心理发展与教育 ›› 2022, Vol. 38 ›› Issue (3): 437-446.doi: 10.16187/j.cnki.issn1001-4918.2022.03.15

• 理论探讨与进展 • 上一篇    下一篇

亲社会行为的认知过程及脑神经基础

唐蕾1,2, 刘衍玲1, 杨营凯1   

  1. 1. 西南大学心理学部心理健康教育研究中心, 重庆 400715;
    2. 南山实验教育集团园丁学校, 深圳 518000
  • 发布日期:2022-05-17
  • 通讯作者: 刘衍玲 E-mail:ssq@swu.edu.cn
  • 基金资助:
    重庆市人文社会科学重点研究基地重点项目"亲社会视频游戏对青少年攻击性的抑制效应"(14SKB033);中央高校基本科研业务费专项资金资助项目"网络视频游戏对青少年的积极影响及其神经机制研究"(SWU1909223)。

The Cognitive Processes and Neural Bases of Prosocial Behavior

TANG Lei1,2, LIU Yanling1, YANG Yingkai1   

  1. 1. Research Center of Mental Health Education, Faculty of Psychology, Southwest University, Chongqing 400715;
    2. Nanshan Experimental Educational Group Yuanding School, Shenzhen 518000
  • Published:2022-05-17

摘要: 亲社会行为是指有利于他人和社会的行为,包括合作、分享、助人、安慰等。亲社会行为产生主要涉及几种认知过程:对他人行为和情绪的注意、社会信息加工、对结果的奖赏预期、社会规范表征、自我控制、以及社会信息整合与价值计算等。基于这些认知过程,研究发现,亲社会行为主要与前脑岛和前扣带回、默认网络背内侧子系统、奖赏系统以及前额叶皮层等神经区域有关,因此提出亲社会行为共同的认知-脑神经回路。未来可以对亲社会行为脑神经基础的共性、功能连接以及跨文化研究等方面做进一步探讨。

关键词: 亲社会行为, 认知过程, 神经基础

Abstract: Prosocial behavior refers to the behaviors that bring benefits to other individuals or society. They include cooperation, sharing, helping others, and comforting others. When people are performing prosocial behaviors, the following cognitive processes are ongoing: paying attention to others' behaviors and emotions, social information processing, expecting rewards for the result, the representation of social norm, self-control, social information integration, calculating values, etc. Based on these cognitive processes, the studies found that prosocial behaviors are mainly linked to the following neural regions: anterior insula, anterior cingulate cortex, the dorsal medial subsystem of default mode network, reward system and the prefrontal cortex. Therefore, we proposed a cognitive-neural circuitry for prosocial behaviors. The commonalities, functional connections, and cross-cultural research of the neural basis of prosocial behaviors can be further explored in the future.

Key words: prosocial behavior, cognitive process, neural basis

中图分类号: 

