网络游戏成瘾者的情绪加工异常

doi:10.3724/SP.J.1042.2024.01152

摘要/Abstract

摘要：

研究表明, 网络游戏成瘾(internet gaming disorder, IGD)个体对消极情绪刺激, 尤其是愤怒情绪刺激存在异常的加工偏向, 而且IGD个体面对消极刺激会产生过高的情绪唤起并在调节消极情绪方面出现困难, 以上情绪加工能力的异常会在IGD的维持和发展中起到重要作用。同时, IGD个体情绪加工相关脑区也出现了异常, 例如杏仁核、前扣带皮层、脑岛和部分前额叶皮层。未来研究可以更多关注IGD的群体情绪加工、情绪加工的时间进程、有效提高IGD个体情绪调节能力的方法以及IGD青少年的情绪加工问题。此外, 也可以通过多样化地设置和呈现情绪刺激来达到不同的研究目的, 同时还需要考虑被试的性别比例以及被试长期和短期的情绪状态对情绪加工研究结果的影响。

关键词: 网络游戏成瘾(IGD), 面孔表情, 情绪加工偏向, 情绪调节

Abstract:

Internet Gaming Disorder (IGD) has garnered increasing attention from international communities, and the research on the topic has become more urgent and vital. Existing studies indicate that people with IGD exhibit abnormalities in emotional processing, along with corresponding abnormalities in brain mechanisms.

The abnormal emotional processing in individuals with IGD can be broadly categorized into two facets: biased processing of negative emotional stimuli and challenges in effectively regulating negative emotions. Firstly, people with IGD exhibit abnormal processing biases toward negative emotional stimuli, especially those associated with anger. On one hand, in facial expression recognition tasks, individuals with IGD show processing biases towards angry faces but not sad faces. Anger but not sadness is a typical representative of threatening facial expressions even though both are negative emotions. These imply that processing of various types of negative facial expressions in individuals with IGD rather than broadly comparing negative facial expressions with positive ones needs further investigation. On the other hand, in executive control tasks, people with IGD exhibit abnormal automatization and biases when processing negative interfering stimuli (particularly those associated with anger) compared to neutral and positive interfering stimuli. Furthermore, when confronted with negative interfering stimuli, they tend to experience overactivation of the ventral attention system, hindering the goal-oriented processing of the dorsal attention system. This renders them to be more vulnerable to the interference of negative stimuli, which then requires increased cognitive resources for effective executive control. Hence, future studies could focus on the emotional characteristics of interfering stimuli and compare the effects of interference across different types of emotions. Secondly, negative stimuli elicit excessive emotional arousal in people with IGD, yet they encounter difficulties in effective emotional regulation. In terms of the brain mechanism of emotional arousal, the activation of the bilateral insula and right ventral anterior cingulate cortex is enhanced when IGD individuals are exposed to negative stimuli. Moreover, the brain mechanisms related to emotional regulation in people with IGD are also abnormal. For instance, when experiencing a negative event during gaming, IGD individuals show weaker activation of the left middle frontal gyrus (MFG) and decreased functional connections between the left MFG and the right amygdala than recreational gamer users. Additionally, the theoretical models of IGD emotional regulation are evolving. In the early stage of addiction, individuals with IGD often turn to online gaming as a coping mechanism to alleviate negative emotions. This process establishes a connection between internal triggers of negative emotions and online gaming-generated reinforcing experiences. Subsequently, this linkage tends to intensify over time. In the late stage, an automatic response to game cues and a heightened craving for gaming will appear in response to triggers. Consequently, non-adaptive emotional regulation might play a more direct role in the early development of IGD.

In a word, the emotional processing abnormalities among people with IGD have certain internal connections. Specifically, IGD individuals who exhibit processing biases towards negative emotional stimuli display heightened sensitivity to such stimuli in terms of brain activity. Moreover, people with IGD tend to experience more intense emotional arousal when confronted with negative stimuli. Hence, effective emotional regulation is crucial for people with IGD to maintain a normal emotional state. However, people with IGD find it difficult to effectively regulate negative emotions and tend to adopt a non-adaptive emotional regulation strategy—online gaming. Then, the negative reinforcement generated in this process may further aggravate addiction and form a vicious circle.

