation likelihood estimation meta-analysis of neuroimaging data: a random-effects approach based on empirical estimates of spatial uncertainty. Human Brain Mapping, 30(9), 2907–2926. doi:10.1002/hbm.20718.
Eisenberger, N. I., Lieberman, M. D., & Williams, K. D. (2003). Does rejection hurt? An FMRI study of social exclusion. Science, 302(5643), 290–292. doi:10.1126/science.1089134.
Friston, K. J., Holmes, A. P., Worsley, K. J., Poline, J. B., Frith, C. D., & Frackowiak, R. S. J. (1995). Statistical parametric maps in functional imaging: a general linear approach. Human Brain Mapping, 2(4), 189–210.
George, M. S., Ketter, T. A., Parekh, P. I., Herscovitch, P., & Post, R. M. (1996). Gender differences in regional cerebral blood flow during transient self-induced sadness or happiness. Biological Psychiatry, 40(9), 859–871. doi:10.1016/0006-3223(95)00572-2.
Gerber, A. J., Posner, J., Gorman, D., Colibazzi, T., Yu, S., Wang, Z., et al. (2008). An affective circumplex model of neural systems subserving valence, arousal, and cognitive overlay during the appraisal of emotional faces. Neuropsychologia, 46(8), 2129–2139. doi:10.1016/j.neuropsychologia.2008.02.032.
Gündel, H., O’Connor, M. F., Littrell, L., Fort, C., & Lane, R. D. (2003). Functional neuroanatomy of grief: an FMRI study. The American Journal of Psychiatry, 160(11), 1946–1953.
Hilz, M. J., Devinsky, O., Szczepanska, H., Borod, J. C., Marthol, H., & Tutaj, M. (2006). Right ventromedial prefrontal lesions result in paradoxical cardiovascular activation with emotional stimuli. Brain, 129(Pt 12), 3343–3355. doi:10.1093/brain/awl299.
Hudson, A. J. (2000). Pain perception and response: central nervous system mechanisms. Canadian Journal of Neurological Sciences, 27(1), 2–16.
Keedwell, P. A., Andrew, C., Williams, S. C., Brammer, M. J., & Phillips, M. L. (2005). A double dissociation of ventromedial prefrontal cortical responses to sad and happy stimuli in depressed and healthy individuals. Biological Psychiatry, 58(6), 495–503. doi:10.1016/j.biopsych.2005.04.035.
Kersting, A., Ohrmann, P., Pedersen, A., Kroker, K., Samberg, D., Bauer, J., et al. (2009). Neural activation underlying acute grief in women after the loss of an unborn child. The American Journal of Psychiatry, 166(12), 1402–1410. doi:10.1176/appi.ajp.2009.08121875.
Kilpatrick, L., & Cahill, L. (2003). Amygdala modulation of parahippocampal and frontal regions during emotionally influenced memory storage. NeuroImage, 20(4), 2091–2099.
Lancaster, J. L., Rainey, L. H., Summerlin, J. L., Freitas, C. S., Fox, P. T., Evans, A. C., et al. (1997). Automated labeling of the human brain: a preliminary report on the development and evaluation of a forward-transform method. Human Brain Mapping, 5(4), 238–242. doi:10.1002/(SICI)1097-0193(1997)5:4<238::AID-HBM6>3.0.CO;2-4.
Lancaster, J. L., Woldorff, M. G., Parsons, L. M., Liotti, M., Freitas, C. S., Rainey, L., et al. (2000). Automated Talairach atlas labels for functional brain mapping. Human Brain Mapping, 10(3), 120–131. doi:10.1002/1097-0193(200007)10:3<120::AID-HBM30>3.0.CO;2-8.
Lane, R. D., Reiman, E. M., Ahern, G. L., Schwartz, G. E., & Davidson, R. J. (1997). Neuroanatomical correlates of happiness, sadness, and disgust. The American Journal of Psychiatry, 154(7), 926–933.
