The hybrid GLM–ICA investigation on the neural mechanism of acupoint ST36: An fMRI study
暂无分享,去创建一个
Jimin Liang | K. Yuan | Yi Zhang | W. Qin | Jixin Liu | Jie Tian | Peng Liu | Guangyu Zhou | M. Dong | Jinbo Sun | K. M. Deneen | Yijun Liu
[1] D. Price,et al. A psychophysical analysis of acupuncture analgesia , 1984, Pain.
[2] R H Hunt,et al. The effect of acupuncture on gastrointestinal function and disorders. , 1992, The American journal of gastroenterology.
[3] E. Chudler,et al. The role of the basal ganglia in nociception and pain , 1995, Pain.
[4] E. Hurwitz,et al. Use of acupuncture by American physicians. , 1997, Journal of alternative and complementary medicine.
[5] Suzanne N. Haber,et al. Insular Cortical Projections to Functional Regions of the Striatum Correlate with Cortical Cytoarchitectonic Organization in the Primate , 1997, The Journal of Neuroscience.
[6] M. Bushnell,et al. Pain affect encoded in human anterior cingulate but not somatosensory cortex. , 1997, Science.
[7] S Makeig,et al. Spatially independent activity patterns in functional MRI data during the stroop color-naming task. , 1998, Proceedings of the National Academy of Sciences of the United States of America.
[8] E. Chudler,et al. Response properties of neurons in the caudate–putamen and globus pallidus to noxious and non-noxious thermal stimulation in anesthetized rats , 1998, Brain Research.
[9] H. Lee,et al. New findings of the correlation between acupoints and corresponding brain cortices using functional MRI. , 1998, Proceedings of the National Academy of Sciences of the United States of America.
[10] J. Maisog,et al. Pain intensity processing within the human brain: a bilateral, distributed mechanism. , 1999, Journal of neurophysiology.
[11] D. Price. Psychological and neural mechanisms of the affective dimension of pain. , 2000, Science.
[12] B. Rosen,et al. Acupuncture modulates the limbic system and subcortical gray structures of the human brain: Evidence from fMRI studies in normal subjects , 2000, Human brain mapping.
[13] G. Di Chiara,et al. Cocaine and Amphetamine Increase Extracellular Dopamine in the Nucleus Accumbens of Mice Lacking the Dopamine Transporter Gene , 2001, The Journal of Neuroscience.
[14] V D Calhoun,et al. Spatial and temporal independent component analysis of functional MRI data containing a pair of task‐related waveforms , 2001, Human brain mapping.
[15] T. Paus,et al. Repetitive Transcranial Magnetic Stimulation of the Human Prefrontal Cortex Induces Dopamine Release in the Caudate Nucleus , 2001, The Journal of Neuroscience.
[16] J. Pekar,et al. A method for making group inferences from functional MRI data using independent component analysis , 2001, Human brain mapping.
[17] J. Pekar,et al. Erratum: Different activation dynamics in multiple neural systems during simulated driving (Human Brain Mapping (2002) 16 (158-167)) , 2002 .
[18] P. Petrovic,et al. Placebo and Opioid Analgesia-- Imaging a Shared Neuronal Network , 2002, Science.
[19] Martin Ingvar,et al. Imaging cognitive modulation of pain processing , 2002, Pain.
[20] Paul Tsui,et al. Comparison of the effectiveness between manual acupuncture and electro-acupuncture on patients with tennis elbow. , 2002, Acupuncture & electro-therapeutics research.
[21] J. Pekar,et al. Different activation dynamics in multiple neural systems during simulated driving , 2002, Human brain mapping.
[22] Edward S. Yang,et al. Visual cortical activations on fMRI upon stimulation of the vision-implicated acupoints , 2003, Neuroreport.
[23] Kelvin K. Wong,et al. An fMRI study comparing brain activation between word generation and electrical stimulation of language‐implicated acupoints , 2003, Human brain mapping.
[24] W. Wong,et al. A Double-Blind, Randomized, Placebo-Controlled Trial of Acupuncture for the Treatment of Childhood Persistent Allergic Rhinitis , 2004, Pediatrics.
[25] Brandall Y. Suyenobu,et al. The neural correlates of placebo effects: a disruption account , 2004, NeuroImage.
[26] Jing Liu,et al. The integrated response of the human cerebro-cerebellar and limbic systems to acupuncture stimulation at ST 36 as evidenced by fMRI , 2005, NeuroImage.
[27] I. Tracey. Nociceptive processing in the human brain , 2005, Current Opinion in Neurobiology.
[28] Tor D. Wager,et al. The Neural Bases of Placebo Effects in Pain , 2005 .
[29] Richard J. Davidson,et al. Individual Differences in the Effects of Perceived Controllability on Pain Perception: Critical Role of the Prefrontal Cortex , 2007, Journal of Cognitive Neuroscience.
[30] Richard S. Frackowiak,et al. Putaminal activity is related to perceptual certainty , 2008, NeuroImage.
[31] V. Menon,et al. A critical role for the right fronto-insular cortex in switching between central-executive and default-mode networks , 2008, Proceedings of the National Academy of Sciences.
[32] W. Qin,et al. FMRI connectivity analysis of acupuncture effects on an amygdala-associated brain network , 2008, Molecular pain.
[33] Jian Kong,et al. Functional neuroanatomical investigation of vision‐related acupuncture point specificity—A multisession fMRI study , 2009, Human brain mapping.
[34] Jimin Liang,et al. Partial correlation investigation on the default mode network involved in acupuncture: An fMRI study , 2009, Neuroscience Letters.
[35] Yi Zhang,et al. Combining spatial and temporal information to explore function‐guide action of acupuncture using fMRI , 2009, Journal of magnetic resonance imaging : JMRI.