Cognitive Bias by Gender Interaction on N170 Response to Emotional Facial Expressions in Major and Minor Depression

详细信息    查看全文

• 作者：Xingqu Wu ; Jiu Chen ; Ting Jia ; Wentao Ma ; Yan Zhang ; Zihe Deng…
• 关键词：Cognitive bias ; Gender differences ; Emotional facial expression ; Event ; related potentials ; Minor depression ; Major depression
• 刊名：Brain Topography
• 出版年：2016
• 出版时间：March 2016
• 年：2016
• 卷：29
• 期：2
• 页码：232-242
• 全文大小：1,044 KB
• 参考文献：Arnone D, McKie S, Elliott R, Thomas EJ, Downey D, Juhasz G, Williams SR, Deakin JF, Anderson IM (2012) Increased amygdala responses to sad but not fearful faces in major depression: relation to mood state and pharmacological treatment. Am J Psychiatry 169(8):841–850CrossRef PubMed
  Association AP (1994) Diagnostic and Statistical Manual of Mental Disorders, 4th edn. DSM-IV: American Psychiatric Association, Washington, DC
  Batty M, Taylor MJ (2003) Early processing of the six basic facial emotional expressions. Brain Res Cogn Brain Res 17(3):613–620CrossRef PubMed
  Bentin S, Allison T, Puce A, Perez E, McCarthy G (1996) Electrophysiological studies of face perception in humans. J Cogn Neurosci 8(6):551–565PubMedCentral CrossRef PubMed
  Blau VC, Maurer U, Tottenham N, McCandliss BD (2007) The face-specific N170 component is modulated by emotional facial expression. Behav Brain Funct 3:7PubMedCentral CrossRef PubMed
  Bradley MM, Codispoti M, Sabatinelli D, Lang PJ (2001) Emotion and motivation II: sex differences in picture processing. Emotion 1(3):300–319CrossRef PubMed
  Butler PD, Martinez A, Foxe JJ, Kim D, Zemon V, Silipo G, Mahoney J, Shpaner M, Jalbrzikowski M, Javitt DC (2007) Subcortical visual dysfunction in schizophrenia drives secondary cortical impairments. Brain 130(Pt 2):417–430PubMedCentral CrossRef PubMed
  Bylsma LM, Taylor-Clift A, Rottenberg J (2011) Emotional reactivity to daily events in major and minor depression. J Abnorm Psychol 120(1):155–167CrossRef PubMed
  Caharel S, Courtay N, Bernard C, Lalonde R, Rebai M (2005) Familiarity and emotional expression influence an early stage of face processing: an electrophysiological study. Brain Cogn 59(1):96–100CrossRef PubMed
  Calvo MG, Beltran D (2014) Brain lateralization of holistic versus analytic processing of emotional facial expressions. Neuroimage 92:237–247CrossRef PubMed
  Campanella S, Rossignol M, Mejias S, Joassin F, Maurage P, Debatisse D, Bruyer R, Crommelinck M, Guerit JM (2004) Human gender differences in an emotional visual oddball task: an event-related potentials study. Neurosci Lett 367(1):14–18CrossRef PubMed
  Campanella S, Montedoro C, Streel E, Verbanck P, Rosier V (2006) Early visual components (P100, N170) are disrupted in chronic schizophrenic patients: an event-related potentials study. Neurophysiol Clin 36(2):71–78CrossRef PubMed
  Campanella S, Falbo L, Rossignol M, Grynberg D, Balconi M, Verbanck P, Maurage P (2012) Sex differences on emotional processing are modulated by subclinical levels of alexithymia and depression: a preliminary assessment using event-related potentials. Psychiatry Res 197(1–2):145–153CrossRef PubMed
  Chen J, Ma W, Zhang Y, Wu X, Wei D, Liu G, Deng Z, Yang L, Zhang Z (2014a) Distinct facial processing related negative cognitive bias in first-episode and recurrent major depression: evidence from the N170 ERP component. PLoS One 9(10):e109176PubMedCentral CrossRef PubMed
  Chen J, Ma W, Zhang Y, Yang LQ, Zhang Z, Wu X, Deng Z (2014b) Neurocognitive impairment of mental rotation in major depressive disorder: evidence from event-related brain potentials. J Nerv Ment Dis 202(8):594–602CrossRef PubMed
  Chen J, Zhang Y, Wei D, Wu X, Fu Q, Xu F, Wang H, Ye M, Ma W, Yang L, Zhang Z (2015) Neurophysiological handover from MMN to P3a in first-episode and recurrent major depression. J Affect Disord 174:173–179CrossRef PubMed
  Cuijpers P, de Graaf R, van Dorsselaer S (2004) Minor depression: risk profiles, functional disability, health care use and risk of developing major depression. J Affect Disord 79(1–3):71–79CrossRef PubMed
  Cuijpers P, Smit F, Willemse G (2005) Predicting the onset of major depression in subjects with subthreshold depression in primary care: a prospective study. Acta Psychiatr Scand 111(2):133–138CrossRef PubMed
  Dai Q, Feng Z, Koster EH (2011) Deficient distracter inhibition and enhanced facilitation for emotional stimuli in depression: an ERP study. Int J Psychophysiol 79(2):249–258CrossRef PubMed
  Demenescu LR, Kortekaas R, den Boer JA, Aleman A (2010) Impaired attribution of emotion to facial expressions in anxiety and major depression. PLoS One 5(12):e15058PubMedCentral CrossRef PubMed