Liotti, M., Mayberg, H. S., McGinnis, S., Brannan, S. L., & Jerabek, P. (2002). Unmasking disease-specific cerebral blood flow abnormalities: mood challenge in patients with remitted unipolar depression. The American Journal of Psychiatry, 159(11), 1830–1840.
Macdonald, G., & Leary, M. R. (2005). Why does social exclusion hurt? The relationship between social and physical pain. Psychological Bulletin, 131(2), 202–223. doi:10.1037/0033-2909.131.2.202.
Martin, M. (1990). On the induction of mood. Clinical Psychology Review, 10(6), 669–697.
Mee, S., Bunney, B. G., Reist, C., Potkin, S. G., & Bunney, W. E. (2006). Psychological pain: a review of evidence. Journal of Psychiatric Research, 40(8), 680–690. doi:10.1016/j.jpsychires.2006.03.003.
Mee, S., Bunney, B. G., Bunney, W. E., Hetrick, W., Potkin, S. G., & Reist, C. (2011). Assessment of psychological pain in major depressive episodes. Journal of Psychiatric Research, 45(11), 1504–1510. doi:10.1016/j.jpsychires.2011.06.011.
Meerwijk, E. L., & Weiss, S. J. (2011). Toward a unifying definition of psychological pain. Journal of Loss & Trauma, 16(5), 402–412, doi:10.1080/15325024.2011.572044.
Moulton, E. A., Elman, I., Pendse, G., Schmahmann, J., Becerra, L., & Borsook, D. (2011). Aversion-related circuitry in the cerebellum: responses to noxious heat and unpleasant images. Journal of Neuroscience, 31(10), 3795–3804. doi:10.1523/JNEUROSCI.6709-10.2011.
Munro, B. H. (2005). Statistical methods for health care research (5th ed.). Philadelphia, PA: Lippincott Williams & Wilkins.
Murray, H. A. (2008). Explorations in personality (70th ed.). New York, NY: Oxford University Press.
Najib, A., Lorberbaum, J. P., Kose, S., Bohning, D. E., & George, M. S. (2004). Regional brain activity in women grieving a romantic relationship breakup. The American Journal of Psychiatry, 161(12), 2245–2256. doi:10.1176/appi.ajp.161.12.2245.
Nielen, M. M., Heslenfeld, D. J., Heinen, K., Van Strien, J. W., Witter, M. P., Jonker, C., et al. (2009). Distinct brain systems underlie the processing of valence and arousal of affective pictures. Brain and Cognition, 71(3), 387–396. doi:10.1016/j.bandc.2009.05.007.
O’Connor, M. F., Gündel, H., McRae, K., & Lane, R. D. (2007). Baseline vagal tone predicts BOLD response during elicitation of grief. Neuropsychopharmacology, 32(10), 2184–2189. doi:10.1038/sj.npp.1301342.
O’Connor, M. F., Wellisch, D. K., Stanton, A. L., Eisenberger, N. I., Irwin, M. R., & Lieberman, M. D. (2008). Craving love? Enduring grief activates brain’s reward center. NeuroImage, 42(2), 969–972. doi:10.1016/j.neuroimage.2008.04.256.
Olié, E., Guillaume, S., Jaussent, I., Courtet, P., & Jollant, F. (2010). Higher psychological pain during a major depressive episode may be a factor of vulnerability to suicidal ideation and act. Journal of Affective Disorders, 120(1–3), 226–230. doi:10.1016/j.jad.2009.03.013.
Onoda, K., Okamoto, Y., Nakashima, K., Nittono, H., Ura, M., & Yamawaki, S. (2009). Decreased ventral anterior cingulate cortex activity is associated with reduced social pain during emotional support. Social Neuroscience, 4(5), 443–454. doi:10.1080/17470910902955884.
Orbach, I., Mikulincer, M., Gilboa-Schechtman, E., & Sirota, P. (2003). Mental pain and its relationship to suicidality and life meaning. Suicide & Life-Threatening Behavior, 33(3), 231–241.
Orbach, I., Mikulincer, M., Sirota, P., & Gilboa-Schechtman, E. (2003). Mental pain: a multidimensional operationalization and definition. Suicide & Life-Threatening Behavior, 33(3), 219–230.
