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联觉的大脑网络激活
引用本文:李佳源 赵伶俐. 联觉的大脑网络激活[J]. 华东师范大学学报(教育科学版), 2014, 32(2): 81-87
作者姓名:李佳源 赵伶俐
作者单位:1.西华师范大学管理学院,南充 637009; 2.西南大学教育学部,重庆 400715
基金项目:教育部人文社会科学研究西部项目(12XJC840005),四川省哲社“十二五”青年项目(SC13C010)。
摘    要:近年认知神经心理学家利用神经成像技术对联觉进行了大脑激活情况研究,通过以颜色联觉为主的研究成果的对比与分析,发现联觉伴随体验的大脑激活不局限于特定区域(比如V4或顶叶区域),而是涉及一个大脑区域网络(大脑的6个区域被激活),这个大脑区域网络与联觉的三个不同加工过程相关联。同时通过对造成大脑结构差异的遗传基因研究进行总结与分析,发现找到的几个备选基因都是大脑中影响连接发展的基因,据此推测决定联觉的基因可能在大脑中影响连接发展的那些基因中(至少部分)找到。

关 键 词:联觉  大脑区域网络  基因

Network of Brain Areas involved in Synaesthesia
LI Jiayuan ZHAO lingli. Network of Brain Areas involved in Synaesthesia[J]. Journal of East China Normal University:Educational Sciences, 2014, 32(2): 81-87
Authors:LI Jiayuan ZHAO lingli
Affiliation:School of Management, China West Normal University, Nanchong 637009 School of Education, ,South West Normal University, ChongQing,400715
Abstract:In recent years many neuropsychologists have studied synaesthesia in whole brain. From these studies we find Synaesthetic colour experience in color synaesthesia can activate V4, but be not necessarily restricted to V4, and involve a network of brain areas(six brain locations activated). similarly, in other types of synaesthesia networks of brain areas were involved. some evidences have showed that synaesthetes have increased grey matter or white matter in area V4 or other areas, this implies there are structural differences of brain and genetic differences between synaesthetes and non-synaesthetes. works to look for the genes that determine synaesthesia are going on, and Some studies have showed that genetic basis may be found in genes which influence the development of connectivity in the brain, such as TBR1. These phenomenons still need to be tested in the future.
Keywords:
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