情緒入碼情境對於記憶登錄與提取中的控制歷程之影響

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劉子菱(Tzu-Ling Liu) 查詢紙本館藏

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論文名稱

情緒入碼情境對於記憶登錄與提取中的控制歷程之影響
(The effect of emotional encoding context on the memory control processes during encoding and retrieval)

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摘要(中)

過去研究顯示情緒性的記憶與非情緒性記憶在正確率與清析度上皆有顯著的不同，但這些結果多在探討情緒性記憶的形成機制，較少著墨於相關的控制歷程，例如記憶的抑制或搜尋。因此本研究將探討在不同的情緒情境下進行記憶登錄，會如何影響記憶的形成與提取. 實驗一採用項目指示遺忘作業，並操弄入碼階段的情緒情境。結果顯示當指示受試者主動記住(To-Be-Remembered)中性目標時，負向的入碼情境會妨害其記憶表現，但此種情緒操弄並不影響主動遺忘(To-Be-Forgotten)的抑制表現。事件相關電位(ERP)則顯示相較於中性的入碼情境，在負向的入碼情境下，需要主動記住的目標項目會引發較為延長的P3b波形。因此推測情緒性的入碼情境會影響記憶形成時的精緻處理(elaboration)。實驗二意在以磁振造影技術檢測當試圖提取在不同入碼情境下形成的記憶時，記憶提取導向(retrieval orientation)相關的腦部活動是否會有所不同。影像結果顯示角回(angular gyrus)、顳葉中回(middle temporal gyrus)、以及額葉中回(middle frontal gyrus)等區域的活動，在搜尋記憶時皆會受到記憶形成時的情緒經驗影響，因此推測提取情緒性的記憶會需要較多對於內在訊息的注意控制。實驗三以記憶提取導向作業檢測憂鬱症患者提取情緒性記憶的歷程與健康受試者是否有所不同。事件相關電位的結果顯示相較於對中性記憶的提取導向處理，憂鬱症患者對負向經驗的提取會在頭殼側邊引發較大的效果波形，而健康受試者所引發的效果則集中在中央頂葉區域。這可能暗示了憂鬱症患者對於負向情緒記憶的提取，可能涉及與健康者不同的腦區活動。

摘要(英)

Emotional memories are often viewed as distinct from non-emotional memories in terms of content as well as the accuracy and vividness. Although numerous studies have focused on the mechanisms of emotional memory, few have examined the control processes related to memory formation and searching. Thus, in the current thesis, the effect of emotional encoding context on memory control processes in the encoding and retrieval phases is studied.

The first experiment adopted the item-method directed forgetting task with emotional or non-emotional contexts. The results indicated that emotionally negative encoding context impaired elaborative encoding for the to-be-remembered (TBR) items rather than intentional forgetting for the to-be-forgotten items. The event-related potential (ERP) data showed a prolonged P3b waveform that was related to intentional encoding to the TBR cue. Therefore, emotional context during encoding may impair the control processes of intentional elaboration for memory items.

The second experiment examined the effect of emotional encoding context on retrieval orientation, which involved searching and cue processing according to retrieval demands. Although no significant behavioral effect was noted, functional magnetic resonance imaging data showed that during retrieval, activity in the angular, middle temporal, and middle frontal gyri was related to the emotion of the retrieved memory, implying that the attempt to retrieve emotional memories may involve greater attention control over internal information.

The third experiment used the retrieval orientation task to examine whether the retrieval process for negative memories differs between patients with major depressive disorder (MDD) and healthy participants. The patients with MDD showed a greater ERP effect over the lateral area when retrieving negative memories, whereas the healthy individuals demonstrated an effect over the middle parietal scalp area. This result implies that neural activity involved in searching for negative memories may differ between patients with MDD and healthy individuals.

