A diffusion spectrum imaging-based tractographic study into the anatomical subdivision and cortical connectivity of the ventral external capsule: uncinate and inferior fronto-occipital fascicles
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Fang-Cheng Yeh | Sandip S. Panesar | Sudhir Pathak | Vijayakrishna Rowthu | Emrah Celtikci | William D. Hula | Juan C. Fernández-Miranda | J. Fernandez-Miranda | F. Yeh | S. Pathak | S. Panesar | E. Çeltikçi | Pinar Celtikci | Christopher P. Deibert | David Fernandes-Cabral | C. Deibert | Pınar Çeltikçi | David T. Fernandes-Cabral | Vijayakrishna Rowthu
[1] F. Latini,et al. The use of a cerebral perfusion and immersion–fixation process for subsequent white matter dissection , 2015, Journal of Neuroscience Methods.
[2] Randy L Buckner,et al. Common and dissociable activation patterns associated with controlled semantic and phonological processing: evidence from FMRI adaptation. , 2005, Cerebral cortex.
[3] I. Olson,et al. The Enigmatic temporal pole: a review of findings on social and emotional processing. , 2007, Brain : a journal of neurology.
[4] G. Glover,et al. Dissociable Intrinsic Connectivity Networks for Salience Processing and Executive Control , 2007, The Journal of Neuroscience.
[5] Albert L. Rhoton,et al. THREE‐DIMENSIONAL MICROSURGICAL AND TRACTOGRAPHIC ANATOMY OF THE WHITE MATTER OF THE HUMAN BRAIN , 2008 .
[6] Juan Alvarez-Linera,et al. The claustrum and its projection system in the human brain: a microsurgical and tractographic anatomical study. , 2008, Journal of neurosurgery.
[7] Matthew P. G. Allin,et al. Atlasing location, asymmetry and inter-subject variability of white matter tracts in the human brain with MR diffusion tractography , 2011, NeuroImage.
[8] Peter Fransson,et al. Phonology and arithmetic in the language–calculation network , 2015, Brain and Language.
[9] H. Duffau,et al. Frontal terminations for the inferior fronto-occipital fascicle: anatomical dissection, DTI study and functional considerations on a multi-component bundle , 2011, Brain Structure and Function.
[10] Stephanie J. Forkel. The anatomy of fronto-occipital connections , 2009 .
[11] Matthew F Glasser,et al. DTI tractography of the human brain's language pathways. , 2008, Cerebral cortex.
[12] M. Berger,et al. Q-Ball of Inferior Fronto-Occipital Fasciculus and Beyond , 2013, PloS one.
[13] Elizabeth R. Chrastil,et al. Functional connections between optic flow areas and navigationally responsive brain regions during goal-directed navigation , 2015, NeuroImage.
[14] Risto Näätänen,et al. Linguistic processing in visual and modality-nonspecific brain areas: PET recordings during selective attention. , 2004, Brain research. Cognitive brain research.
[15] D. Louis Collins,et al. Design and construction of a realistic digital brain phantom , 1998, IEEE Transactions on Medical Imaging.
[16] R. Kikinis,et al. Uncinate fasciculus findings in schizophrenia: a magnetic resonance diffusion tensor imaging study. , 2002, The American journal of psychiatry.
[17] J. Gore,et al. An Event-Related fMRI Study of Implicit Phrase-Level Syntactic and Semantic Processing , 1999, NeuroImage.
[18] Alberto Pisoni,et al. Long-term proper name anomia after removal of the uncinate fasciculus , 2014, Brain Structure and Function.
[19] Timothy Edward John Behrens,et al. How Green Is the Grass on the Other Side? Frontopolar Cortex and the Evidence in Favor of Alternative Courses of Action , 2009, Neuron.
[20] Argye E. Hillis,et al. The function of the left anterior temporal pole: evidence from acute stroke and infarct volume , 2011, Brain : a journal of neurology.
[21] M. Catani,et al. Monkey to human comparative anatomy of the frontal lobe association tracts , 2012, Cortex.
[22] R. Bronen,et al. MR imaging of the temporal stem: anatomic dissection tractography of the uncinate fasciculus, inferior occipitofrontal fasciculus, and Meyer's loop of the optic radiation. , 2004, AJNR. American journal of neuroradiology.
[23] I. Olson,et al. Dissecting the uncinate fasciculus: disorders, controversies and a hypothesis. , 2013, Brain : a journal of neurology.
[24] Simon B. Eickhoff,et al. Specialisation in Broca's region for semantic, phonological, and syntactic fluency? , 2008, NeuroImage.
[25] Hugues Duffau,et al. Anatomic dissection of the inferior fronto-occipital fasciculus revisited in the lights of brain stimulation data , 2010, Cortex.
[26] Justin L. Vincent,et al. Spontaneous neuronal activity distinguishes human dorsal and ventral attention systems. , 2006, Proceedings of the National Academy of Sciences of the United States of America.
[27] Andrea Moro,et al. Neural Correlates for the Acquisition of Natural Language Syntax , 2002, NeuroImage.
[28] R. Elliott,et al. Serotonergic modulation of neuronal responses to behavioural inhibition and reinforcing stimuli: an fMRI study in healthy volunteers , 2006, The European journal of neuroscience.