  • B844
Abler, B., Greenhouse, I., Ongur, D., Walter, H., & Heckers, S. (2008). Abnormal reward system activation in mania. Neuropsychopharmacology, 33(9), 2217-2227.
Aknin, L. B., Broesch, T., Hamlin, J. K., & Van de Vondervoort, J. W. (2015). Prosocial behavior leads to happiness in a small-scale rural society. Journal of Experimental Psychology:General, 144(4), 788-795.
Andreoni, J. (1990). Impure altruism and donations to public goods:A theory of warm-glowgiving. The Economic Journal, 100(401), 464-477.
Andrews-Hanna, J. R., Reidler, J. S., Sepulcre, J., Poulin, R., & Buckner, R. L. (2010). Functional-anatomic fractionation of the brain's default network.Neuron, 65(4), 550-562.
B ckler, A., Tusche, A., & Singer, T. (2016). The structure of human prosociality:Differentiating altruistically motivated, norm motivated, strategically motivated, and self-reported prosocial behavior.Social Psychological and Personality Science, 7(6), 530-541.
Bault, N., Pelloux, B., Fahrenfort, J. J., Ridderinkhof, K. R., & van Winden, F. (2014). Neural dynamics of social tie formation in economic decision-making. Social Cognitive and Affective Neuroscience, 10(6), 877-884.
Behrens, T. E., Hunt, L. T., Woolrich, M. W., & Rushworth, M. F. (2008). Associative learning of social value.Nature, 456, 245-249.
Bellucci, G., Feng, C., Camilleri, J., Eickhoff, S. B., & Krueger, F. (2018).The role of the anterior insula in social norm compliance and enforcement:Evidence from coordinate-based and functional connectivity meta-analyses. Neuroscience & Biobehavioral Reviews, 92, 378-389.
Braams, B. R., Gürolu, B., de Water, E., Meuwese, R., Koolschijn, P. C., Peper, J. S., & Crone, E. A. (2014). Reward-related neural responses are dependent on the beneficiary. Social Cognitive and Affective Neuroscience, 9(7), 1030-1037.
Cutler, J., & Campbell-Meiklejohn, D. (2019). A comparative fMRI meta-analysis of altruistic and strategic decisions to give.Neuroimage, 184, 227-241.
Cheng, X., Zheng, L., Li, L., Guo, X., Wang, Q., Lord, A., … Yang, G. (2015). Power to punish norm violations affects the neural processes of fairness-related decision making. Frontiers in Behavioral Neuroscience, 9, 344.https://doi.org/10.3389/fnbeh.2015.00344
Cheng, X., Zheng, L., Li, L., Zheng, Y., Guo, X., & Yang, G. (2017). Anterior insula signals inequalities in a modified Ultimatum Game.Neuroscience, 348, 126-134.
Cui, X., Bryant, D. M., & Reiss, A. L. (2012). NIRS-based hyperscanning reveals increased interpersonal coherence in superior frontal cortex during cooperation.Neuroimage, 59(3), 2430-2437.
Davidov, M., Vaish, A., Knafo-Noam, A., & Hastings, P. D. (2016). The motivational foundations of prosocial behavior from a developmental perspective-evolutionary roots and key psychological mechanisms:Introduction to the special section. Child Development, 87(6), 1655-1667.
De Quervain, D. J., Fischbacher, U., Treyer, V., & Schellhammer, M. (2004). The neural basis of altruistic punishment.Science, 305(5688), 1254-1258.
Declerck, C. H., Boone, C., & Emonds, G. (2013). When do people cooperate? The neuroeconomics of prosocial decision making.Brain & Cognition, 81(1), 95-117.
Denke, C., Rotte, M., Heinze, H.-J., & Schaefer, M. (2014). Belief in a just world is associated with activity in insula and somatosensory cortices as a response to the perception of norm violations.Social Neuroscience, 9(5), 514-521.
Eisenberg, N., & Mussen, P. H. (1989).The roots of prosocial behavior in children. Cambridge University Press.
Eisenberg, N., VanSchyndel, S. K., & Spinrad, T. L. (2016). Prosocial motivation:Inferences from an opaque body of work.Child Development, 87(6), 1668-1678.
