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左侧额下回在句子语义整合加工中的作用 被引量:10

Left Inferior Frontal Gyrus and Semantic Unification in Sentence Comprehension
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摘要 语义整合帮助人们在阅读理解中将小信息块整合成一个完整、连贯的句子意义表达,是阅读理解中非常重要的认知过程。通过对比40多篇句子加工相关的脑机制研究,发现左侧额下回在fMRI研究中是参与语义整合加工激活概率最高的区域,而颞叶及后部是MEG研究中激活概率最高的区域。另外,左侧额下回是如何参与语义整合、它在内隐和外显语义整合中的机制是否相同、以及这种整合加工与一般的控制性加工、词汇启动的关系都是研究者广泛关注的问题。本文对上述问题进行了详细的综述和讨论。 Semantic unification, the process that combines word-level semantics into an overall meaning representation of an utterance, is a crucial aspect of language comprehension. Although many brain imaging studies using fMRI and MEG techniques have associated left inferior frontal gyrus (LIFG) and posterior temporal regions with semantic unification, there are also contradictory findings and alternative explanations attributing the observed LIFG activation to other processes such as controlled semantic retrieval and general selection. Based on review of the present empirical evidence and theoretical arguments, future directions are suggested to reveal the mechanism of semantic unification and its underlying neural substrates.
作者 朱祖德 王穗苹 冯刚毅 刘颖
机构地区 华南师范大学心理应用研究中心
出处 《心理科学进展》 CSSCI CSCD 北大核心 2011年第8期1147-1157,共11页 Advances in Psychological Science
基金 国家自然科学基金(30970894) 教育部人文社科重点研究基地(10JJDXLX005) 广州市社会科学规划课题(11Q15) 广东省心理健康与认知科学重点实验室资助
关键词 句子 语义整合 左侧额下回 sentence comprehension semantic unification left inferior frontal gyrus
分类号 B842 [哲学宗教—基础心理学] B845 [哲学宗教—心理学]
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参考文献17

  • 1Homae, F., Hashimoto, R., Nakajima, K., Miyashita, Y., & Sakai, K. L. (2002). From perception to sentencecomprehension: The convergence of auditory and visual information of language in the left inferior frontal cortex. Neurolmage, 16, 883-900. 被引量:1
  • 2Just, M. A., Carpenter, P. A., Keller, T. A., Eddy, W. F., & Thulborn, K. R. (1996). Brain activation modulated by sentence comprehension. Science, 274, 114-116. 被引量:1
  • 3Marques, I. F., Canessa, N., & Cappa, S. (2009). Neural differences in the processing of true and false sentences:Insights into the nature of 'truth' in language comprehension. Cortex, 45, 759-768. 被引量:1
  • 4Nakajima, T., Isahai, N., Takeuchi, F., & Kuriki, S. (2001). Brain activities during sentence comprehension: An MEG study. Neurolmage, 13, 575-575. 被引量:1
  • 5Binder, J. R., Desai, R. H., Graves, W. W., & Conant, L. L. (2009). Where is the semantic system? A critical reviewand meta-analysis of 120 functional neuroimaging studies. Cerebral Cortex, 19, 2767-2796. 被引量:1
  • 6Constable, R. T., Pugh, K. R., Berroya, E., Mencl, W. E., Westerveld, M., Ni, W., et al. (2004). Sentence complexityand input modality effects in sentence comprehension: an fMRI study. Neurolmage, 22, 11-21. 被引量:1
  • 7Rueschemeyer, S. A., Zysset, S., & Friederici, A. D. (2006).Native and non-native reading of sentences: An fMRI experiment. Neurolmage, 31,354-365. 被引量:1
  • 8Ruschemeyer, S. A., Fiebach, C. J., Kempe, V., & Friederici, A.D. (2005). Processing lexical semantic and syntactic information in first and second language: fMRI evidence from German and Russian. Human Brain Mapping, 25, 266-286. 被引量:1
  • 9Pijnacker, J., Geurts, B., van Lambalgen, M., Kan, C. C., Buitelaar, J. K., & Hagoort, P. (2009). Defeasiblereasoning in high-functioning adults with autism: Evidence for impaired exception-handling.Neuropsychologia, 47, 644-651. 被引量:1
  • 10Dronkers, N. F., Wilkins, D. P., Van Valin, R. D., Jr., Redfern, B. B., & Jaeger, J. J. (2004). Lesion analysis of the brain areas involved in language comprehension. Cognition, 92, 145-177. 被引量:1

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心理科学进展
2011年 第8期

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