Altered Resting State in Diabetic Neuropathic Pain
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Katiuscia Sacco | Franco Cauda | Federico D'Agata | Sergio Duca | Sergio Canavero | K. Sacco | F. Cauda | S. Duca | F. D’Agata | D. Cocito | G. Geminiani | S. Canavero | Dario Cocito | Giuliano C. Geminiani
[1] Rainer Goebel,et al. Classification of fMRI independent components using IC-fingerprints and support vector machine classifiers , 2007, NeuroImage.
[2] Thomas Martinetz,et al. Model-Free Functional MRI Analysis Using Topographic Independent Component Analysis , 2004, ESANN.
[3] V. Calhoun,et al. Aberrant "default mode" functional connectivity in schizophrenia. , 2007, The American journal of psychiatry.
[4] K. Sacco,et al. Disrupted intrinsic functional connectivity in the vegetative state , 2008, Journal of Neurology, Neurosurgery, and Psychiatry.
[5] R. Pearson,et al. The Human Nervous System. Basic Elements of Structure and Function , 1967, The Yale Journal of Biology and Medicine.
[6] P. Fransson. Spontaneous low‐frequency BOLD signal fluctuations: An fMRI investigation of the resting‐state default mode of brain function hypothesis , 2005, Human brain mapping.
[7] D. Chialvo,et al. Beyond Feeling: Chronic Pain Hurts the Brain, Disrupting the Default-Mode Network Dynamics , 2008, The Journal of Neuroscience.
[8] M. Greicius,et al. Default-mode network activity distinguishes Alzheimer's disease from healthy aging: Evidence from functional MRI , 2004, Proc. Natl. Acad. Sci. USA.
[9] R. Dworkin. An Overview of Neuropathic Pain: Syndromes, Symptoms, Signs, and Several Mechanisms , 2002, The Clinical journal of pain.
[10] Kyungmo Park,et al. Acupuncture modulates resting state connectivity in default and sensorimotor brain networks , 2008, PAIN.
[11] D. Price. Psychological and neural mechanisms of the affective dimension of pain. , 2000, Science.
[12] J. Greenspan,et al. Sex differences in endogenous pain modulation by distracting and painful conditioning stimulation , 2007, PAIN.
[13] J. Xiong,et al. The power of spectral density analysis for mapping endogenous BOLD signal fluctuations , 2008, Human brain mapping.
[14] Till Sprenger,et al. Distraction modulates connectivity of the cingulo-frontal cortex and the midbrain during pain—an fMRI analysis , 2004, Pain.
[15] Leonie J. Cole,et al. Age-related differences in pain sensitivity and regional brain activity evoked by noxious pressure , 2010, Neurobiology of Aging.
[16] Dante R Chialvo,et al. Dynamics of pain: fractal dimension of temporal variability of spontaneous pain differentiates between pain States. , 2006, Journal of neurophysiology.
[17] E. Bizzi,et al. The Cognitive Neurosciences , 1996 .
[19] Q. Xi,et al. Altered default mode network activity in patient with anxiety disorders: an fMRI study. , 2007, European journal of radiology.
[20] Karl J. Friston. Functional and effective connectivity in neuroimaging: A synthesis , 1994 .
[21] R. Treede,et al. Human brain mechanisms of pain perception and regulation in health and disease , 2005, European journal of pain.
[22] Emeran A. Mayer,et al. Differences in brain responses to visceral pain between patients with irritable bowel syndrome and ulcerative colitis , 2005, Pain.
[23] M. L. Sotgiu,et al. Chronic pain as expression of neural substrates. Issues from the neuronal dynamics and mutual relations. , 2004, Archives italiennes de biologie.
[24] A. Pérez-Villalba. Rhythms of the Brain, G. Buzsáki. Oxford University Press, Madison Avenue, New York (2006), Price: GB £42.00, p. 448, ISBN: 0-19-530106-4 , 2008 .
[25] G Mann,et al. ON THE THALAMUS * , 1905, British medical journal.