Era, V., Fusaro, M., & Gallo, S. (2017). Commentary:Decoding the charitable brain:Empathy, perspective taking, and attention shifts differentially predict altruistic giving.Frontiers in Beharioral Neuroscience, 11, 110.https://doi.org/10.3389/fnbeh.2017.00110
Fukui, H., Murai, T., Shinozaki, J., Aso, T., Fukuyama, H., Hayashi, T., & Hanakawa, T. (2006). The neural basis of social tactics:An fMRI study.Neuroimage, 32(2), 913-920.
Gürolu, B., van den Bos, W., van Dijk, E., Rombouts, S. A., & Crone, E. A. (2011).Dissociable brain networks involved in development of fairness considerations:Understanding intentionality behind unfairness. Neuroimage, 57(2), 634-641.
Gürolu, B., Will, G.-J., & Crone, E. A. (2014). Neural correlates of advantageous and disadvantageous inequity in sharing decisions.PLoS One, 9(9), e107996.https://doi.org/10.1371/journal.pone. 0107996
Gabay, A. S., Radua, J., Kempton, M. J., & Mehta, M. A. (2014). The Ultimatum Game and the brain:A meta-analysis of neuroimaging studies.Neuroscience & Biobehavioral Reviews, 47, 549-558.
Ham, T., Leff, A., de Boissezon, X., Joffe, A., & Sharp, D. J. (2013). Cognitive control and the salience network:An investigation of error processing and effective connectivity.The Journal of Neuroscience:The Official Journal of the Society for Neuroscience, 33(16), 7091-7098.
Harbaugh, W. T., Mayr, U., & Burghart, D. R. (2007). Neural responses to taxation and voluntary giving reveal motives for charitable donations.Science, 316(5831), 1622-1625.
Hare, T. A., Camerer, C. F., Knoepfle, D. T., & Rangel, A. (2010). Value computations in ventral medial prefrontal cortex during charitable decision making incorporate input from regions involved in social cognition.The Journal of Neuroscience:The Official Journal of the Society for Neuroscience, 30(2), 583-590.
Hare, T. A., Camerer, C. F., & Rangel, A. (2009). Self-control in decision-making involves modulation of the vmPFC valuation system.Science, 324(5927), 646-648.
Hein, G., Morishima, Y., Leiberg, S., Sul, S., & Fehr, E. (2016). The brain's functional network architecture reveals human motives.Science, 351(6277), 1074-1078.
Izuma, K., Saito, D. N., & Sadato, N. (2010). Processing of the incentive for social approval in the ventral striatum during charitable donation.Journal of Cognitive Neuroscience, 22(4), 621-631.
Knoch, D., Nitsche, M. A., Fischbacher, U., Eisenegger, C., Pascual-Leone, A., & Fehr, E. (2007). Studying the neurobiology of social interaction with transcranial direct current stimulation-the example of punishing unfairness.Cerebral Cortex, 18(9), 1987-1990.
Knoch, D., Pascual-Leone, A., Meyer, K., Treyer, V., & Fehr, E. (2006). Diminishing reciprocal fairness by disrupting the right prefrontal cortex.Science, 314(5800), 829-832.
Krajbich, I., Adolphs, R., Tranel, D., Denburg, N. L., & Camerer, C. F. (2009). Economic games quantify diminished sense of guilt in patients with damage to the prefrontal cortex.Journal of Neuroscience:The Official Journal of the Society for Neuroscience, 29(7), 2188-2192.
Lamm, C., Decety, J., & Singer, T. (2011). Meta-analytic evidence for common and distinct neural networks associated with directly experienced pain and empathy for pain.Neuroimage, 54(3), 2492-2502.
Lawler, E. J., & Thye, S. R. (1999). Bringing emotions into social exchange theory.Annual Review of Sociology, 25(1), 217-244.
Lemmers-Jansen, I. L., Krabbendam, L., Amodio, D. M., Van Doesum, N. J., Veltman, D. J., & Van Lange, P. A. (2018). Giving others the option of choice:An fMRI study on low-cost cooperation.Neuropsychologia, 109, 1-9.