關鍵字(中)

★ 情緒性記憶
★ 記憶控制歷程
★ 人類長期記憶
★ 情節記憶
★ 指示遺忘作業
★ 記憶提取導向作業
★ 事件相關電位
★ 功能性磁振造影
★ 憂鬱症

關鍵字(英)

★ emotional memory
★ memory control process
★ human long-term memory
★ episodic memory
★ directed forgetting task
★ retrieval orientation task
★ event-related portential
★ functional magnetic resonance imaging
★ major depressive disorder

論文目次

摘要 i
Abstract ii
致謝 iv
Content table v
List of Tables viii
List of Figures ix
List of Abbreviation xi
Chapter 1 General Introduction 1
Chapter 2 Experiment I 7
2-1 Introduction 7
2-2 Methods 10
2-2-1 Participants 10
2-2-2 Materials 11
2-2-3 Procedures 12
2-3 Results 14
2-3-1 Behavioral data. 14
2-3-2 ERPs time-locked to the context pictures. 16
2-3-3 ERPs time-locked to the study words. 18
2-3-4 ERPs time-locked to the R/F cues. 20
2-4 Discussion 23
2-4-1 Behavioral data 23
2-4-2 Word-related ERPs 25
2-4-3 Cue-related ERPs 25
Chapter 3 Experiment II 28
3-1 Introduction 28
3-2 Methods 33
3-2-1 Participants 33
3-2-2 Materials 33
3-2-3 Procedures 34
3-2-4 Functional MRI data acquisition and preprocessing 35
3-2-5 Statistical analysis of fMRI data 36
3-3 Results 37
3-3-1 Behavioral data 37
3-3-2 fMRI data 38
3-4 Discussion 41
3-4-1 Effect of emotional encoding context on retrieval orientation 42
3-4-2 Effect of emotional encoding context on old-new effects 45
Chapter 4 Experiment III 49
4-1 Introduction 49
4-2 Methods 51
4-2-1 Participants 51
4-2-2 Materials 51
4-2-3 Procedures 53
4-2-4 Electroencephalography acquisition and preprocessing 54
4-3 Results 55
4-3-1 Behavioral data 55
4-3-2 ERP data analysis 56
4-4 Discussion 61
4-4-1 Behavioral results 62
4-4-2 ERP results 62
Chapter 5 General Discussion and Conclusion 67
Chapter 6 References 72
Chapter 7 Appendixes 86