Pardo, J. V., Pardo, P. J., & Raichle, M. E. (1993). Neural correlates of self-induced dysphoria. The American Journal of Psychiatry, 150(5), 713–719.
Pelletier, M., Bouthillier, A., Levesque, J., Carrier, S., Breault, C., Paquette, V., et al. (2003). Separate neural circuits for primary emotions? Brain activity during self-induced sadness and happiness in professional actors. Neuroreport, 14(8), 1111–1116. doi:10.1097/01.wnr.0000075421.59944.69.
Phan, K. L., Wager, T., Taylor, S. F., & Liberzon, I. (2002). Functional neuroanatomy of emotion: a meta-analysis of emotion activation studies in PET and fMRI. NeuroImage, 16(2), 331–348. doi:10.1006/nimg.2002.1087.
Pompili, M., Lester, D., Leenaars, A. A., Tatarelli, R., & Girardi, P. (2008). Psychache and suicide: a preliminary investigation. Suicide & Life-Threatening Behavior, 38(1), 116–121.
Price, D. D. (2000). Psychological and neural mechanisms of the affective dimension of pain. Science, 288(5472), 1769–1772.
Prince, M., Patel, V., Saxena, S., Maj, M., Maselko, J., Phillips, M. R., et al. (2007). No health without mental health. Lancet, 370(9590), 859–877. doi:10.1016/S0140-6736(07)61238-0.
Ramnani, N. (2006). The primate cortico-cerebellar system: anatomy and function. Nature Reviews Neuroscience, 7(7), 511–522. doi:10.1038/nrn1953.
Reisch, T., Seifritz, E., Esposito, F., Wiest, R., Valach, L., & Michel, K. (2010). An fMRI study on mental pain and suicidal behavior. Journal of Affective Disorders. doi:10.1016/j.jad.2010.03.005.
Sackeim, H. A., Greenberg, M. S., Weiman, A. L., Gur, R. C., Hungerbuhler, J. P., & Geschwind, N. (1982). Hemispheric asymmetry in the expression of positive and negative emotions. Neurologic evidence. Archives of Neurology, 39(4), 210–218.
Schmahl, C. G., Vermetten, E., Elzinga, B. M., & Bremner, J. D. (2004). A positron emission tomography study of memories of childhood abuse in borderline personality disorder. Biological Psychiatry, 55(7), 759–765. doi:10.1016/j.biopsych.2003.11.007.
Schmahmann, J. D. (2004). Disorders of the cerebellum: ataxia, dysmetria of thought, and the cerebellar cognitive affective syndrome. The Journal of Neuropsychiatry and Clinical Neurosciences, 16(3), 367–378. doi:10.1176/appi.neuropsych.16.3.367.
Schmahmann, J. D., & Pandya, D. N. (1997). The cerebrocerebellar system. International Review of Neurobiology, 41, 31–60.
Schnitzler, A., & Ploner, M. (2000). Neurophysiology and functional neuroanatomy of pain perception. Journal of Clinical Neurophysiology, 17(6), 592–603.
Sergent, J. (1994). Brain-imaging studies of cognitive functions. Trends in Neurosciences, 17(6), 221–227.
Shackman, A. J., Salomons, T. V., Slagter, H. A., Fox, A. S., Winter, J. J., & Davidson, R. J. (2011). The integration of negative affect, pain and cognitive control in the cingulate cortex. Nature Reviews Neuroscience, 12(3), 154–167. doi:10.1038/nrn2994.
Sherwood, L. (2010). Human physiology: from cells to systems (7th ed.). Belmont, CA: Cengage Learning.
Shneidman, E. S. (1998). Perspectives on suicidology: further reflections on suicide and psychache. Suicide & Life-Threatening Behavior, 28(3), 245–250.
Soumani, A., Damigos, D., Oulis, P., Masdrakis, V., Ploumpidis, D., Mavreas, V., et al. (2011). Mental pain and suicide risk: application of the greek version of the Mental Pain and the Tolerance of Mental Pain scale. Psychiatriki, 22(4), 330–340.