Future research could focus on the following aspects: First, pinpointing the gender ratio of the participants and the effects of the participants' long-term and short-term emotional states on the results of the emotional processing studies. Second, diversifying the design of emotional stimuli to investigate various facets of IGD emotional processing. For example, exploring the processing of dynamic facial expressions, the intonation in emotional expressions, and body expressions. Third, it would be beneficial to present cross-channel emotional information, examining the integrated processing of multi-sensory emotional stimuli in individuals with IGD. Fourth, incorporating the event-related potentials (ERP) technique can be instrumental in exploring the temporal dynamics of emotional processing in IGD, given its high time resolution. Fifth, to further clarify the relationship between IGD and impaired social function, it is important to investigate the group emotional processing of IGD individuals, particularly focusing on group facial expression processing. Sixth, exploring ways to effectively enhance the emotional regulation ability of IGD individuals. Therefore, investigating more representative methods according to the structural relationship of general emotional regulation strategies warrent furture exploration. Finally, the emotional processing of adolescents with IGD remains a largely understudied area. Existing theoretical models suggest that emotional regulation may have a more direct impact on early IGD. Therefore, in terms of the time course, intervention in the emotional regulation of adolescents with IGD may have a better effect.

Key words: Internet Gaming Disorder (IGD), facial expression, emotional processing bias, emotional regulation

中图分类号:

B842

常茜芮, 何蔚祺. (2024). 网络游戏成瘾者的情绪加工异常. 心理科学进展 , 32(7), 1152-1163.

CHANG Qianrui, HE Weiqi. (2024). Abnormal emotional processing in people with Internet Gaming Disorder. Advances in Psychological Science, 32(7), 1152-1163.