參考文獻

[1] James, W., The principles of psychology. New York: H. Holt and Company. 1980
[2] Reisberg, D., & Heuer, F. Memory for emotional events. InD.Reisberg & P.Hertel (Eds.), Memory and emotion (pp.3-41). NewYork: Oxford University Press. 2004.
[3] Ochsner KN. “Are affective events richly recollected or simply familiar? The experience and process of recognizing feelings past”. J. Exp. Psychol. Gen. 129(2):242-61. 2000.
[4] Tulving, E. “Memory and consciousness”. Canadian Psychology/Psychologie canadienne, 26(1), 1-12. 1985
[5] Yonelinas A.P., Kroll N.E., Dobbins I., Lazzara M., Knight R.T., “Recollection and familiarity deficits in amnesia: convergence of remember-know, process dissociation, and receiver operating characteristic data”. Neuropsychology. 12(3):323-39. 1998.
[6] Kensinger E.A., Corkin S., “Memory enhancement for emotional words: are emotional words more vividly remembered than neutral words?” Mem Cognit. 31(8):1169-80.2003.
[7] Talarico J.M., Rubin D.C., “Confidence, not consistency, characterizes flashbulb memories”. Psychol Sci.; 14(5):455-61. 2003.
[8] Schmolck H., Buffalo E.A., Squire L.R., “Memory distortions develop over time: recollections of the O.J. Simpson trial verdict after 15 and 32 months”. Psychol. Sci. ;11(1):39-45. 2000.
[9] Kensinger E.A., “Negative Emotion Enhances Memory Accuracy: Behavioral and Neuroimaging Evidence.” Current Directions in Psychological Science, 16, 213-218. 2007.
[10] Bennion K.A., Ford J.H., Murray B.D., Kensinger E.A. “Oversimplification in the study of emotional memory.” J Int Neuropsychol Soc. 19(9):953-61. 2013.
[11] Talmi, D., Luk, B. T. C., McGarry, L. M., & Moscovitch, M. “The contribution of relatedness and distinctiveness to emotionally-enhanced memory.” Journal of Memory and Language, 56(4), 555-574. 2007.
[12] Choi H.Y., Kensinger E.A., Rajaram S. “Emotional content enhances true but not false memory for categorized stimuli.” Mem Cognit. 41(3):403-15. 2013.
[13] Ohman A, Flykt A, Esteves F. “Emotion drives attention: detecting the snake in the grass.” J Exp Psychol Gen. 130(3):466-78. 2001.
[14] Schmidt SR, Saari B. “The emotional memory effect: differential processing or item distinctiveness?” Mem Cognit. 35(8):1905-16. 2007.
[15] Tranel D, Hyman BT. “Neuropsychological correlates of bilateral amygdala damage”. Arch Neurol. 47(3):349-55. 1990.
[16] Hamann SB, Cahill L, McGaugh JL, Squire LR. “Intact enhancement of declarative memory for emotional material in amnesia”. Learn Mem. 4(3):301-9. 1997.
[17] Hamann S. “Cognitive and neural mechanisms of emotional memory”. Trends Cogn Sci. 5(9):394-400. 2001.
[18] McGaugh JL. “The amygdala modulates the consolidation of memories of emotionally arousing experiences”. Annu Rev Neurosci. 27:1-28. 2004.
[19] Phelps EA. “Human emotion and memory: interactions of the amygdala and hippocampal complex”. Curr Opin Neurobiol. 14(2):198-202. 2004.
[20] Dolcos F, LaBar KS, Cabeza R. “Interaction between the amygdala and the medial temporal lobe memory system predicts better memory for emotional events”. Neuron. 42(5):855-63. 2004.
[21] LaBar, K., Phelps, E. A. “Arousal-Mediated Memory Consolidation: Role of the Medial Temporal Lobe in Humans”. Psychological Science. 9. 490-493. 1998.
[22] Talarico JM, Rubin DC. “Confidence, not consistency, characterizes flashbulb memories”. Psychol Sci. 14(5):455-61. 2003.
[23] Rimmele U, Davachi L, Petrov R, Dougal S, Phelps EA. “Emotion enhances the subjective feeling of remembering, despite lower accuracy for contextual details”. Emotion. 11(3):553-62. 2011.
[24] Bessette-Symons, B., “Recognition accuracy and response bias for emotional words and pictures” Syracuse University, PhD Dissertation. 2008.
[25] Maratos EJ, Rugg MD. “Electrophysiological correlates of the retrieval of emotional and non-emotional context”. J Cogn Neurosci. 13(7):877-91. 2001.
[26] Maratos EJ, Dolan RJ, Morris JS, Henson RN, Rugg MD. “Neural activity associated with episodic memory for emotional context”. Neuropsychologia. 39(9):910-20. 2001.
