针刺功能磁共振成像研究任务设计方法述评
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摘要
任务态功能磁共振成像(functional magnetic resonance imaging, fMRI)是研究针刺效应尤其是针刺即时效应的良好方式。根据任务设计方式不同,对针刺任务态fMRI研究两类四种任务设计类型进行述评,分析各自优缺点,以期为后续针刺任务态fMRI研究提供借鉴和参考。
Task-fMRI was a good means to study acupuncture effects, especially immediate effects of acupuncture. This review summarized four types of task design methods in acupuncture task-fMRI studies, and analyzed their advantages and disadvantages of these task design methods respectively so as to provide the reference for the future researches.
Task-fMRI was a good means to study acupuncture effects, especially immediate effects of acupuncture. This review summarized four types of task design methods in acupuncture task-fMRI studies, and analyzed their advantages and disadvantages of these task design methods respectively so as to provide the reference for the future researches.
引文
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[3] Mazoyer B,Zago L,Mellet E,et al.Cortical networks for working memory and executive function sustain the conscious resting state in man[J].Brain Research Bulletin,2001,54(3):287-298.
[4] 刘森.功能磁共振成像数据处理与分析[D].南京:南京理工大学,2014.
[5] Cho ZH,Chung SC,Lee HJ,et al.Retraction.New findings of the correlation between acupoints and corresponding brain cortices using functional MRI[J].Proceedings of the National Academy of Sciences of the United States of America,1998,95(5):2670-2673.
[6] He X,Zhu Y,Li C,et al.Acupuncture-induced changes in functional connectivity of the primary somatosensory cortex varied with pathological stages of Bell’s palsy[J].Neuroreport,2014,25(14):1162-1168.
[7] Chae Y,Lee H,Kim H,et al.Parsing brain activity associated with acupuncture treatment in Parkinson’s diseases[J].Movement Disorders,2009,24(12):1794-1802.
[8] 何昭璇,侯键,邱科,等.基于功能磁共振成像技术的针刺机制研究现状分析[J].针刺研究,2016,41(5):474-478.
[9] Asghar AU,Green G,Lythgoe MF,et al.Acupuncture needling sensation:the neural correlates of deqi using fMRI[J].Brain Research,2010,1315(8):111-118.
[10] Macpherson H,Green G,Nevado A,et al.Brain imaging of acupuncture:Comparing superficial with deep needling[J].Neuroscience Letters,2008,434(1):144.
[11] Liu J,Qin W,Guo Q,et al.Divergent neural processes specific to the acute and sustained phases of verum and SHAM acupuncture[J].Journal of Magnetic Resonance Imaging,2011,33(1):33-40.
[12] B?cker M,Hammes MG,Valet M,et al.Different modes of manual acupuncture stimulation differentially modulate cerebral blood flow velocity,arterial blood pressure and heart rate in human subjects[J].Neuroscience Letters,2002,333(3):203-206.
[13] 江虹,王培军,赵小虎.功能磁共振成像观察补法、泻法针刺足三里穴对大脑作用的中枢机制[J].中国医学影像技术,2010,26(4):635-638.
[14] Qin W,Tian J,Bai L,et al.FMRI connectivity analysis of acupuncture effects on an amygdala-associated brain network[J].Molecular Pain,2008,4(1):55.
[15] Chen J,Wang J,Huang Y,et al.Modulatory Effect of Acupuncture at Waiguan (TE5) on the Functional Connectivity of the Central Nervous System of Patients with Ischemic Stroke in the Left Basal Ganglia[J].Plos One,2014,9(6):e96777.
[16] Cheng H,Yan H,Bai LJ,et al.Exploration of whole brain networks modulated by acupuncture at analgesia acupoint ST36 using scale-specific wavelet correlation analysis[J].中华医学杂志(英文版),2013,126(13):2459.
[17] 司卫军,张华,王朋,等.针刺阳陵泉对脑梗死患者被动运动的即刻效应观察[J].中国针灸,2013,33(2):131-136.