参考文献 108

[1]	范晓壮, 毕小彬, 谢宇, 贺荟中. (2020). 高功能自闭症个体对威胁性情绪面孔的注意偏向. 心理科学进展, 28(7), 1172-1186. doi: 10.3724/SP.J.1042.2020.01172
[2]	靳宇倡, 余梦, 胡云龙. (2019). 网络游戏成瘾研究的争议及趋势. 心理科学进展, 27(1), 83-95. doi: 10.3724/SP.J.1042.2019.00083
[3]	李萍, 张明明, 李帅霞, 张火垠, 罗文波. (2019). 面孔表情和声音情绪信息整合加工的脑机制. 心理科学进展, 27(7), 1205-1214. doi: 10.3724/SP.J.1042.2019.01205
[4]	中国互联网络信息中心. (2023). 第52次《中国互联网络发展状况统计报告》. 北京: 中国互联网络信息中心.
[5]	Almutairi, T. A., Almutairi, K. S., Ragab, K. M., Nourelden, A. Z., Assar, A., Matar, S.,... Collaboration, Team. (2023). Prevalence of internet gaming disorder and its association with psychiatric comorbidities among a sample of adults in three Arab countries. Middle East Current Psychiatry, 30(8), 1-7.
[6]	American Psychiatric Association. (2013). Diagnostic and statistical manual of mental disorders (DSM-5). Washington, DC: Author.
[7]	Banks, S. J., Eddy, K. T., Angstadt, M., Nathan, P. J. & Phan, K. L. (2007). Amygdala-frontal connectivity during emotion regulation. Social Cognitive Affective Neuroscience, 2(4), 303-312.
[8]	Berboth, S., & Morawetz, C. (2021). Amygdala-prefrontal connectivity during emotion regulation: A meta-analysis of psychophysiological interactions. Neuropsychologia, 153, 107767.
[9]	Billings, L. S., Harrison, D. W., & Alden, J. D. (1993). Age differences among women in the functional asymmetry for bias in facial affect perception. Bulletin of the Psychonomic Society, 31, 317-320.
[10]	Biolcati, R., Passini, S., & Pupi, V. (2021). The role of video gaming motives in the relationship between personality risk traits and Internet Gaming Disorder. Journal of Gambling Issues, 46, 221-241.
[11]	Brand, M. (2022). Can internet use become addictive? Science, 376(6595), 798-799. doi: 10.1126/science.abn4189 pmid: 35587961
[12]	Brand, M., Wegmann, E., Stark, R., Müller, A., Wölfling, K., Robbins, T. W., & Potenza, M. N. (2019). The Interaction of person-affect-cognition-execution (I-PACE) model for addictive behaviors: Update, generalization to addictive behaviors beyond internet-use disorders, and specification of the process character of addictive behaviors. Neuroscience & Biobehavioral Reviews, 104, 1-10.
[13]	Brand, M., Young, K. S. & Laier, C. (2014). Prefrontal control and Internet addiction: A theoretical model and review of neuropsychological and neuroimaging findings. Frontiers in Human Neuroscience, 8, 375. doi: 10.3389/fnhum.2014.00375 pmid: 24904393
[14]	Brand, M., Young, K. S., Laier, C., Wölfling, K., & Potenza, M. N. (2016). Integrating psychological and neurobiological considerations regarding the development and maintenance of specific Internet-use disorders: An Interaction of person- affect-cognition-execution (I-PACE) model. Neuroscience & Biobehavioral Reviews, 71, 252-266.
[15]	Bush, G., Luu, P., & Posner, M. I. (2000). Cognitive and emotional influences in anterior cingulate cortex. Trends in Cognitive Sciences, 4(6), 215-222. doi: 10.1016/s1364-6613(00)01483-2 pmid: 10827444
[16]	Cardinal, R. N., Parkinson, J. A., Hall, J., & Everitt, B. J. (2002). Emotion and motivation: The role of the amygdala, ventral striatum, and prefrontal cortex. Neuroscience & Biobehavioral Reviews, 26(3), 321-352.
[17]	Carlisle, K. (2020). Utility of DSM-5 criteria for internet gaming disorder. Psychological Reports, 124(6), 2613-2632.
[18]	Ceceli, A. O., Bradberry, C. W., & Goldstein, R. Z. (2022). The neurobiology of drug addiction: Cross-species insights into the dysfunction and recovery of the prefrontal cortex. Neuropsychopharmacology, 47, 276-291.
[19]	Chen, Y. Z., Yu, H. L., & Gao, X. M. (2022). Influences of emotional information on response inhibition in gaming disorder: Behavioral and ERP evidence from go/no-go Task. International Journal of Environmental Research and Public Health, 19(23), 16264.
[20]	Chiu, Y. C., Pan, Y. C., & Lin, Y. H. (2018). Chinese adaptation of the ten-item internet gaming disorder test and prevalence estimate of internet gaming disorder among adolescents in Taiwan. Journal of Behavioral Addictions, 7(3), 719-726.
[21]	Chun, J. W., Choi, J., Cho, H., Lee, S. K., & Kim, D. J. (2015). Dysfunction of the frontolimbic region during swear word processing in young adolescents with Internet gaming disorder. Translational Psychiatry, 5, e624.