[27] Smith AP, Henson RN, Rugg MD, Dolan RJ. “Modulation of retrieval processing reflects accuracy of emotional source memory”. Learn Mem. 12(5):472-9. 2005.
[28] Erk S, Martin S, Walter H. “Emotional context during encoding of neutral items modulates brain activation not only during encoding but also during recognition”. Neuroimage. 26(3):829-38. 2005.
[29] Mueller S. “The influence of emotion on cognitive control: relevance for development and adolescent psychopathology.” Frontiers in psychology. Vol:2 pp:327. 2011.
[30] Rugg MD, Allan K, Birch CS. “Electrophysiological evidence for the modulation of retrieval orientation by depth of study processing”. J Cogn Neurosci. 12(4):664-78. 2000.
[31] Liu TL, Lin ST, Cheng SK, “The electrophysiological correlates of retrieval orientation in emotional encoding context.” in prep.
[32] Disner SG, Beevers CG, Haigh EA, Beck AT. “Neural mechanisms of the cognitive model of depression”. Nat Rev Neurosci. 2011.
[33] Johnson, H. M. “Processes of successful intentional forgetting”. Psychological Bulletin, 116(2), 274-292. 1994.
[34] MacLeod, C.M. “Directed forgetting”. In: Golding, J.M., MacLeod, C.M. (Eds.), Intentional Forgetting: Interdisciplinary Approach. Lawrence Erlbaum Associates, Mahwah, NJ, pp. 1–57. 1998.
[35] Hsieh, L. T., Hung, D. L., Tzeng, O. J. L., Lee, J. R., & Cheng, S. K. “An event-related potential investigation of the processing of Remember/Forget cues and item encoding in item-method directed forgetting”. Brain Research, 1250, 190–201. 2009.
[36] Paz-Caballero, M.D., Menor, J., Jimenez, J. M. “Predictive validity of event-related potentials (ERPs) in relation to the directed forgetting effects”. Clinical Neurophysiology, 115(2), 369–377. 2004
[37] Zacks, R. T., Radvansky, G., & Hasher, L. “Studies of directed forgetting in older adults”. Journal of Experimental Psychology: Learning, Memory, and Cognition, 22(1), 143–156. 1996
[38] Fawcett, J., M., & Taylor, T., L. “Forgetting is effortful: evidence from reaction time probes in an item-method directed forgetting task.” Memory and Cognition, 36(6):1168-81. 2008.
[39] Cheng, S. K., Liu, I. C., Lee, J. R., Hung, D. L., & Tzeng, O. J. L. “Intentional forgetting might be more effortful than remembering: An ERP study of item-method directed forgetting”. Biological Psychology, 89(2), 283–292. 2012.
[40] Hauswald, A., Schulz, H., Iordanov, T., & Kissler, J. “ERP dynamics underlying successful directed forgetting of neutral but not negative pictures”. Social Cognitive and Affective Neuroscience, 6, 450–459. 2011.
[41] Lin, W.-J., Kuo, Y.-C., Liu, T.-L., Han, Y.-J., & Cheng, S.-K. “Intentional forgetting reduces the semantic processing of to-be-forgotten items: an ERP study of item-method directed forgetting”. Psychophysiology, 50(11), 1120–32. 2013.
[42] Van Hooff, J. C., & Ford, R. M. “Remember to forget: ERP evidence for inhibition in an item-method directed forgetting paradigm”. Brain Research, 1392, 80–92. 2011.
[43] Nowicka, A., Marchewka, A., Jednorog, K., Tacikowski, P., & Brechmann, A. “Forgetting of emotional information is hard: An fMRI study of directed forgetting”. Cerebral Cortex, 21(March), 539–549. 2011.
[44] Bailey, K., & Chapman, P. “When can we choose to forget? An ERP study into item-method directed forgetting of emotional words”. Brain and Cognition, 78(2), 133–147. 2012.
[45] Yang, W., Liu, P., Xiao, X., Li, X., Zeng, C., Qiu, J., & Zhang, Q. “Different neural substrates underlying directed forgetting for negative and neutral images: An event-related potential study”. Brain Research, 1441, 53–63. 2012.
[46] Brandt, K. R., Nielsen, M. K., & Holmes, A. “Forgetting emotional and neutral words: An ERP study”. Brain Research, 1501, 21–31. 2013.
[47] Erk, S., Kiefer, M., Grothe, J., Wunderlich, A. P., Spitzer, M., & Walter, H. “Emotional context modulates subsequent memory effect”. NeuroImage, 18, 439–447. 2003.
