Neural Substrates of Music Investigated by EEG and fMRI
Key Laboratory for NeuroInformation of Ministry of Education, School of Life Science and Technology, University of Electronic Science and Technology of China, Chengdu 610054, China
Abstract:Music is a special crosscultural artistic style that appeared and evolved along with the development of the human being. The exploration of the mystery in music and the relation between music and brain is a way to understand humanity itself, thus it is a very charming area for science and society. In this paper, based on our experiences, examples are presented on studies of music note attribute cognition, brain network of musician and brain wave music. We hope that these primary results are helpful for the readers in their future efforts.
尧德中#* 吴丹 赖永秀 龚殿坤 罗程 卢竟 马维毅 杨华 徐鹏. 基于脑电和磁共振的音乐脑机制研究[J]. 中国生物医学工程学报, 2014, 33(6): 673-676.
YAO De Zhong#* WU Dan LAI Yong Xiu GONG Dian Kun LUO Cheng LU Jing MA Wei Yi YANG Hua XU Peng. Neural Substrates of Music Investigated by EEG and fMRI. journal1, 2014, 33(6): 673-676.
[1]Peretz I. The nature of music from a biological perspective[J]. Cognition, 2006, 100(1): 1-32.
[2]Pavlicevic M. Music therapy in context: A training manual for home care, residential and day care staff[M]. London: Jessica Kingsley Publishers, 1997, 1-18.
[3]Abrams DA, Bhatara A, Ryali S, et al. Decoding temporal structure in music and speech relies on shared brain resources but elicits different finescale spatial patterns[J]. Cerebral Cortex, 2011, 21(7): 1507-1518.
[4]Adalarasu K, Jagannath M, Ramesh SNK, et al. A review on influence of music on brain activity using signal processing and imaging system[J]. International Journal of Engineering Science, 2011, 3(4): 3276-3282.
[5]Patel AD. Music, Language, and the Brain[M]. Oxford: Oxford University Press, 2008: 3-5.
[6]尧德中. 脑功能探测的电学理论与方法[M]. 北京: 科学出版社, 2003: 1-12.
[7]Lei Xu, Qiu Chuan, Xu Peng, et al. A parallel framework for simultaneous eeg/fmri analysis: Methodology and simulation[J]. Neuroimage, 2010, 52(3): 1123-1134.
[8]Lei Xu, Xu Peng, Luo Cheng, et al. Fmri functional networks for EEG source imaging[J]. Human Brain Mapping, 2011, 32(7): 1141-1160.
[9]Lai Yongxiu, Tian Yin, Yao Dezhong. Mmn evidence for asymmetry in detection of ioi shortening and lengthening at behavioral indifference tempo[J]. Brain Research, 2011, 1367170-180.
[10]Ma Weiyi, Lai Yongxiu, Yuan Yuan, et al. Electroencephalogram variations in the alpha band during tempospecific perception[J]. Neuroreport, 2012, 23(3): 125-128.
[11]Ma Weiyi, Lai Yongxiu, Zheng Xiaojing, et al. Electroencephalogram γband activity during the perception of music key levels[J]. Neuroreport, 2013, 24(4): 186-189.
[12]Miller J, Hackley SA. Electrophysiological evidence for temporal overlap among contingent mental processes[J]. Journal of Experimental Psychology: General, 1992, 121(2): 195-209.
[13]Gong Diankun, Hu Jiehui, Yao Dezhong. Partial information can be transmitted in an auditory channel: Inferences from lateralized readiness potentials[J]. Psychophysiology, 2012, 49(4): 499-503.
[14]Gong Diankun, Ma Weiyi, Hu Jiehui, et al. The flexibility of partial information transmission in the auditory channel: The role of perceptual discriminability[J]. Psychophysiology, 2012, 49(10): 1394-1400.
[15]Gong Diankan, Ma Weiyi, Kendrick, et al. How cognitive plasticity resolves the brain’s information processing dilemma. Scientific Reports, 2013, 3:2860.
[16]Kraus N, Chandrasekaran B. Music training for the development of auditory skills[J]. Nature Reviews Neuroscience, 2010, 11(8): 599-605.
[17]Levitin DJ, Tirovolas AK. Current advances in the cognitive neuroscience of music[J]. Annals of the New York Academy of Sciences, 2009, 1156(1): 211-231.
[18]Groussard M, La Joie R, Rauchs G, et al. When music and longterm memory interact: Effects of musical expertise on functional and structural plasticity in the hippocampus[J]. PLoS One, 2010, 5(10): e13225.
[19]Luo Cheng, Guo Zhiwei, Lai Yongxiu, et al. Musical training induces functional plasticity in perceptual and motor networks: Insights from restingstate fmri[J]. PLoS One, 2012, 7(5): e36568.
[20]尧德中, 刘铁军, 雷旭, 等. 基于脑电的脑-机接口: 关键技术和应用前景[J]. 电子科技大学学报, 2009, 38(5): 550-554.
[21]Xu Peng, Yang Ping, Lei Xu, et al. An enhanced probabilistic lda for multiclass brain computer interface[J]. PLoS One, 2011, 6(1): e14634.
[22]Zhang Yangsong, Xu Peng, Liu Tiejun, et al. Multiple frequencies sequential coding for ssvepbased braincomputer interface[J]. PLoS One, 2012, 7(3): e29519.
[23]Conard NJ, Malina M, Münzel SC. New flutes document the earliest musical tradition in southwestern germany[J]. Nature, 2009, 460(7256): 737-740.
[24]Eco U. Art and beauty in the middle ages[M]. New Haven: Yale University Press, 1986, 18-37.
[25]Wu Dan, Li Chaoyi, Yao Dezhong. Scalefree music of the brain[J]. PLoS One, 2009, 4(6): e5915.
[26]Lu Jing, Wu Dan, Yang Hua, et al. Scalefree brainwave music from simultaneously eeg and fmri recordings[J]. PLoS One, 2012, 7(11): e49773.
[27]Wu Dan, Li Chaoyi, Yao Dezhong. Scalefree brain quartet: Artistic filtering of multichannel brainwave music[J]. PLoS One, 2013, 8(5): e64046.
[28]Wu Dan, Yao Dezhong. An ensemble with chinese pentatonic scale of the two brain hemispheres[J]. Neuroscience Bulletin, 2013, 29(5):581-587.
[29]Yao Dezhong. A method to standardize a reference of scalp eeg recordings to a point at infinity[J]. Physiological Measurement, 2001, 22(4):693-711.
[30]Qin Yun, Xu Peng, Yao Dezhong. A comparative study of different references for eeg default mode network: The use of the infinity reference[J]. Clinical Neurophysiology, 2010,