[26] Rainer Goebel,et al. Independent component model of the default-mode brain function: Assessing the impact of active thinking , 2006, Brain Research Bulletin.
[27] S. Duca,et al. The role of cortex in central pain syndromes: preliminary results of a long-term technetium-99 hexamethylpropyleneamineoxime single photon emission computed tomography study. , 1993, Neurosurgery.
[28] J. Sarnthein,et al. Increased EEG power and slowed dominant frequency in patients with neurogenic pain. , 2006, Brain : a journal of neurology.
[29] G. Tononi,et al. Breakdown of Cortical Effective Connectivity During Sleep , 2005, Science.
[30] Alessandro Vercelli. Brain maps and connectivity representation , 2007, Neuroinformatics.
[31] M. Fox,et al. Spontaneous fluctuations in brain activity observed with functional magnetic resonance imaging , 2007, Nature Reviews Neuroscience.
[32] Keiichi Kitajo,et al. Neural synchrony in stochastic resonance, attention, and consciousness. , 2006, Canadian journal of experimental psychology = Revue canadienne de psychologie experimentale.
[33] E. Formisano,et al. Functional connectivity as revealed by spatial independent component analysis of fMRI measurements during rest , 2004, Human brain mapping.
[34] Terrence J. Sejnowski,et al. An Information-Maximization Approach to Blind Separation and Blind Deconvolution , 1995, Neural Computation.
[35] G. Krauthamer,et al. Cortical synchronization evoked by noxious bradykinin stimulation under barbiturate anesthesia. , 1974, Brain research.
[36] G. Paxinos,et al. THE HUMAN NERVOUS SYSTEM , 1975 .
[37] W. Singer,et al. Neural Synchrony in Brain Disorders: Relevance for Cognitive Dysfunctions and Pathophysiology , 2006, Neuron.
[38] K. Davis,et al. Pain enhances functional connectivity of a brain network evoked by performance of a cognitive task. , 2007, Journal of neurophysiology.
[39] Luiz A Baccalá,et al. Anticipation of pain enhances the nociceptive transmission and functional connectivity within pain network in rats , 2008, Molecular pain.
[40] Maurizio Corbetta,et al. The human brain is intrinsically organized into dynamic, anticorrelated functional networks. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[41] Stephen M. Smith,et al. fMRI resting state networks define distinct modes of long-distance interactions in the human brain , 2006, NeuroImage.
[42] Stephen M. Smith,et al. Investigations into resting-state connectivity using independent component analysis , 2005, Philosophical Transactions of the Royal Society B: Biological Sciences.
[43] Paul J. Laurienti,et al. An automated method for neuroanatomic and cytoarchitectonic atlas-based interrogation of fMRI data sets , 2003, NeuroImage.
[44] T. Wager,et al. Different circuits for different pain: Patterns of functional connectivity reveal distinct networks for processing pain in self and others , 2007, Social neuroscience.
[45] Eugene M. Izhikevich,et al. Dynamical Systems in Neuroscience: The Geometry of Excitability and Bursting , 2006 .
[46] J. Rissanen. A UNIVERSAL PRIOR FOR INTEGERS AND ESTIMATION BY MINIMUM DESCRIPTION LENGTH , 1983 .
[47] Andreas A Ioannides,et al. Dynamic functional connectivity , 2007, Current Opinion in Neurobiology.
[48] N. Crone,et al. Analysis of synchrony demonstrates ‘pain networks’ defined by rapidly switching, task-specific, functional connectivity between pain-related cortical structures , 2006, PAIN.
[49] Dante R. Chialvo,et al. Chronic pain patients are impaired on an emotional decision-making task , 2004, Pain.
[50] S. Minoshima,et al. Keeping pain out of mind: the role of the dorsolateral prefrontal cortex in pain modulation. , 2003, Brain : a journal of neurology.
[51] D. Hubl,et al. Brain connectivity at different time-scales measured with EEG , 2005, Philosophical Transactions of the Royal Society B: Biological Sciences.
[52] Karl J. Friston,et al. Dynamic causal modelling , 2003, NeuroImage.