[48] Talmi D, Anderson AK, Riggs L, Caplan JB, Moscovitch M. “Immediate memory consequences of the effect of emotion on attention to pictures”. Learn Mem. 15(3):172-82. 2008.
[49] Hajcak, G., MacNamara, A., Olvet, D. M. “Event-related potentials, emotion, and emotion regulation: an integrative review”. Developmental Neuropsychology. 35(2):129-55. 2010.
[50] Schupp, H. T., Junghofer, M., Weike, A. I., & Hamm, A. O. Attention and emotion: an ERP analysis of facilitated emotional stimulus processing. Neuroreport, 14(8), 1107–10. (2003).
[51] Carreiras, M., Vergara, M., & Barber, H. “Early event-related potential effects of syllabic processing during visual word recognition”. Journal of Cognitive Neuroscience, 17(11), 1803–17. 2005.
[52] Hsu, C.-H., Tsai, J.-L., Lee, C.-Y., & Tzeng, O. J.-L. “Orthographic combinability and phonological consistency effects in reading Chinese phonograms: an event-related potential study”. Brain and Language, 108(1), 56–66. 2009.
[53] Liu, Y., Perfetti, C. a, & Hart, L. “ERP evidence for the time course of graphic, phonological, and semantic information in Chinese meaning and pronunciation decisions”. Journal of Experimental Psychology. Learning, Memory, and Cognition, 29(6), 1231–47. 2003.
[54] Van Petten, C., & Senkfor, A. J. “Memory for words and novel visual patterns: repetition, recognition, and encoding effects in the event-related brain potential”. Psychophysiology, 33(5), 491–506. 1996.
[55] Blanchet, S., Gagnon, G., & Bastien, C. “Event-related potential study of dynamic neural mechanisms of semantic organizational strategies in verbal learning”. Brain Research, 1170, 59–70. 2007.
[56] Mangels, J. a., Picton, T. W., & Craik, F. I. M.. Attention and successful episodic encoding: An event-related potential study. Cognitive Brain Research, 11, 77–95. 2001.
[57] Miniussi, C., Marzi, C. A., & Nobre, A. C. “Modulation of brain activity by selective task sets observed using event-related potentials”. Neuropsychologia, 43(10), 1514–28. 2005.
[58] Huang, C.-R., and Chen, K.-j. “A Chinese Corpus for Linguistic Research”. Proceedings of the International Conference on Computational Linguistics (COLING-92). Pp. 1214-1217. Nantes, France. 1992.
[59] Lang, P., J., Bradley, M., M., & Cuthbert, B., N. “International affective picture system (IAPS): Affective ratings of pictures and instruction manual”. Technical Report A-8. University of Florida, Gainesville, FL. 2008.
[60] Delorme A. & Makeig S. “EEGLAB: an open source toolbox for analysis of single-trial EEG dynamics”. Journal of Neuroscience Methods. 134:9-21. 2004.
[61] Lopez-Calderon, J., & Luck, S. J. “ERPLAB: an open-source toolbox for the analysis of event-related potentials”. Frontiers in Human Neuroscience, 8, 213. 2014.
[62] Cuthbert, B. N., Schupp, H. T., Bradley, M. M., Birbaumer, N., & Lang, P. J. “Brain potentials in affective picture processing: covariation with autonomic arousal and affective report”. Biological Psychology, 52(2), 95–111. 2000.
[63] Budson, A., E., Todman, R., W., Chong, H., Adams, E., H., Kensinger, E., A., Krangel, T., S., & Wright, C., I. “False recognition of emotional word lists in aging and Alzheimer disease”. Cognitive and Behavioral Neurology. 19(2):71-8. 2006.
[64] Dougal, S., & Rotello, C., M. “ ‘Remembering’ emotional words is based on response bias, not recollection”. Psychonomic Bulletin & Review. 14(3):423-9. 2007.
[65] El Sharkawy, J., Groth, K., Vetter, C., Beraldi, A., & Fast, K. “False memories of emotional and neutral words”. Behavioural Neurology. 19(1-2):7-11. 2008.
[66] Gallo DA, Foster KT, Johnson EL. “Elevated false recollection of emotional pictures in young and older adults”. Psychology and Aging. 24(4):981-8. 2009.
[67] Rugg MD, Wilding EL. “Retrieval processing and episodic memory”. Trends Cogn Sci. 4(3):108-115. 2000.
[68] Herron JE, Wilding EL. “An electrophysiological dissociation of retrieval mode and retrieval orientation”. Neuroimage. 22(4):1554-62. 2004.