[18] Chen X,Zhang H,Zou Y.A functional magnetic resonance imaging study on the effect of acupuncture at GB34 (Yanglingquan) on motor-related network in hemiplegic Patients[J].Brain Research,2015,19(1601):64-72.
[19] 侯小兵,张允岭,刘明,等.针刺对脑白质疏松轻度认知障碍功能磁共振的影响[J].世界中西医结合杂志,2010,5(2):122-125.
[20] Napadow V,Li A,Loggia ML,et al.The brain circuitry mediating antipruritic effects of acupuncture[J].Cerebral Cortex,2014,24(4):873-82.
[21] 胡卡明,朱蔓佳,J.Hennig.功能性磁共振探查光明、太冲穴与大脑功能的关系[J].中国组织工程研究,2005,9(9):200-201.
[22] 周全,高鹏,赵仓焕,等.视觉刺激状态下正常成人电针光明穴的脑功能性磁共振研究[J].中国病理生理杂志,2010,26(5):907-911.
[23] Gareus IK,Michael Lacour MD,Schulte AC,et al.Is there a BOLD response of the visual cortex on stimulation of the vision-related acupoint GB 37 [J].Journal of Magnetic Resonance Imaging,2002,15(3):227-232.
[24] Li G,Cheung RTMa QY,Yang ES.Visual cortical activations on fMRI upon stimulation of the vision-implicated acupoints[J].Neuroreport,2003,14(5):669-673.
[25] Leung A,Zhao Y,Shukla S.The effect of acupuncture needle combination on central pain processing-an fMRI study[J].Molecular Pain,2014,10(1):23.
[26] Shivshil S,Artour T,Jeng-Ren D,et al.The analgesic effect of electroacupuncture on acute thermal pain perception-a central neural correlate study with fMRI[J].Molecular Pain,2011,7(1):45.
[27] Bai L,Tao Y,Wang D,et al.Acupuncture Induces Time-Dependent Remodelling Brain Network on the Stable Somatosensory First-Ever Stroke Patients:Combining Diffusion Tensor and Functional MR Imaging.[J].Evidence-Based Complementray and Alternative Medicine,2014,2014(1):740480.
[28] 刘宏伟,李匡时,张勇,等.基于功能成像的针刺阳陵泉与被动对指对运动脑区影响的相关性研究[J].中华中医药杂志,2015(5):1443-1446.
[29] Hui KK,Liu JO,Napadow V,et al.The integrated response of the human cerebro-cerebellar and limbic systems to acupuncture stimulation at ST 36 as evidenced by fMRI[J].Neuroimage,2005,27(3):479-496.
[30] Kong J,Kaptchuk TJ,Webb JM,et al.Functional neuroanatomical investigation of vision-related acupuncture point specificity-a multisession fMRI study[J].Human Brain Mapping,2009,30(1):38-46.
[31] Kathleen KS Hui,Ovidiu Marina,Joshua D Claunch,et al.Corrigendum to “Acupuncture mobilizes the brain’s default mode and its anti-correlated network in healthy subjects” [J].Brain Research,2009 1(1287):84-103.
[32] Jiang Y,Wang H,Liu Z,et al.Manipulation of and Sustained Effects on the Human Brain Induced by Different Modalities of Acupuncture:An fMRI Study[J].Plos One,2013,8(6):e66815.
[33] Chen J,Wang J,Huang Y,et al.Modulatory Effect of Acupuncture at Waiguan (TE5) on the Functional Connectivity of the Central Nervous System of Patients with Ischemic Stroke in the Left Basal Ganglia[J].Plos One,2014,9(6):e96777.
[34] Kong J,Gollub RL,Webb JM,et al.Test-retest study of fMRI signal change evoked by electroacupuncture stimulation[J].Neuroimage,2007,34(3):1171-1181.