[22]	Corbetta, M., & Shulman, G. L. (2002). Control of goal-directed and stimulus-driven attention in the brain. Nature Reviews Neuroscience, 3, 201-215. doi: 10.1038/nrn755 pmid: 11994752
[23]	Corbetta, M., Kincade, J. M., Ollinger, J. M., McAvoy, M. P., & Shulman, G. L. (2000). Voluntary orienting is dissociated from target detection in human posterior parietal cortex. Nature Neuroscience, 3, 292-297. doi: 10.1038/73009 pmid: 10700263
[24]	Crunelle, C. L., Kaag, A. M., Munkhof, H. E., Reneman, L., Homberg, J. R., Sabbe, B., … Wingen, G. (2015). Dysfunctional amygdala activation and connectivity with the prefrontal cortex in current cocaine users. Human Brain Mapping, 36(10), 4222-4230. doi: 10.1002/hbm.22913 pmid: 26220024
[25]	de Gelder, B. & Solanas, M. P. (2021). A computational neuroethology perspective on body and expression perception. Trends in Cognitive Science, 25(9), 744-756.
[26]	Diaz, R. L., Wong, U., Hodgins, D. C., Chiu, C. G., & Goghari, V. M. (2016). Violent video game players and non-players differ on facial emotion recognition. Aggressive Behavior, 42(1), 16-28. doi: 10.1002/ab.21602 pmid: 26299393
[27]	Dong, G. H., & Potenza, M. N. (2014). A cognitive- behavioral model of internet gaming disorder: Theoretical underpinnings and clinical implications. Journal of Psychiatric Research, 58, 7-11.
[28]	Dong, G. H., Wang, Z., Dong, H., Wang, M., Zheng, Y., Ye, S., … Potenza, M. N. (2020). More stringent criteria are needed for diagnosing internet gaming disorder: Evidence from regional brain features and whole-brain functional connectivity multivariate pattern analyses. Journal of Behavioral Addictions, 9(3), 642-653.
[29]	Duggirala, S. X., Belyk, M., Schwartze, M., Kanske, P., & Kotz, S. A. (2022). Emotional salience but not valence impacts anterior cingulate cortex conflict processing. Cognitive, Affective, & Behavioral Neuroscience, 22, 1250-1263.
[30]	Eckert, M. A., Menon, V., Walczak, A., Ahlstrom, J., Denslow, S., Horwitz, A., & Dubno, J. R. (2009). At the heart of the ventral attention system: The right anterior insula. Human Brain Mapping, 30(8), 2530-2541. doi: 10.1002/hbm.20688 pmid: 19072895
[31]	Enock, F. E., Tipper, S. P., & Over, H. (2021). Intergroup preference, not dehumanization, explains social biases in emotion attribution. Cognition, 216, 104865.
[32]	Fam, J. Y. (2018). Prevalence of internet gaming disorder in adolescents: A meta-analysis across three decades. Scandinavian Journal of Psychology, 59(5), 524-531. doi: 10.1111/sjop.12459 pmid: 30004118
[33]	Fan, L., He, J., Zheng, Y., Li, C., & Meng, Y. (2023). Sensitivity and response criterion in facial micro- expression recognition among internet gaming disorder. Motivation and Emotion, 47, 842-853.
[34]	Fan, L., He, J., Zheng, Y., Nie, Y., Chen, T., & Zhang, H. (2022). Facial micro-expression recognition impairment and its relationship with social anxiety in internet gaming disorder. Current Psychology, 42, 21021-21030.
[35]	Feng, W., Ramo, D., Chan, S., & Bourgeois, J. (2017). Internet gaming disorder: Trends in prevalence 1998-2016. Addictive Behaviors, 75, 17-24. doi: S0306-4603(17)30232-0 pmid: 28662436
[36]	Foisy, M. L., Kornreich, C., Petiau, C., Parez, A., Hanak, C., Verbanck, P., … Philippot, P. (2007). Impaired emotional facial expression recognition in alcoholics: Are these deficits specific to emotional cues? Psychiatry Research, 150(1), 33-41.
[37]	Gao, Y. X., Wang, J. Y., & Dong, G. H. (2022). The prevalence and possible risk factors of internet gaming disorder among adolescents and young adults: Systematic reviews and meta-analyses. Journal of Psychiatric Research, 154, 35-43.
[38]	Gioia, F., Rega, V., & Boursier, V. (2021). Problematic internet use and emotional dysregulation among young people: A literature review. Clinical Neuropsychiatry, 18(1), 41-54. doi: 10.36131/cnfioritieditore20210104 pmid: 34909019
[39]	Gottfried, J. A., O'Doherty, J., & Dolan, R. J. (2003). Encoding predictive reward value in human amygdala and orbitofrontal cortex. Science, 301(5636), 1104-1107. doi: 10.1126/science.1087919 pmid: 12934011