  Dietrich DE, Emrich HM, Waller C, Wieringa BM, Johannes S, Munte TF (2000) Emotion/cognition-coupling in word recognition memory of depressive patients: an event-related potential study. Psychiatry Res 96(1):15–29CrossRef PubMed
  Garcia-Garcia M, Dominguez-Borras J, SanMiguel I, Escera C (2008) Electrophysiological and behavioral evidence of gender differences in the modulation of distraction by the emotional context. Biol Psychol 79(3):307–316CrossRef PubMed
  Gotlib IH, Neubauer DL (2000) Information processing approaches to the study of cognitive biases in depression. In: Johnson SL, Hayes AM (eds) Stress, Coping and Depression. Erlbaum, Mahwah, pp 117–143
  Gur RC, Gunning-Dixon F, Bilker WB, Gur RE (2002) Sex differences in temporo-limbic and frontal brain volumes of healthy adults. Cereb Cortex 12(9):998–1003CrossRef PubMed
  Hall JA, Mast MS (2008) Are women always more interpersonally sensitive than men? Impact of goals and content domain. Personal Soc Psychol Bull 34(1):144–155CrossRef
  Hankin BL, Gibb BE, Abela JR, Flory K (2010) Selective attention to affective stimuli and clinical depression among youths: role of anxiety and specificity of emotion. J Abnorm Psychol 119(3):491–501PubMedCentral CrossRef PubMed
  Hietanen JK, Astikainen P (2013) N170 response to facial expressions is modulated by the affective congruency between the emotional expression and preceding affective picture. Biol Psychol 92(2):114–124CrossRef
  Hurtado E, Haye A, Gonzalez R, Manes F, Ibanez A (2009) Contextual blending of ingroup/outgroup face stimuli and word valence: LPP modulation and convergence of measures. BMC Neurosci 10:69PubMedCentral CrossRef PubMed
  Ibanez A, Hurtado E, Riveros R, Urquina H, Cardona JF, Petroni A, Lobos-Infante A, Barutta J, Baez S, Manes F (2011) Facial and semantic emotional interference: a pilot study on the behavioral and cortical responses to the Dual Valence Association Task. Behav Brain Funct 7:8PubMedCentral CrossRef PubMed
  Johnston PJ, Stojanov W, Devir H, Schall U (2005) Functional MRI of facial emotion recognition deficits in schizophrenia and their electrophysiological correlates. Eur J Neurosci 22(5):1221–1232CrossRef PubMed
  Joormann J, Gotlib IH (2006) Is this happiness I see? Biases in the identification of emotional facial expressions in depression and social phobia. J Abnorm Psychol 115(4):705–714CrossRef PubMed
  Judd LL, Akiskal HS (2002) The clinical and public health relevance of current research on subthreshold depressive symptoms to elderly patients. Am J Geriatr Psychiatry 10(3):233–238CrossRef PubMed
  Kemp AH, Silberstein RB, Armstrong SM, Nathan PJ (2004) Gender differences in the cortical electrophysiological processing of visual emotional stimuli. Neuroimage 21(2):632–646CrossRef PubMed
  Kessler RC, Zhao S, Blazer DG, Swartz M (1997) Prevalence, correlates, and course of minor depression and major depression in the National Comorbidity Survey. J Affect Disord 45(1–2):19–30CrossRef PubMed
  Kim EY, Lee SH, Park G, Kim S, Kim I, Chae JH, Kim HT (2013) Gender difference in event related potentials to masked emotional stimuli in the oddball task. Psychiatry Investig 10(2):164–172PubMedCentral CrossRef PubMed
  Lane RD, Reiman EM, Bradley MM, Lang PJ, Ahern GL, Davidson RJ, Schwartz GE (1997) Neuroanatomical correlates of pleasant and unpleasant emotion. Neuropsychologia 35(11):1437–1444CrossRef PubMed
  Lee TM, Liu HL, Hoosain R, Liao WT, Wu CT, Yuen KS, Chan CC, Fox PT, Gao JH (2002) Gender differences in neural correlates of recognition of happy and sad faces in humans assessed by functional magnetic resonance imaging. Neurosci Lett 333(1):13–16CrossRef PubMed
  Leppanen JM (2006) Emotional information processing in mood disorders: a review of behavioral and neuroimaging findings. Curr Opin Psychiatry 19(1):34–39CrossRef PubMed
  Li H, Yuan J, Lin C (2008) The neural mechanism underlying the female advantage in identifying negative emotions: an event-related potential study. Neuroimage 40(4):1921–1929CrossRef PubMed
  Lithari C, Frantzidis CA, Papadelis C, Vivas AB, Klados MA, Kourtidou-Papadeli C, Pappas C, Ioannides AA, Bamidis PD (2010) Are females more responsive to emotional stimuli? A neurophysiological study across arousal and valence dimensions. Brain Topogr 23(1):27–40PubMedCentral CrossRef PubMed
  Lyness JM, Chapman BP, McGriff J, Drayer R, Duberstein PR (2009) One-year outcomes of minor and subsyndromal depression in older primary care patients. Int Psychogeriatr 21(1):60–68PubMedCentral CrossRef PubMed