[35] Zyloney CE,Jensen K,Polich G,et al.Imaging the functional connectivity of the Periaqueductal Gray during genuine and sham electroacupuncture treatment[J].Molecular Pain,2010,6(1):80.
[36] Lee IS,Wallraven C,Kong J,et al.When pain is not only pain:inserting needles into the body evokes distinct reward-related brain responses in the context of a treatment[J].Physiology & Behavior,2015,140(1):148-155.
[37] Chae Y,Lee IS,Jung WM,et al.Psychophysical and neurophysiological responses to acupuncture stimulation to incorporated rubber hand[J].Neuroscience Letters,2015,591:48.
[38] Lee IS,Chae Y.Neural Network Underlying Recovery from Disowned Bodily States Induced by the Rubber Hand Illusion[J].Neural Plasticity,2016,2016(12):1-9.
[39] 宋小鸽,李传富,胡玲,等.针刺对海洛因线索诱发成瘾者磁共振脑功能成像的影响[J].针刺研究,2011,36(2):121-127.
[40] Satterthwaite TD,Elliott MA,Gerraty RT,et al.An Improved Framework for Confound Regression and Filtering for Control of Motion Artifact in the Preprocessing of Resting-State Functional Connectivity Data[J].Neuroimage,2013,64(1):240-256.
[41] Heckova E,Pova?an M,Strasser B,et al.Real-time Correction of Motion and Imager Instability Artifacts during 3D γ-Aminobutyric Acid-edited MR Spectroscopic Imaging[J].Radiology,2017:170744.
[42] Yeo S,Noort MVD,Bosch P,et al.Ipsilateral Putamen and Insula Activation by Both Left and Right GB34 Acupuncture Stimulation:An fMRI Study on Healthy Participants[J].Evidence-Based Complementray and Alternative Medicine,2016,2016(5):4173185.
[43] Li A,Li X,Zhang F,et al.A functional magnetic resonance imaging study of the neuronal specificity of an acupoint:acupuncture at Rangu (KI 2) and its sham point[J].Internal Medicine Journal,2016,46(8):973-977.
[44] 张欣,胡新韬,郭雷.基于动态功能连接的运动任务大脑状态表达[J].计算机应用,2015,35(7):1933-1938.
[45] Friston KJ,Harrison LW.Dynamic causal modelling[J].Neuroimage,2003,19(4):1273-1302.
[2] Qiu K,Jing M,Sun R,et al.The Status of the Quality Control in Acupuncture-Neuroimaging Studies[J].Evidence-Based Complementray and Alternative Medicine,2016,(2016-5-8),2016,2016(4):1-14.
[3] Mazoyer B,Zago L,Mellet E,et al.Cortical networks for working memory and executive function sustain the conscious resting state in man[J].Brain Research Bulletin,2001,54(3):287-298.
[4] 刘森.功能磁共振成像数据处理与分析[D].南京:南京理工大学,2014.
[5] Cho ZH,Chung SC,Lee HJ,et al.Retraction.New findings of the correlation between acupoints and corresponding brain cortices using functional MRI[J].Proceedings of the National Academy of Sciences of the United States of America,1998,95(5):2670-2673.
[6] He X,Zhu Y,Li C,et al.Acupuncture-induced changes in functional connectivity of the primary somatosensory cortex varied with pathological stages of Bell’s palsy[J].Neuroreport,2014,25(14):1162-1168.
[7] Chae Y,Lee H,Kim H,et al.Parsing brain activity associated with acupuncture treatment in Parkinson’s diseases[J].Movement Disorders,2009,24(12):1794-1802.
[8] 何昭璇,侯键,邱科,等.基于功能磁共振成像技术的针刺机制研究现状分析[J].针刺研究,2016,41(5):474-478.
[9] Asghar AU,Green G,Lythgoe MF,et al.Acupuncture needling sensation:the neural correlates of deqi using fMRI[J].Brain Research,2010,1315(8):111-118.