[40]	Gray, J. R., Braver, T. S., & Raichle, M. E. (2002). Integration of emotion and cognition in the lateral prefrontal cortex. Proceedings of the National Academy of Sciences of the United States of America, 99(6), 4115-4120. doi: 10.1073/pnas.062381899 pmid: 11904454
[41]	Guo, L., Huang, C., Lu, J., Wu, X., Shan, H., Chen, T., … Zhao, M., (2023). Decreased inter-brain synchronization in the right middle frontal cortex in alcohol use disorder during social interaction: An fNIRS hyperscanning study. Journal of Affective Disorders, 329, 573-580.
[42]	Halberstadt, J. (2003). The paradox of emotion attribution: Explanation biases perceptual memory for emotional expressions. Current Directions in Psychological Science, 12(6), 197-201.
[43]	He, J., Zheng, Y., Fan, L., Pan, T., & Nie, Y. (2019). Automatic processing advantage of cartoon face in internet gaming disorder: Evidence from P100, N170, P200, and MMN. Frontiers in Psychiatry, 10, 824. doi: 10.3389/fpsyt.2019.00824 pmid: 31780973
[44]	Imataka, G., Sakuta, R., Maehashi, A., & Yoshihara, S. (2022). Current status of internet gaming disorder (IGD) in Japan: New lifestyle-related disease in children and adolescents. Journal of Clinical Medicine, 11(15), 4566.
[45]	Kirsh, S. J., & Mounts, J. R. W. (2007). Violent video game play impacts facial emotion recognition. Aggressive Behavior, 33, 353-358. pmid: 17593563
[46]	Ko, C. H., Hsieh, T. J., Wang, P. W., Lin, W. C., Yen, C. F., Chen, C. S., & Yen, J. Y. (2015). Altered gray matter density and disrupted functional connectivity of the amygdala in adults with Internet gaming disorder. Progress in Neuro-Psychopharmacology & Biological Psychiatry, 57, 185-192.
[47]	Kuss, D. J., Pontes, H. M., & Griffiths, M. D. (2018). Neurobiological correlates in internet gaming disorder: A systematic literature review. Frontiers in Psychiatry, 9, 166. doi: 10.3389/fpsyt.2018.00166 pmid: 29867599
[48]	Laconi, S., Pirès, S., & Chabrol, H. (2017). Internet gaming disorder, motives, game genres and psychopathology. Computers in Human Behavior, 75, 652-659.
[49]	Lee, D., Park, J., Namkoong, K., Kim, I. Y., & Jung, Y. C. (2018). Gray matter differences in the anterior cingulate and orbitofrontal cortex of young adults with internet gaming disorder: Surface-based morphometry. Journal of Behavioral Addictions, 7(1), 21-30. doi: 10.1556/2006.7.2018.20 pmid: 29529887
[50]	Lee, J. H., Lee, S. J., Chun, J. W., Cho, H., Kim, D. J., & Jung, Y. C. (2015). Compromised prefrontal cognitive control over emotional interference in adolescents with internet gaming disorder. Cyberpsychology, Behavior, and Social Networking, 18(11), 661-668.
[51]	Lee, S. Y., Lee, H. K., & Choo, H. (2017). The typology of internet gaming disorder and its clinical implications. Psychiatry and Clinical Neurosciences, 71(7), 479-491.
[52]	Lin, P. Y., Lin, H. C., Lin, P. C., Yen, J. Y., & Ko, C. H. (2020). The association between emotional regulation and internet gaming disorder. Psychiatry Research, 289, 113060.
[53]	Longstreet, P., Brooks, S., & Gonzalez, E. S. (2019). Internet addiction: When the positive emotions are not so positive. Technology in Society, 57, 76-85. doi: 10.1016/j.techsoc.2018.12.004
[54]	Lu, Q., Li, H., Luo, G., Wang, Y., Tang, H., Han, L., & Yao, Z. (2012). Impaired prefrontal-amygdala effective connectivity is responsible for the dysfunction of emotion process in major depressive disorder: A dynamic causal modeling study on MEG. Neuroscience Letters, 523(2), 125-30. doi: 10.1016/j.neulet.2012.06.058 pmid: 22750155
[55]	McNally, R. J. (2019). Attentional bias for threat: Crisis or opportunity? Clinical Psychology Review, 69, 4-13. doi: S0272-7358(17)30401-4 pmid: 29853421
[56]	Menon, V., & Uddin, L. Q. (2010). Saliency, switching, attention and control: A network model of insula function. Brain Structure & Function, 214, 655-667.
[57]	Mihara, S., & Higuchi, S. (2017). Cross-sectional and longitudinal epidemiological studies of internet gaming disorder: A systematic review of the literature. Psychiatry and Clinical Neurosciences, 71(7), 425-444. doi: 10.1111/pcn.12532 pmid: 28436212