Strotzer, M. (2009). One century of brain mapping using Brodmann areas. Klinische Neuroradiologie, 19(3), 179–186. doi:10.1007/s00062-009-9002-3.
Talairach, J., & Tournoux, P. (1988). Co-planar stereotaxic atlas of the human brain. 3-dimensional proportional system: an approach to cerebral imaging. New York: Thieme. Thieme Classics.
Tanida, M., Sakatani, K., Takano, R., & Tagai, K. (2004). Relation between asymmetry of prefrontal cortex activities and the autonomic nervous system during a mental arithmetic task: near infrared spectroscopy study. Neuroscience Letters, 369(1), 69–74. doi:10.1016/j.neulet.2004.07.076.
Troister, T., & Holden, R. R. (2010). Comparing psychache, depression, and hopelessness in their associations with suicidality: a test of Shneidman’s theory of suicide. Personality and Individual Differences, 49(7), 689–693. doi:10.1016/j.paid.2010.06.006.
Tucker, D. M. (1981). Lateral brain function, emotion, and conceptualization. Psychological Bulletin, 89(1), 19–46.
van Heeringen, K., Van den Abbeele, D., Vervaet, M., Soenen, L., & Audenaert, K. (2010). The functional neuroanatomy of mental pain in depression. Psychiatry Research. doi:10.1016/j.pscychresns.2009.07.011.
Vogt, B. A. (2005). Pain and emotion interactions in subregions of the cingulate gyrus. Nature Reviews Neuroscience, 6(7), 533–544. doi:10.1038/nrn1704.
Wager, T. D., Phan, K. L., Liberzon, I., & Taylor, S. F. (2003). Valence, gender, and lateralization of functional brain anatomy in emotion: a meta-analysis of findings from neuroimaging. NeuroImage, 19(3), 513–531.
Weiss, S. J., Haber, J., Horowitz, J. A., Stuart, G. W., & Wolfe, B. (2009). The inextricable nature of mental and physical health: implications for integrative care. Journal of the American Psychiatric Nurses Association, 15(6), 371–382. doi:10.1177/1078390309352513.
Wolf, U., Rapoport, M. J., & Schweizer, T. A. (2009). Evaluating the affective component of the cerebellar cognitive affective syndrome. The Journal of Neuropsychiatry and Clinical Neurosciences, 21(3), 245–253. doi:10.1176/appi.neuropsych.21.3.245.
Yakusheva, T. A., Shaikh, A. G., Green, A. M., Blazquez, P. M., Dickman, J. D., & Angelaki, D. E. (2007). Purkinje cells in posterior cerebellar vermis encode motion in an inertial reference frame. Neuron, 54(6), 973–985. doi:10.1016/j.neuron.2007.06.003.
Zubieta, J. K., Ketter, T. A., Bueller, J. A., Xu, Y., Kilbourn, M. R., Young, E. A., et al. (2003). Regulation of human affective responses by anterior cingulate and limbic mu-opioid neurotransmission. Archives of General Psychiatry, 60(11), 1145–1153. doi:10.1001/archpsyc.60.11.1145.
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Appendix
Appendix
The following tables show areas of changed brain activity during the experience of psychological pain (PP), as implicated by 18 studies included in this review. Results for each study are shown for the study condition in which higher intensity of psychological pain was expected (e.g. higher vs. lower psychological pain, complicated grief vs. noncomplicated grief, sadness vs. neutral mood). The brain areas are non-overlapping and organized under the left and right hemispheres and subcortical medial areas. Green cells in the table indicate increased activity and red cells indicate decreased activity. Dotted cells indicate that a study reported a global brain area, whereas other studies may have distinguished subdivisions.
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Meerwijk, E.L., Ford, J.M. & Weiss, S.J. Brain regions associated with psychological pain: implications for a neural network and its relationship to physical pain. Brain Imaging and Behavior 7, 1–14 (2013). https://doi.org/10.1007/s11682-012-9179-y
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DOI: https://doi.org/10.1007/s11682-012-9179-y