[10] Macpherson H,Green G,Nevado A,et al.Brain imaging of acupuncture:Comparing superficial with deep needling[J].Neuroscience Letters,2008,434(1):144.
[11] Liu J,Qin W,Guo Q,et al.Divergent neural processes specific to the acute and sustained phases of verum and SHAM acupuncture[J].Journal of Magnetic Resonance Imaging,2011,33(1):33-40.
[12] B?cker M,Hammes MG,Valet M,et al.Different modes of manual acupuncture stimulation differentially modulate cerebral blood flow velocity,arterial blood pressure and heart rate in human subjects[J].Neuroscience Letters,2002,333(3):203-206.
[13] 江虹,王培军,赵小虎.功能磁共振成像观察补法、泻法针刺足三里穴对大脑作用的中枢机制[J].中国医学影像技术,2010,26(4):635-638.
[14] Qin W,Tian J,Bai L,et al.FMRI connectivity analysis of acupuncture effects on an amygdala-associated brain network[J].Molecular Pain,2008,4(1):55.
[15] Chen J,Wang J,Huang Y,et al.Modulatory Effect of Acupuncture at Waiguan (TE5) on the Functional Connectivity of the Central Nervous System of Patients with Ischemic Stroke in the Left Basal Ganglia[J].Plos One,2014,9(6):e96777.
[16] Cheng H,Yan H,Bai LJ,et al.Exploration of whole brain networks modulated by acupuncture at analgesia acupoint ST36 using scale-specific wavelet correlation analysis[J].中华医学杂志(英文版),2013,126(13):2459.
[17] 司卫军,张华,王朋,等.针刺阳陵泉对脑梗死患者被动运动的即刻效应观察[J].中国针灸,2013,33(2):131-136.
[18] Chen X,Zhang H,Zou Y.A functional magnetic resonance imaging study on the effect of acupuncture at GB34 (Yanglingquan) on motor-related network in hemiplegic Patients[J].Brain Research,2015,19(1601):64-72.
[19] 侯小兵,张允岭,刘明,等.针刺对脑白质疏松轻度认知障碍功能磁共振的影响[J].世界中西医结合杂志,2010,5(2):122-125.
[20] Napadow V,Li A,Loggia ML,et al.The brain circuitry mediating antipruritic effects of acupuncture[J].Cerebral Cortex,2014,24(4):873-82.
[21] 胡卡明,朱蔓佳,J.Hennig.功能性磁共振探查光明、太冲穴与大脑功能的关系[J].中国组织工程研究,2005,9(9):200-201.
[22] 周全,高鹏,赵仓焕,等.视觉刺激状态下正常成人电针光明穴的脑功能性磁共振研究[J].中国病理生理杂志,2010,26(5):907-911.
[23] Gareus IK,Michael Lacour MD,Schulte AC,et al.Is there a BOLD response of the visual cortex on stimulation of the vision-related acupoint GB 37 [J].Journal of Magnetic Resonance Imaging,2002,15(3):227-232.
[24] Li G,Cheung RTMa QY,Yang ES.Visual cortical activations on fMRI upon stimulation of the vision-implicated acupoints[J].Neuroreport,2003,14(5):669-673.
[25] Leung A,Zhao Y,Shukla S.The effect of acupuncture needle combination on central pain processing-an fMRI study[J].Molecular Pain,2014,10(1):23.
[26] Shivshil S,Artour T,Jeng-Ren D,et al.The analgesic effect of electroacupuncture on acute thermal pain perception-a central neural correlate study with fMRI[J].Molecular Pain,2011,7(1):45.
[27] Bai L,Tao Y,Wang D,et al.Acupuncture Induces Time-Dependent Remodelling Brain Network on the Stable Somatosensory First-Ever Stroke Patients:Combining Diffusion Tensor and Functional MR Imaging.[J].Evidence-Based Complementray and Alternative Medicine,2014,2014(1):740480.
