内隐记忆的启动效应(5)
[13] Newell B R, Andrews S. Levels of processing effects on implicit and explicit memory tasks: using question position to investigate the lexical-processing hypothesis. Experimental Psychology, 2004, 51(2): 1~13
[14] Fay S, Isingrini M, Clarys M. Effects of depth-of-processing and ageing on word-stem and word-fragment implicit memory tasks: Test of the lexical-processing hypothesis。European Journal of Cognitive Psychology, 2005, 17 (6):785~802
, 百拇医药
[15] Lazzara M M, Yonelinas A P, Ober B A. Implicit memory in aging: normal transfer across semantic decisions and stimulus format. Aging Neuropsychology and Cognition, 2002, 9(2): 145~156.
[16] Arroyo-Anllo E M , Ingrand P, Neau J P, et al. Pictorial and lexical priming: Patterns of implicit memory in Alzheimer’s and Parkinson’s disease patients. European Journal of Cognitive Psychology, 2004, 16(4): 535~553
[17] Stuart G P, Patel J, Bhagrath N. Ageing affects conceptual but not perceptual memory processes. Memory, 2006, 14 (3): 345~358
, 百拇医药
[18] 杨治良, 周颖. 文字再认的内隐和外显记忆的发展研究. 心理与行为研究, 2003, 1(1): 11~15
[19] 郭秀艳. 再认中意识和无意识的贡献大小——兼论内隐记忆的抗老化现象. 心理科学, 2002, 25(5): 435~537
[20] 杨治良, 周颖. 文字再认的内隐和外显记忆的发展研究.心理与行为研究, 2003, 1(1): 11~15
[21] Leritz E C, Grande L J, Bauer R M. Temporal lobe epilepsy as a model to understand human memory: the distinction between explicit and implicit memory. (in press) SciencDirect database
, 百拇医药
[22] Reber. P J, Gitelman D R, Parrish T B, et al. Priming effects in the fusiform gyrus: changes in neural activity beyond the second presentation. Cerebral Cortex .2005, 15:787~795
[23] Mochizuki-Kawai H, Mochizuki M, Midorikawa A, et al. Mitsuru Kawamura. Disappearance of memory fragments in patients with Alzheimer’s disease: Evidence from a longitudinal study of visual priming. Neuropsychologia, 2006, 44: 1114~1119
[24] Fleischman D A, Wilson R S, Gabrieli J D E, et al. Implicit memory and Alzheimer’s disease neuropathology. Brain, 2005,128: 2006~2015.
, 百拇医药
[25] Golby A, Silverberg G, Race E, et al. Memory encoding in Alzheimer’s disease: an fMRI study of explicit and implicit memory. Brain, 2005, 128: 773~787
[26] Zago L, Fenske M J, Aminoff E, et al. The rise and fall of priming: how visual exposure shapes cortical representations of objects. Cerebral Cortex, 2005, 15: 1655~1665
[27] Wig G S, Grafton S T, Demos K E, et al. Reductions in neural activity underlie behavioral components of repetition priming. Nature Neuroscience, 2005, 8 (9):1228~1233
, 百拇医药
[28] Habeck C, Hilton H J, Zarahn E, et al. An event-related fMRI study of the neural networks underlying repetition suppression and reaction time priming in implicit visual memory. Brain Research, 2006, 1075: 133~141
[29] Dobbins I G, Schnyer D M, Verfaellie M, et al, Cortical activity reductions during repetition priming can result from rapid response learning. Nature, 2004, 428: 316~319
[30] Yi D J, Chun M M. Attentional modulation of learning-related repetition attenuation effects in human parahippocampal cortex. The Journal of Neuroscience, 2005, 25(14): 3593~3600
[ 上 页 ] [ 下 页 ], 百拇医药(游旭群 苟雅宏)
[14] Fay S, Isingrini M, Clarys M. Effects of depth-of-processing and ageing on word-stem and word-fragment implicit memory tasks: Test of the lexical-processing hypothesis。European Journal of Cognitive Psychology, 2005, 17 (6):785~802
, 百拇医药
[15] Lazzara M M, Yonelinas A P, Ober B A. Implicit memory in aging: normal transfer across semantic decisions and stimulus format. Aging Neuropsychology and Cognition, 2002, 9(2): 145~156.
[16] Arroyo-Anllo E M , Ingrand P, Neau J P, et al. Pictorial and lexical priming: Patterns of implicit memory in Alzheimer’s and Parkinson’s disease patients. European Journal of Cognitive Psychology, 2004, 16(4): 535~553
[17] Stuart G P, Patel J, Bhagrath N. Ageing affects conceptual but not perceptual memory processes. Memory, 2006, 14 (3): 345~358
, 百拇医药
[18] 杨治良, 周颖. 文字再认的内隐和外显记忆的发展研究. 心理与行为研究, 2003, 1(1): 11~15
[19] 郭秀艳. 再认中意识和无意识的贡献大小——兼论内隐记忆的抗老化现象. 心理科学, 2002, 25(5): 435~537
[20] 杨治良, 周颖. 文字再认的内隐和外显记忆的发展研究.心理与行为研究, 2003, 1(1): 11~15
[21] Leritz E C, Grande L J, Bauer R M. Temporal lobe epilepsy as a model to understand human memory: the distinction between explicit and implicit memory. (in press) SciencDirect database
, 百拇医药
[22] Reber. P J, Gitelman D R, Parrish T B, et al. Priming effects in the fusiform gyrus: changes in neural activity beyond the second presentation. Cerebral Cortex .2005, 15:787~795
[23] Mochizuki-Kawai H, Mochizuki M, Midorikawa A, et al. Mitsuru Kawamura. Disappearance of memory fragments in patients with Alzheimer’s disease: Evidence from a longitudinal study of visual priming. Neuropsychologia, 2006, 44: 1114~1119
[24] Fleischman D A, Wilson R S, Gabrieli J D E, et al. Implicit memory and Alzheimer’s disease neuropathology. Brain, 2005,128: 2006~2015.
, 百拇医药
[25] Golby A, Silverberg G, Race E, et al. Memory encoding in Alzheimer’s disease: an fMRI study of explicit and implicit memory. Brain, 2005, 128: 773~787
[26] Zago L, Fenske M J, Aminoff E, et al. The rise and fall of priming: how visual exposure shapes cortical representations of objects. Cerebral Cortex, 2005, 15: 1655~1665
[27] Wig G S, Grafton S T, Demos K E, et al. Reductions in neural activity underlie behavioral components of repetition priming. Nature Neuroscience, 2005, 8 (9):1228~1233
, 百拇医药
[28] Habeck C, Hilton H J, Zarahn E, et al. An event-related fMRI study of the neural networks underlying repetition suppression and reaction time priming in implicit visual memory. Brain Research, 2006, 1075: 133~141
[29] Dobbins I G, Schnyer D M, Verfaellie M, et al, Cortical activity reductions during repetition priming can result from rapid response learning. Nature, 2004, 428: 316~319
[30] Yi D J, Chun M M. Attentional modulation of learning-related repetition attenuation effects in human parahippocampal cortex. The Journal of Neuroscience, 2005, 25(14): 3593~3600
[ 上 页 ] [ 下 页 ], 百拇医药(游旭群 苟雅宏)