[58]	Montagne, B., Kessels, R., Frigerio, E., de Haan, E., & Perrett, D. (2005). Sex differences in the perception of affective facial expressions: Do men really lack emotional sensitivity? Cognitive Processing, 6, 136-141. doi: 10.1007/s10339-005-0050-6 pmid: 18219511
[59]	Mueller, F., Lenz, C., Dolder, P. C., Harder, S., Schmid, Y., Lang, U. E., … Borgwardt, S. (2017). Acute effects of LSD on amygdala activity during processing of fearful stimuli in healthy subjects. Translational Psychiatry, 7, 1084. doi: 10.1038/tp.2017.54 pmid: 28375205
[60]	Müller, T., & Bonnaire, C. (2020). Intrapersonal and interpersonal emotion regulation and identity: A preliminary study of avatar identification and gaming in adolescents and young adults. Psychiatry Research, 295, 113627.
[61]	Naragon-Gainey, K., McMahon, T. P., & Chacko, T. P. (2017). The structure of common emotion regulation strategies: A meta-analytic examination. Psychological Bulletin, 143(4), 384-427. doi: 10.1037/bul0000093 pmid: 28301202
[62]	Niu, X., Gao, X., Zhang, M., Yang, Z., Yu, M., Wang, W.,... Zhang, Y. (2022). Meta-analysis of structural and functional brain alterations in internet gaming disorder. Frontiers in Psychiatry, 13, 1029344.
[63]	Nozawa, T., Sasaki, Y., Sakaki, K., Yokoyama, R., & Kawashima, R. (2016). Interpersonal frontopolar neural synchronization in group communication: An exploration toward fNIRS hyperscanning of natural interactions. Neuroimage, 133, 484-497. doi: S1053-8119(16)30003-9 pmid: 27039144
[64]	Ochsner, K. N., & Gross, J. J. (2005). The cognitive control of emotion. Trends in Cognitive Sciences, 9(5), 242-249. doi: 10.1016/j.tics.2005.03.010 pmid: 15866151
[65]	Ohayon, M. M., & Roberts, L. (2021). Internet gaming disorder and comorbidities among campus-dwelling U.S. university students. Psychiatry Research, 302, 114043.
[66]	Ostinelli, E. G., Zangani, C., Giordano, B., Maestri, D., Gambini, O., D’Agostino, A., … Purgato, M. (2021). Depressive symptoms and depression in individuals with internet gaming disorder: A systematic review and meta-analysis. Journal of Affective Disorders, 284, 136-142. doi: 10.1016/j.jad.2021.02.014 pmid: 33592432
[67]	Paulus, F., W., Ohmann, S., Gontard, A. V., & Popow, C. (2018). Internet gaming disorder in children and adolescents: A systematic review. Developmental Medicine & Child Neurology, 60(7), 645-459.
[68]	Peng, X. Z., Cui, F., Wang, T., & Jiao, C. (2017). Unconscious processing of facial expressions in individuals with internet gaming disorder. Frontiers in Psychology, 8, 1059. doi: 10.3389/fpsyg.2017.01059 pmid: 28690578
[69]	Phan, K. L., Fitzgerald, D. A., Nathan, P. J., Moore, G. J., Uhde, T. W., & Tancer, M. E. (2005). Neural substrates for voluntary suppression of negative affect: A functional magnetic resonance imaging study. Biological Psychiatry, 57(3), 210-219. doi: 10.1016/j.biopsych.2004.10.030 pmid: 15691521
[70]	Phillips, M. L., Drevets, W. C., Rauch, S. L., & Lane, R. (2003). Neurobiology of emotion perception I: The neural basis of normal emotion perception. Biological Psychiatry, 54(5), 504-514. doi: 10.1016/s0006-3223(03)00168-9 pmid: 12946879
[71]	Qin, K., Zhang, F., Chen, T., Li, L., Li, W., Suo, X., … Gong, Q. (2020). Shared gray matter alterations in individuals with diverse behavioral addictions: A voxel-wise meta- analysis. Journal of Behavioral Addictions, 9(1), 44-57.
[72]	Quaresima, V., & Ferrari, M. (2016). Functional near-infrared spectroscopy (fNIRS) for assessing cerebral cortex function during human behavior in natural/social situations: A concise review. Organizational Research Methods, 22(1), 46-68.
[73]	Rogier, G., & Velotti, P. (2018). Conceptualizing gambling disorder with the process model of emotion regulation. Journal of Behavioral Addictions, 7(2), 239-251. doi: 10.1556/2006.7.2018.52 pmid: 29936851
[74]	Sabz, A. M. B., Asgari, P., Makvandi, B., Ehteshamzadeh, P., & Pour, S. B. (2021). Comparison of the effectiveness of positive psychology and emotion regulation training interventions in promoting the psychological well-being in nar-anon group. International Journal of Mental Health and Addiction, 19, 1909-1918.