  McClure EB (2000) A meta-analytic review of sex differences in facial expression processing and their development in infants, children, and adolescents. Psychol Bull 126(3):424–453CrossRef PubMed
  Mesholam-Gately RI, Giuliano AJ, Zillmer EA, Barakat LP, Kumar A, Gur RC, McAndrew LM, Bilker WB, Elderkin-Thompson V, Moberg PJ (2012) Verbal learning and memory in older adults with minor and major depression. Arch Clin Neuropsychol 27(2):196–207PubMedCentral CrossRef PubMed
  Mingtian Z, Xiongzhao Z, Jinyao Y, Shuqiao Y, Atchley RA (2011) Do the early attentional components of ERPs reflect attentional bias in depression? It depends on the stimulus presentation time. Clin Neurophysiol 122(7):1371–1381CrossRef PubMed
  Nandrino JL, Dodin V, Martin P, Henniaux M (2004) Emotional information processing in first and recurrent major depressive episodes. J Psychiatr Res 38(5):475–484CrossRef PubMed
  Nezlek JB, Gable SL (2001) Depression as a moderator of relationships between positive daily events and day-to-day psychological adjustment. Personal Soc Psychol Bull 27(12):1692–1704CrossRef
  Northoff G, Richter A, Gessner M, Schlagenhauf F, Fell J, Baumgart F, Kaulisch T, Kotter R, Stephan KE, Leschinger A, Hagner T, Bargel B, Witzel T, Hinrichs H, Bogerts B, Scheich H, Heinze HJ (2000) Functional dissociation between medial and lateral prefrontal cortical spatiotemporal activation in negative and positive emotions: a combined fMRI/MEG study. Cereb Cortex 10(1):93–107CrossRef PubMed
  Peeters F, Nicolson NA, Berkhof J, Delespaul P, deVries M (2003) Effects of daily events on mood states in major depressive disorder. J Abnorm Psychol 112(2):203–211CrossRef
  Persad SM, Polivy J (1993) Differences between depressed and nondepressed individuals in the recognition of and response to facial emotional cues. J Abnorm Psychol 102(3):358–368CrossRef PubMed
  Rapaport MH, Judd LL, Schettler PJ, Yonkers KA, Thase ME, Kupfer DJ, Frank E, Plewes JM, Tollefson GD, Rush AJ (2002) A descriptive analysis of minor depression. Am J Psychiatry 159(4):637–643CrossRef PubMed
  Rossignol M, Philippot P, Crommelinck M, Campanella S (2008) Visual processing of emotional expressions in mixed anxious-depressed subclinical state: an event-related potential study on a female sample. Neurophysiol Clin 38(5):267–275CrossRef PubMed
  Schneider F, Habel U, Kessler C, Salloum JB, Posse S (2000) Gender differences in regional cerebral activity during sadness. Hum Brain Mapp 9(4):226–238CrossRef PubMed
  Solomon RL, Corbit JD (1974) An opponent-process theory of motivation. I. Temporal dynamics of affect. Psychol Rev 81(2):119–145CrossRef PubMed
  Solomon A, Haaga DA, Arnow BA (2001) Is clinical depression distinct from subthreshold depressive symptoms? A review of the continuity issue in depression research. J Nerv Ment Dis 189(8):498–506CrossRef PubMed
  Stuhrmann A, Dohm K, Kugel H, Zwanzger P, Redlich R, Grotegerd D, Rauch AV, Arolt V, Heindel W, Suslow T, Zwitserlood P, Dannlowski U (2013) Mood-congruent amygdala responses to subliminally presented facial expressions in major depression: associations with anhedonia. J Psychiatry Neurosci 38(4):249–258PubMedCentral CrossRef PubMed
  Vanderhasselt MA, De Raedt R, Dillon DG, Dutra SJ, Brooks N, Pizzagalli DA (2012) Decreased cognitive control in response to negative information in patients with remitted depression: an event-related potential study. J Psychiatry Neurosci 37(4):250–258PubMedCentral CrossRef PubMed
  Wang Y, Liu F, Li R, Yang Y, Liu T, Chen H (2013) Two-stage processing in automatic detection of emotional intensity: a scalp event-related potential study. Neuroreport 24(14):818–821CrossRef PubMed
  Wrase J, Klein S, Gruesser SM, Hermann D, Flor H, Mann K, Braus DF, Heinz A (2003) Gender differences in the processing of standardized emotional visual stimuli in humans: a functional magnetic resonance imaging study. Neurosci Lett 348(1):41–45CrossRef PubMed
  Wronka E, Walentowska W (2011) Attention modulates emotional expression processing. Psychophysiology 48(8):1047–1056CrossRef PubMed
  Yoon KL, Joormann J, Gotlib IH (2009) Judging the intensity of facial expressions of emotion: depression-related biases in the processing of positive affect. J Abnorm Psychol 118(1):223–228PubMedCentral CrossRef PubMed
  Zheng YP, Zhao JP, Phillips M, Liu JB, Cai MF, Sun SQ, Huang MF (1988) Validity and reliability of the Chinese Hamilton Depression Rating Scale. Br J Psychiatry 152:660–664CrossRef PubMed
  