Liu, X., Li, J., Wang, G., Yin, X., Li, S., & Fu, X. (2017). Transcranial direct current stimulation of the rLPFC shifts normative judgments in voluntary cooperation.Neuroscience Letters. 719, 133164.https://doi.org/10.1016/j.neulet.2017.10020
Liu, T., Saito, G., Lin, C., & Saito, H. (2017). Inter-brain network underlying turn-based cooperation and competition:A hyperscanning study using near-infrared spectroscopy.Scientific Reports, 7(1), 1-12.
Lukinova, E., & Myagkov, M. (2016). Impact of short social training on prosocial behaviors:An fMRI study.Frontiers in Systems Neuroscience, 10, 60.https://doi.org/10.3389/fnsys.2016.00060
Luo, J. (2018). The neural basis of and a common neural circuitry in different types of pro-social behavior.Frontiers in Psychology, 9,859.https://doi.org/10.3389.fpsyg.2018.00859
Marsh, A. A. (2018). The neuroscience of empathy.Current Opinion in Behavioral Sciences, 19, 110-115.
Masten, C. L., Morelli, S. A., & Eisenberger, N. I. (2011). An fMRI investigation of empathy for 'social pain'and subsequent prosocial behavior.Neuroimage, 55(1), 381-388.
Moll, J., Krueger, F., Zahn, R., Pardini, M., Oliveirasouza, R. D., & Grafman, J. (2006). Human fronto-mesolimbic networks guide decisions about charitable donation.Proceedings of the National Academy of Sciences of the United States of America, 103(42), 15623-15628.
Montague, P. R., & Lohrenz, T. (2007). To detect and correct:norm violations and their enforcement.Neuron, 56(1), 14-18.
Morelli, S. A., Rameson, L. T., & Lieberman, M. D. (2014). The neural components of empathy:Predicting daily prosocial behavior.Social Cognitive and Affective Neuroscience, 9(1), 39-47.
Morishima, Y., Schunk, D., Bruhin, A., Ruff, C., & Fehr, E. (2012). Linking brain structure and activation in temporoparietal junction to explain the neurobiology of human altruism.Neuron, 75(1), 73-79.
Nelson, S. K., Della Porta, M. D., Jacobs Bao, K., Lee, H. C., Choi, I., & Lyubomirsky, S. (2015). 'It's up to you':Experimentally manipulated autonomy support for prosocial behavior improves well-being in two cultures over six weeks.The Journal of Positive Psychology, 10(5), 463-476.
Park, S. Q., Kahnt, T., Dogan, A., Strang, S., Fehr, E., & Tobler, P. N. (2017). A neural link between generosity and happiness.Nature Communications, 8, 15964.https://doi.org/10.1038/ncomms15964
Paulus, M., Gillis, S., Li, J., & Moore, C. (2013). Preschool children involve a third party in a dyadic sharing situation based on fairness.Journal of Experimental Child Psychology, 116(1), 78-85.
Paulus, M., Kühn-Popp, N., Licata, M., Sodian, B., & Meinhardt, J. (2013). Neural correlates of prosocial behavior in infancy:Different neurophysiological mechanisms support the emergence of helping and comforting.Neuroimage, 66(1), 522-530.
Peterson, L. (1982). Altruism and the development of internal control:An integrative model.Merrill-Palmer Quarterly, 28(2), 197-222.
Rilling, J. K., Sanfey, A. G., Aronson, J. A., Nystrom, L. E., & Cohen, J. D. (2004). The neural correlates of theory of mind within interpersonal interactions.Neuroimage, 22(4), 1694-1703.
Ruff, C. C., Ugazio, G., & Fehr, E. (2013). Changing social norm compliance with noninvasive brain stimulation.Science, 342(6157), 482-484.
Samanez-Larkin, G. R., & Knutson, B. (2015). Decision making in the ageing brain:Changes in affective and motivational circuits.Nature Reviews Neuroscience, 16(5), 278-289.
Schreuders, E., Klapwijk, E. T., Will, G.-J., & Gürolu, B. (2018). Friend versus foe:Neural correlates of prosocial decisions for liked and disliked peers.Cognitive, Affective, & Behavioral Neuroscience, 18(1), 127-142.