[75]	Schupp, H. T., Ohman, A., Junghöfer, M., Weike, A. I., Stockburger, J., & Hamm, A. O. (2004). The facilitated processing of threatening faces: An ERP analysis. Emotion, 4(2), 189-200. doi: 10.1037/1528-3542.4.2.189 pmid: 15222855
[76]	Shapira, N. A., Goldsmith, T. D., Keck, Jr., P., E., Khosla, U. M., & McElroy, S. L. (2000). Psychiatric features of individuals with problematic Internet use. Journal of Affective Disorders, 57(1-3), 267-272. doi: 10.1016/s0165-0327(99)00107-x pmid: 10708842
[77]	Shapira, N. A., Lessig, M. C., Goldsmith, T. D., Szabo, S. T., Lazoritz, M., Gold, M. S., & Stein, D. J. (2003). Problematic internet use: Proposed classification and diagnostic criteria. Depression and Anxiety, 17(4), 207-216. doi: 10.1002/da.10094 pmid: 12820176
[78]	Shin, Y. B., Kim, H., Kim, S. J., & Kim, J. J. (2020). A neural mechanism of the relationship between impulsivity and emotion dysregulation in patients with Internet gaming disorder. Addiction Biology, 26(3), e12916.
[79]	Šimić, G., Tkalčić, M., Vukić, V., Mulc, D., Španić, E., Šagud, M.,... Hof, P. R. (2021). Understanding emotions: Origins and roles of the amygdala. Biomolecules, 11, 823.
[80]	Siste, K., Hanafi, E., Sen, L. T., Wahjoepramono, P. O. P., Kurniawan, A., & Yudistiro, R. (2021). Potential correlates of internet gaming disorder among Indonesian medical students: Cross-sectional study. Journal of Medical Internet Research, 23(4), e25468.
[81]	Sit, H. F., Chang, C. I., Yuan, G. F., Chen, C., Cui, L., Elhai, J. D., & Hall, B. J. (2023). Symptoms of internet gaming disorder and depression in Chinese adolescents: A network analysis. Psychiatry Research, 322, 115097.
[82]	Smith, E. R. (1993). Social identity and social emotions:Towards new conceptualizations of prejudice. In D. M. Mackie & D. L. Hamilton (Eds.), Affect, cognition, and stereotyping (pp. 297-315). San Diego, CA: Academic Press.
[83]	Sugaya, N., Shirasaka, T., Takahashi, K., & Kanda, H. (2019). Bio-psychosocial factors of children and adolescents with internet gaming disorder: A systematic review. BioPsychoSocial Medicine, 13, 3. doi: 10.1186/s13030-019-0144-5 pmid: 30809270
[84]	Tang, Y. Y., Tang, R., & Posner, M.I. (2016). Mindfulness meditation improves emotion regulation and reduces drug abuse. Drug Alcohol Depend, 16, S13-S18.
[85]	Terasawa, Y., Motomura, K., Natsume, A., Iijima, K., Chalise, L., Sugiura, J.,... Umeda, S. (2021). Effects of insular resection on interactions between cardiac interoception and emotion recognition. Cortex, 137, 271-281. doi: 10.1016/j.cortex.2021.01.011 pmid: 33662691
[86]	Tian, M., Chen, Q., Zhang, Y., Du, F., Hou, H., Chao, F., & Zhang, H. (2014). PET imaging reveals brain functional changes in internet gaming disorder. European Journal of Nuclear Medicine and Molecular Imaging, 41, 1388-1397. doi: 10.1007/s00259-014-2708-8 pmid: 24737115
[87]	Tippett, D. C., Godin, B. R., Oishi, K., Oishi, K., Davis, C., Gomez, Y., & Hillis, A. E. (2018). Impaired recognition of emotional faces after stroke involving right amygdala or insula. Seminars in Speech and Language, 39 (1), 87-99. doi: 10.1055/s-0037-1608859 pmid: 29359308
[88]	Uçur, Ö., & Dönmez, Y. E. (2021). Problematic internet gaming in adolescents, and its relationship with emotional regulation and perceived social support. Psychiatry Research, 296, 113678.
[89]	Ünal-Aydin, P., Balikçi, K., Sönmez, İ., & Aydin, O. (2020). Associations between emotion recognition and social networking site addiction. Psychiatry Research, 284, 112673.
[90]	Vuilleumier, P. (2002). Facial expression and selective attention. Current Opinion in Psychiatry, 15(3), 291-300.
[91]	Wang, T., Ge, Y., Zhang, J. F., Liu, J., & Luo, W. B. (2014). The capacity for pain empathy among urban internet- addicted left-behind children in China: An event-related potential study. Computers in Human Behavior, 33, 56-62.
[92]	Wang, Z. L., Song, K. R., Zhou, N., Potenza, M. N., Zhang, J. T., & Dong, G. H. (2022). Gender-related differences in involvement of addiction brain networks in internet gaming disorder: Relationships with craving and emotional regulation. Progress in Neuropsychopharmacology & Biological Psychiatry, 118, 110574.