• 作者单位：Xingqu Wu (1)
  Jiu Chen (1) (2)
  Ting Jia (1)
  Wentao Ma (1)
  Yan Zhang (1)
  Zihe Deng (1)
  Laiqi Yang (1)
  
  1. Center for Mental Disease Control and Prevention, Third Hospital of the People’s Liberation Army, No. 45, Dongfeng Road, Baoji, 721004, Shaanxi, People’s Republic of China
  2. Department of Neurology of Affiliated ZhongDa Hospital, Medical School and Institute of Neuropsychiatry of Southeast University, 87 DingJiaQiao Road, Nanjing, 210009, Jiangsu, People’s Republic of China
  
• 刊物类别：Biomedical and Life Sciences
• 刊物主题：Biomedicine
  Neurosciences
  Psychiatry
  Neurology
  
• 出版者：Springer New York
• ISSN：1573-6792

文摘

States of depression are considered to relate to a cognitive bias reactivity to emotional events. Moreover, gender effect may influence differences in emotional processing. The current study is to investigate whether there is an interaction of cognitive bias by gender on emotional processing in minor depression (MiD) and major depression (MaD). N170 component was obtained during a visual emotional oddball paradigm to manipulate the processing of emotional information in 33 MiD, 36 MaD, and 32 controls (CN). Compared with CN, in male, both MiD and MaD had lower N170 amplitudes for happy faces, but MaD had higher N170 amplitudes for sad faces; in female, both MiD and MaD had lower N170 amplitudes for happy and neutral faces, but higher N170 amplitudes for sad faces. Compared with MaD in male, MiD had higher N170 amplitudes for happy faces, lower N170 amplitudes for sad faces; in female, MiD only had higher N170 amplitudes for sad faces. Interestingly, a negative relationship was observed between N170 amplitude and the HDRS score for identification of happy faces in depressed patients while N170 amplitude was positively correlated with the HDRS score for sad faces identification. These results provide novel evidence for the mood-brightening effect with an interaction of cognitive bias by gender on emotional processing. It further suggests that female depression may be more vulnerable than male during emotional face processing with the unconscious negative cognitive bias and depressive syndromes may exist on a spectrum of severity on emotional face processing.