[69] Johnson MK, Kounios J, Nolde SF. “Electrophysiological brain activity and memory source monitoring”. Neuroreport. 8(5):1317-20. 1997.
[70] Robb WG, Rugg MD. “Electrophysiological dissociation of retrieval orientation and retrieval effort”. Psychon Bull Rev. 9(3):583-9. 2002.
[71] Herron JE, Rugg MD. “Retrieval orientation and the control of recollection”. J Cogn Neurosci. 15(6):843-54. 2003.
[72] Dzulkifli MA, Wilding EL. “Electrophysiological indices of strategic episodic retrieval processing”. Neuropsychologia. 43(8):1152-62. 2005.
[73] Hornberger M, Rugg MD, Henson RN. “fMRI correlates of retrieval orientation”. Neuropsychologia. 44(8):1425-36. 2006.
[74] Morcom AM, Rugg MD. “Retrieval orientation and the control of recollection: an fMRI study”. J Cogn Neurosci. 24(12):2372-84. 2012.
[75] Stiernstromer, E. “Neural Correlates of Emotional Retrieval Orientation: An electrophysiological investigation into strategic retrieval processing of emotional memories”. Lund University, Master Dissertation, 2010.
[76] Swainson R, Cunnington R, Jackson GM, Rorden C, Peters AM, Morris PG, Jackson SR. “Cognitive control mechanisms revealed by ERP and fMRI: evidence from repeated task-switching.” J Cogn Neurosci. 15(6):785-99. 2003.
[77] Badre, D., & Wagner, A. D. “Semantic retrieval, mnemonic control, and prefrontal cortex”. Behavioral and Cognitive Neuroscience Reviews, 1(3), 206–218, 2002.
[78] Cabeza R, Ciaramelli E, Olson IR, Moscovitch M. “The parietal cortex and episodic memory: An attentional account”. Nature Reviews Neuroscience. 9:613–625. 2008.
[79] Brodeur MB, Dionne-Dostie E, Montreuil T, Lepage M. “The Bank of Standardized Stimuli (BOSS), a new set of 480 normative photos of objects to be used as visual stimuli in cognitive research”. PLoS One. 5(5):e10773. 2010.
[80] Cocosco C.A., Kollokian V., Kwan R.K.-S., Evans A.C. “BrainWeb: Online Interface to a 3D MRI Simulated Brain Database.” NeuroImage, vol.5, no.4, part 2/4, S425, 1997 -- Proceedings of 3-rd International Conference on Functional Mapping of the Human Brain, Copenhagen, May 1997.
[81] Friston KJ, Fletcher P, Josephs O, Holmes A, Rugg MD, Turner R. “Event-related fMRI: characterizing differential responses”. Neuroimage. 7(1):30-40. 1998.
[82] Snodgrass JG, Corwin J. “Pragmatics of measuring recognition memory: applications to dementia and amnesia”. J Exp Psychol Gen. 117(1):34-50. 1988.
[83] Leech R, Sharp DJ. “The role of the posterior cingulate cortex in cognition and disease”. Brain. 137(Pt 1):12-32. 2014.
[84] Duzel E, Cabeza R, Picton TW, Yonelinas AP, Scheich H, Heinze HJ, Tulving E. “Task-related and item-related brain processes of memory retrieval”. Proc Natl Acad Sci USA. 96(4):1794-9. 1999.
[85] Henson RN, Rugg MD, Shallice T, Josephs O, Dolan RJ. “Recollection and familiarity in recognition memory: an event-related functional magnetic resonance imaging study”. J Neurosci. 19(10):3962-72. 1999.
[86] Wagner AD, Shannon BJ, Kahn I, Buckner RL. “Parietal lobe contributions to episodic memory retrieval”. Trends Cogn Sci. 9(9):445-53. 2005.
[87] Maddock RJ, Garrett AS, Buonocore MH. “Posterior cingulate cortex activation by emotional words: fMRI evidence from a valence decision task”. Hum Brain Mapp. 18(1):30-41. 2003.
[88] Liu Y, Huang H, McGinnis-Deweese M, Keil A, Ding M. “Neural substrate of the late positive potential in emotional processing”. J Neurosci. 32(42):14563-72. 2012.
[89] Medford N, Phillips ML, Brierley B, Brammer M, Bullmore ET, David AS. “Emotional memory: separating content and context”. Psychiatry Res. 138(3):247-58. 2005
[90] Maddock RJ. “The retrosplenial cortex and emotion: new insights from functional neuroimaging of the human brain”. Trends Neurosci. 22(7):310-6. 1999.
[91] Buckner RL, Andrews-Hanna JR, Schacter DL. “The brain′s default network: anatomy, function, and relevance to disease”. Ann N Y Acad Sci. 1124:1-38, 2008.