[93]	Wartberg, L., Kriston, L., Kramer, M., Schwedler, A., Lincoln, T. M., & Kammerl, R. (2017). Internet gaming disorder in early adolescence: Associations with parental and adolescent mental health. European Psychiatry, 43, 14-18. doi: S0924-9338(17)30004-4 pmid: 28365463
[94]	Wartberg, L., Kriston, L., Zieglmeier, M., Lincoln, T., & Kammerl, R. (2019). A longitudinal study on psychosocial causes and consequences of internet gaming disorder in adolescence. Psychological Medicine, 49(2), 287-294. doi: 10.1017/S003329171800082X pmid: 29622057
[95]	Weissman, D. H., & Prado, J. (2012). Heightened activity in a key region of the ventral attention network is linked to reduced activity in a key region of the dorsal attention network during unexpected shifts of covert visual spatial attention. Neuroimage, 61(4), 798-804. doi: 10.1016/j.neuroimage.2012.03.032 pmid: 22445785
[96]	Wells, L., Gillespie, S., & Rotshtein, P. (2016). Identification of emotional facial expressions: Effects of expression, intensity, and sex on eye gaze. PLoS One, 11(12), e0168307.
[97]	World Health Organization. (2018). International classification of diseases (ICD-11). Geneva: World Health Organization.
[98]	Wu, L. L., Potenza, M. N., Zhou, N., Kober, H., Shi., X., H., Yip, S. W.,... Zhang, J. T. (2020). A role for the right dorsolateral prefrontal cortex in enhancing regulation of both craving and negative emotions in internet gaming disorder: A randomized trial. European Neuropsychopharmacology, 36, 29-37.
[99]	Wu, L. L., Zhu, L., Shi, X. H., Zhou, N., Wang, R., Liu, G. Q.,... Zhang, J. T. (2020). Impaired regulation of both addiction-related and primary rewards in individuals with internet gaming disorder. Psychiatry Research, 286, 112890.
[100]	Yao, Y. W., Liu, L., Ma, S. S., Shi, X. H., Zhou, N., Zhang, J. T., & Potenza, M. N. (2017). Functional and structural neural alterations in internet gaming disorder: A systematic review and meta-analysis. Neuroscience & Biobehavioral Reviews, 83, 313-324.
[101]	Yip, S. W., Gross, J. J., Chawla, M., Ma, S. S., Shi, X. H., Liu, L.,... Zhang, J. (2018). Is neural processing of negative stimuli altered in addiction independent of drug effects? Findings from drug-naive youth with internet gaming disorder. Neuropsychopharmacology, 43, 1364-1372.
[102]	Yu, H., & Cho, J. (2017). Prevalence of internet gaming disorder among Korean adolescents and associations with non-psychotic psychological symptoms, and physical aggression. American Journal of Health Behavior, 40(6), 705-716.
[103]	Zengin, H., Çınar, N., Erbay, E., Topal, S., & Akduran, F. (2021). Internet gaming disorder in high-school adolescents and related factors. Annals of King Edward Medical University, 27(4), 523-529.
[104]	Zhang, J. L., Dong, H. H., Zhao, Z., Chen, S. Y., Jiang, Q., Du, X. X., & Dong, G. H. (2020). Altered neural processing of negative stimuli in people with internet gaming disorder: fMRI evidence from the comparison with recreational game users. Journal of Affective Disorders, 264, 324-332. doi: S0165-0327(19)32324-9 pmid: 32056768
[105]	Zhang, Y., Zhou, W., Wang, S., Zhou, Q., Wang, H., Zhang, B., & Wang, X. (2019). The roles of subdivisions of human insula in emotion perception and auditory processing. Cerebral Cortex, 29(2), 517-528. doi: 10.1093/cercor/bhx334
[106]	Zhang, Z. J., Wang, S. Z., Du, X. X., Qi, Y. Y., Wang, L. X., & Dong, G. H. (2023). Brain responses to positive and negative events in individuals with internet gaming disorder during real gaming. Journal of Behavioral Addictions, 12(3), 758-774.
[107]	Zhao, H., Zhang, C., Tao, R., Duan, H., & Xu, S. (2023). Distinct inter-brain synchronization patterns underlying group decision-making under uncertainty with partners in different interpersonal relationships. NeuroImage, 272, 120043.
[108]	Zhou, F., Montag, C., Sariyska, R., Lachmann, B., Reuter, M., Weber, B.,... Becker, B. (2017). Orbitofrontal gray matter deficits as marker of Internet gaming disorder: Converging evidence from a cross-sectional and prospective longitudinal design. Addiction Biology, 24(1), 100-109.