[28] 刘宏伟,李匡时,张勇,等.基于功能成像的针刺阳陵泉与被动对指对运动脑区影响的相关性研究[J].中华中医药杂志,2015(5):1443-1446.
[29] Hui KK,Liu JO,Napadow V,et al.The integrated response of the human cerebro-cerebellar and limbic systems to acupuncture stimulation at ST 36 as evidenced by fMRI[J].Neuroimage,2005,27(3):479-496.
[30] Kong J,Kaptchuk TJ,Webb JM,et al.Functional neuroanatomical investigation of vision-related acupuncture point specificity-a multisession fMRI study[J].Human Brain Mapping,2009,30(1):38-46.
[31] Kathleen KS Hui,Ovidiu Marina,Joshua D Claunch,et al.Corrigendum to “Acupuncture mobilizes the brain’s default mode and its anti-correlated network in healthy subjects” [J].Brain Research,2009 1(1287):84-103.
[32] Jiang Y,Wang H,Liu Z,et al.Manipulation of and Sustained Effects on the Human Brain Induced by Different Modalities of Acupuncture:An fMRI Study[J].Plos One,2013,8(6):e66815.
[33] Chen J,Wang J,Huang Y,et al.Modulatory Effect of Acupuncture at Waiguan (TE5) on the Functional Connectivity of the Central Nervous System of Patients with Ischemic Stroke in the Left Basal Ganglia[J].Plos One,2014,9(6):e96777.
[34] Kong J,Gollub RL,Webb JM,et al.Test-retest study of fMRI signal change evoked by electroacupuncture stimulation[J].Neuroimage,2007,34(3):1171-1181.
[35] Zyloney CE,Jensen K,Polich G,et al.Imaging the functional connectivity of the Periaqueductal Gray during genuine and sham electroacupuncture treatment[J].Molecular Pain,2010,6(1):80.
[36] Lee IS,Wallraven C,Kong J,et al.When pain is not only pain:inserting needles into the body evokes distinct reward-related brain responses in the context of a treatment[J].Physiology & Behavior,2015,140(1):148-155.
[37] Chae Y,Lee IS,Jung WM,et al.Psychophysical and neurophysiological responses to acupuncture stimulation to incorporated rubber hand[J].Neuroscience Letters,2015,591:48.
[38] Lee IS,Chae Y.Neural Network Underlying Recovery from Disowned Bodily States Induced by the Rubber Hand Illusion[J].Neural Plasticity,2016,2016(12):1-9.
[39] 宋小鸽,李传富,胡玲,等.针刺对海洛因线索诱发成瘾者磁共振脑功能成像的影响[J].针刺研究,2011,36(2):121-127.
[40] Satterthwaite TD,Elliott MA,Gerraty RT,et al.An Improved Framework for Confound Regression and Filtering for Control of Motion Artifact in the Preprocessing of Resting-State Functional Connectivity Data[J].Neuroimage,2013,64(1):240-256.
[41] Heckova E,Pova?an M,Strasser B,et al.Real-time Correction of Motion and Imager Instability Artifacts during 3D γ-Aminobutyric Acid-edited MR Spectroscopic Imaging[J].Radiology,2017:170744.
[42] Yeo S,Noort MVD,Bosch P,et al.Ipsilateral Putamen and Insula Activation by Both Left and Right GB34 Acupuncture Stimulation:An fMRI Study on Healthy Participants[J].Evidence-Based Complementray and Alternative Medicine,2016,2016(5):4173185.
[43] Li A,Li X,Zhang F,et al.A functional magnetic resonance imaging study of the neuronal specificity of an acupoint:acupuncture at Rangu (KI 2) and its sham point[J].Internal Medicine Journal,2016,46(8):973-977.
[44] 张欣,胡新韬,郭雷.基于动态功能连接的运动任务大脑状态表达[J].计算机应用,2015,35(7):1933-1938.
[45] Friston KJ,Harrison LW.Dynamic causal modelling[J].Neuroimage,2003,19(4):1273-1302.