Singer, T., Seymour, B., O'doherty, J., Kaube, H., Dolan, R. J., & Frith, C. D. (2004). Empathy for pain involves the affective but not sensory components of pain.Science, 303(5661), 1157-1162.
Spitzer, M., Fischbacher, U., Herrnberger, B., Gr n, G., & Fehr, E. (2007). The neural signature of social norm compliance.Neuron, 56(1), 185-196.
Sridharan, D., Levitin, D. J., & Menon, V. (2008). A critical role for the right fronto-insular cortex in switching between central-executive and default-mode networks.Proceedings of the National Academy of Sciences of the United States of America, 105(34), 12569-12574.
Strang, S., Gross, J., Schuhmann, T., Riedl, A., Weber, B., & Sack, A. T. (2014). Be nice if you have to-the neurobiological roots of strategic fairness.Social Cognitive and Affective Neuroscience, 10(6), 790-796.
Strombach, T., Weber, B., Hangebrauk, Z., Kenning, P., Karipidis, I. I., Tobler, P. N., & Kalenscher, T. (2015). Social discounting involves modulation of neural value signals by temporoparietal junction.Proceedings of the National Academy of Sciences, 112(5), 1619-1624.
Tang, H., Mai, X., Wang, S., Zhu, C., Krueger, F., & Liu, C. (2016). Interpersonal brain synchronization in the right temporo-parietal junction during face-to-face economic exchange.Social Cognitive and Affective Neuroscience, 11(1), 23-32.
Tankersley, D., Stowe, C. J., & Huettel, S. A. (2007). Altruism is associated with an increased neural response to agency.Nature Neuroscience, 10(2), 150-151.
Tusche, A., B ckler, A., Kanske, P., Trautwein, F.-M., & Singer, T. (2016). Decoding the charitable brain:Empathy, perspective taking, and attention shifts differentially predict altruistic giving.Journal of Neuroscience, 36(17), 4719-4732.
Uddin, L. Q. (2017). Chapter 3-Functions of the Salience Network. In L. Q. Uddin (Ed.),Salience Network of the Human Brain (pp. 11-16). San Diego:Academic Press.
van der Meulen, M., van IJzendoorn, M. H., & Crone, E. A. (2016). Neural correlates of prosocial behavior:Compensating social exclusion in a four-player cyberball game.PLoS One, 11(7), e0159045.https://doi.org/10.1371/journal.pone.0159045
Vander Wyk, B. C., Hudac, C. M., Carter, E. J., Sobel, D. M., & Pelphrey, K. A. (2009). Action understanding in the superior temporal sulcus region. Psychological Science, 20(6), 771-777.
Van Hoorn, J., Van Dijk, E., Gürolu, B., & Crone, E. A. (2016). Neural correlates of prosocial peer influence on public goods game donations during adolescence.Social Cognitive and Affective Neuroscience, 11(6), 923-933.
Waytz, A., Zaki, J., & Mitchell, J. P. (2012). Response of dorsomedial prefrontal cortex predicts altruistic behavior.Journal of Neuroscience:The Official Journal of the Society for Neuroscience, 32(22), 7646-7650.
Zaki, J., & Mitchell, J. P. (2013). Intuitive Prosociality.Current Directions in Psychological Science, 22(6), 466-470.
Zinchenko, O., & Arsalidou, M. (2018). Brain responses to social norms:Meta-analyses of fMRI studies. Human Brain Mapping, 39(2), 955-970.
丁梦媛, 邓慧华, 彭苏浩, 陶丹, 冷玥. (2018). 动作意图理解与心智化的脑机制. 中华行为医学与脑科学杂志, 27(4), 381-384.
费定舟, 钱东海, 黄旭辰. (2016). 利他行为的自我控制过程模型:自我损耗下的道德情绪的正向作用. 心理学报, 48(9), 1175-1183.
寇彧, 徐华女. (2005). 移情对亲社会行为决策的两种功能. 心理学探新, 25(03), 74-78.
罗俊, 叶航, 汪丁丁. (2015). 捐赠动机、影响因素和激励机制:理论、实验与脑科学综述. 世界经济, (7), 165-192.
杨莹, 寇彧. (2017). 亲社会自主动机对青少年幸福感及亲社会行为的影响:基本心理需要满足的中介作用. 心理发展与教育, 33(2), 163-171.
苑明亮, 张梦圆, 寇彧. (2016). 亲社会名声与亲社会行为. 心理科学进展, 24(10), 1655-1662.
朱春燕, 汪凯, TMC, L. (2005). 社会认知的神经基础. 心理科学进展, 13(4), 525-533.
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