[92] Noonan KA, Jefferies E, Visser M, Lambon Ralph MA. “Going beyond inferior prefrontal involvement in semantic control: evidence for the additional contribution of dorsal angular gyrus and posterior middle temporal cortex”. J Cogn Neurosci. 25(11):1824-50. 2013.
[93] Carter RM, Huettel SA. A nexus model of the temporal-parietal junction. Trends Cogn Sci. 17(7):328-36. 2013.
[94] Cabeza R, Ciaramelli E, Moscovitch M. “Cognitive contributions of the ventral parietal cortex: an integrative theoretical account”. Trends Cogn Sci. 16(6):338-52. 2012.
[95] Grecucci A, Giorgetta C, Bonini N, Sanfey AG. “Reappraising social emotions: the role of inferior frontal gyrus, temporo-parietal junction and insula in interpersonal emotion regulation”. Front Hum Neurosci. 7:523. 2013
[96] Ochsner KN, Ray RD, Cooper JC, Robertson ER, Chopra S, Gabrieli JD, Gross JJ. “For better or for worse: neural systems supporting the cognitive down- and up-regulation of negative emotion”. Neuroimage. 23(2):483-99. 2004.
[97] Posner J, Russell JA, Gerber A, Gorman D, Colibazzi T, Yu S, Wang Z, Kangarlu A, Zhu H, Peterson BS. “The neurophysiological bases of emotion: An fMRI study of the affective circumplex using emotion-denoting words”. Hum Brain Mapp. 30(3):883-95. 2009.
[98] Shulman GL, Astafiev SV, Franke D, Pope DL, Snyder AZ, McAvoy MP, Corbetta M. “Interaction of stimulus-driven reorienting and expectation in ventral and dorsal frontoparietal and basal ganglia-cortical networks”. J Neurosci. 29(14):4392-407. 2009.
[99] Doricchi F, Macci E, Silvetti M, Macaluso E. “Neural correlates of the spatial and expectancy components of endogenous and stimulus-driven orienting of attention in the Posner task”. Cereb Cortex. 20(7):1574-85. 2010.
[100] Japee S, Holiday K, Satyshur MD, Mukai I, Ungerleider LG. “A role of right middle frontal gyrus in reorienting of attention: a case study”. Front Syst Neurosci. 9:23. 2015.
[101] Hofstetter C, Achaibou A, Vuilleumier P. “Reactivation of visual cortex during memory retrieval: content specificity and emotional modulation”. Neuroimage. 60(3):1734-45. 2012.
[102] Kark SM, Kensinger EA. “Effect of emotional valence on retrieval-related recapitulation of encoding activity in the ventral visual stream”. Neuropsychologia. 78:221-30. 2015.
[103] Davachi L, Mitchell JP, Wagner AD. “Multiple routes to memory: distinct medial temporal lobe processes build item and source memories”. Proc Natl Acad Sci USA. 100(4):2157-62. 2003.
[104] Buckner, R. L., and Petersen, S. E. “What does neuroimaging tell us about the role of prefrontal cortex in memory retrieval?” Semin. Neurosci. 8:47–55. 1996.
[105] Ranganath C., Knight RT. “Prefrontal cortex and episodic memory: integrating findings from neuropsychology and event-related functional neuroimaging”. In: Parker A, Wilding EL, Bussey TJ, (Eds.) Memory encoding and retrieval: a cognitive neuroscience perspective. New York: Psychology Press. p 83—99. 2003
[106] Keightley ML, Chiew KS, Anderson JAE, Grady CL. “Neural correlates of recognition memory for emotional faces and scenes.” Social cognitive and affective neuroscience 61: 24-37. 2011.
[107] Iordan AD, Dolcos F. “Brain Activity and Network Interactions Linked to Valence-Related Differences in the Impact of Emotional Distraction”. Cereb Cortex. 27(1):731-749. 2017.
[108] Gerdes AB, Wieser MJ, Muhlberger A, Weyers P, Alpers GW, Plichta MM, Breuer F, Pauli P. “Brain Activations to Emotional Pictures are Differentially Associated with Valence and Arousal Ratings”. Front Hum Neurosci. 4:175. 2010.
[109] American Psychiatric Association. “Diagnostic and statistical manual of mental disorders” (5th Ed.). Washington, DC. 2013.
[110] Beck, A. T. “Depression: Clinical, Experimental, and Theoretical Aspects”. Harper & Row, New York. 1967.
[111] Foland-Ross LC, Gotlib IH. “Cognitive and neural aspects of information processing in major depressive disorder: an integrative perspective”. Front Psychol. 3:489. 2012.
[112] Mathews A, MacLeod C. “Cognitive vulnerability to emotional disorders”. Annu Rev Clin Psychol. 1:167-95. 2005.
[113] Matt, G. E., Vazquez, C., & Campbell, W. K. “Mood-congruent recall of affectively toned stimuli: A meta-analytic review”. Clinical Psychology Review, 12(2), 227-255. 1992.
[114] Ridout N, Astell AJ, Reid IC, Glen T & O′Carroll R. “Memory bias for emotional facial expressions in major depression”. Cognition and Emotion, 17 (1), pp. 101-122. 2003.
[115] Hamilton JP, Gotlib IH. “Neural substrates of increased memory sensitivity for negative stimuli in major depression”. Biol Psychiatry. 63(12):1155-62. 2008.
[116] Ingrain, RE. “Toward an information processing analysis of depression”. Cognitive Therapy and Research, 8, 443-478. (1984).
[117] Teasdale JD. “Change in cognition during depression—psychopathological implications: discussion paper”. J R Soc Med. 76(12):1038-44. 1983.
[118] Gotlib IH, Krasnoperova E, Yue DN, Joormann J. “Attentional biases for negative interpersonal stimuli in clinical depression”. J Abnorm Psychol. 113(1):121-35. 2004.
[119] Mikels, J.A., Fredrickson, B.L., Larkin, G.R., Lindberg C.M., Maglio S. J., Reuter-Lorenz P.A. “Emotional category data on images from the international affective picture system”. Behavior Research Methods 37: 626. 2005.
[120] Burt DB, Zembar MJ, Niederehe G. “Depression and memory impairment: a meta-analysis of the association, its pattern, and specificity”. Psychol Bull. 117(2):285-305. 1995.
[121] Dennis TA, Hajcak G. “The late positive potential: a neurophysiological marker for emotion regulation in children”. J Child Psychol Psychiatry. 50(11):1373-83. 2009.
[122] Brown SB, van Steenbergen H, Band GP, de Rover M, Nieuwenhuis S. “Functional significance of the emotion-related late positive potential”. Front Hum Neurosci. 6:33. 2012.
[123] Schmaal L, Veltman DJ, van Erp TG, Samann PG, Frodl T, Jahanshad N, Loehrer E, Tiemeier H, Hofman A, Niessen WJ, Vernooij MW, Ikram MA, Wittfeld K, Grabe HJ, Block A, Hegenscheid K, Volzke H, Hoehn D, Czisch M, Lagopoulos J, Hatton SN, Hickie IB, Goya-Maldonado R, Kramer B, Gruber O, Couvy-Duchesne B, Renteria ME, Strike LT, Mills NT, de Zubicaray GI, McMahon KL, Medland SE, Martin NG, Gillespie NA, Wright MJ, Hall GB, MacQueen GM, Frey EM, Carballedo A, van Velzen LS, van Tol MJ, van der Wee NJ, Veer IM, Walter H, Schnell K, Schramm E, Normann C, Schoepf D, Konrad C, Zurowski B, Nickson T, McIntosh AM, Papmeyer M, Whalley HC, Sussmann JE, Godlewska BR, Cowen PJ, Fischer FH, Rose M, Penninx BW, Thompson PM, Hibar DP. “Subcortical brain alterations in major depressive disorder: findings from the ENIGMA Major Depressive Disorder working group”. Mol Psychiatry. 21(6):806-12. 2016.
[124] Dietrich D, Emrich H, Waller C, Bernardina MW, Sonke J, Munte T. “Emotion/cognition-coupling in word recognition memory of depressive patients: An event-related potential study”. Psychiatry research. 96. 15-29. 2000.
[125] Alhaj HA, Massey AE, McAllister-Williams RH. “A study of the neural correlates of episodic memory and HPA axis status in drug-free depressed patients and healthy controls”. J Psychiatr Res. 41(3-4):295-304. 2007.
[126] Tulving, E., & Thomson, D. M. “Encoding specificity and retrieval processes in episodic memory”. Psychological Review, 80(5), 352-373. 1973.
[127] Bower GH. “Mood and memory”. Am Psychol. 36(2):129-48. 1981.
[128] Buchanan, TW. “Retrieval of Emotional Memories.” Psychological Bulletin, 133(5): 761-779. 2007.
[129] Madan CR, Bayer J, Gamer M, Lonsdorf TB, and Sommer T. “Visual Complexity and Affect: Ratings Reflect More Than Meets the Eye.” Frontiers in Psychology. 8:2368. 2017.
[130] Snodgrass, J.G., & Vanderwart, M. “A standardized set of 260 pictures: Norms for name agreement, image agreement, familiarity, and visual complexity.” Journal of Experimental Psychology: Human Learning and Memory, 6, 174-215. 1980.

指導教授

鄭仕坤(Shih-kuen Cheng)

審核日期

2018-7-25

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