[29] Juan Alvarez-Linera,et al. THREE‐DIMENSIONAL MICROSURGICAL AND TRACTOGRAPHIC ANATOMY OF THE WHITE MATTER OF THE HUMAN BRAIN , 2008, Neurosurgery.
[30] Deepak N. Pandya,et al. The prefrontal cortex: Comparative architectonic organization in the human and the macaque monkey brains , 2012, Cortex.
[31] Marcia K. Johnson,et al. Prefrontal activity associated with working memory and episodic long-term memory , 2003, Neuropsychologia.
[32] M. Mesulam. A cortical network for directed attention and unilateral neglect , 1981, Annals of neurology.
[33] Arthur W. Toga,et al. Stereotaxic white matter atlas based on diffusion tensor imaging in an ICBM template , 2008, NeuroImage.
[34] Thomas R. Barrick,et al. Atlas-based segmentation of white matter tracts of the human brain using diffusion tensor tractography and comparison with classical dissection , 2008, NeuroImage.
[35] Juan C Fernandez-Miranda,et al. Editorial: Beyond diffusion tensor imaging. , 2013, Journal of neurosurgery.
[36] Wolfgang Grodd,et al. Identification of emotional intonation evaluated by fMRI , 2005, NeuroImage.
[37] T. Robbins,et al. Choosing between Small, Likely Rewards and Large, Unlikely Rewards Activates Inferior and Orbital Prefrontal Cortex , 1999, The Journal of Neuroscience.
[38] F. J. Friedrich,et al. Effects of parietal injury on covert orienting of attention , 1984, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[39] Byron Bernal,et al. Broca’s area network in language function: a pooling-data connectivity study , 2015, Front. Psychol..
[40] James L. McClelland,et al. Dissociating stimulus‐driven semantic and phonological effect during reading and naming , 2006, Human brain mapping.
[41] Hugues Duffau,et al. New Insights Into the Anatomic Dissection of the Temporal Stem With Special Emphasis on the Inferior Fronto‐occipital Fasciculus: Implications in Surgical Approach to Left Mesiotemporal and Temporoinsular Structures , 2010, Neurosurgery.
[42] Yupeng Wu,et al. Subcomponents and Connectivity of the Inferior Fronto-Occipital Fasciculus Revealed by Diffusion Spectrum Imaging Fiber Tracking , 2016, Front. Neuroanat..
[43] Mitchel S. Berger,et al. Operative techniques for gliomas and the value of extent of resection , 2009, Neurotherapeutics.
[44]
Fang-Cheng Yeh,et al.
Generalized
[45] C. Baker,et al. Diffusion MRI properties of the human uncinate fasciculus correlate with the ability to learn visual associations , 2015, Cortex.
[46] S. Wakana,et al. Fiber tract-based atlas of human white matter anatomy. , 2004, Radiology.
[47] M. Ashtari,et al. Development and aging of the healthy human brain uncinate fasciculus across the lifespan using diffusion tensor tractography , 2009, Brain Research.
[48] Fang-Cheng Yeh,et al. NTU-90: A high angular resolution brain atlas constructed by q-space diffeomorphic reconstruction , 2011, NeuroImage.
[49] Pascale Tremblay,et al. Beyond the arcuate fasciculus: consensus and controversy in the connectional anatomy of language. , 2012, Brain : a journal of neurology.
[50] P. Dayan,et al. Cortical substrates for exploratory decisions in humans , 2006, Nature.
[51] Timothy D. Verstynen,et al. Deterministic Diffusion Fiber Tracking Improved by Quantitative Anisotropy , 2013, PloS one.
[52] S. Bookheimer,et al. Form and Content Dissociating Syntax and Semantics in Sentence Comprehension , 1999, Neuron.
[53] J. Fernandez-Miranda,et al. Subcomponents and connectivity of the superior longitudinal fasciculus in the human brain , 2015, Brain Structure and Function.
[54] Derek K. Jones,et al. Symmetries in human brain language pathways correlate with verbal recall , 2007, Proceedings of the National Academy of Sciences.
[55] Marie T. Banich,et al. Organization of the Human Frontal Pole Revealed by Large-Scale DTI-Based Connectivity: Implications for Control of Behavior , 2015, PloS one.
[56] N. Kanwisher,et al. The lateral occipital complex and its role in object recognition , 2001, Vision Research.
[57] Derek K. Jones,et al. Virtual in Vivo Interactive Dissection of White Matter Fasciculi in the Human Brain , 2002, NeuroImage.
[58] M. Berger,et al. Frontal operculum gliomas: language outcome following resection. , 2015, Journal of neurosurgery.
[59] J. O'Doherty,et al. Lights, Camembert, Action! The Role of Human Orbitofrontal Cortex in Encoding Stimuli, Rewards, and Choices , 2007, Annals of the New York Academy of Sciences.
[60] Derek K. Jones,et al. Perisylvian language networks of the human brain , 2005, Annals of neurology.
[61] Carl-Fredrik Westin,et al. White matter hemisphere asymmetries in healthy subjects and in schizophrenia: a diffusion tensor MRI study , 2004, NeuroImage.
[62] S. Kosslyn,et al. The role of area 17 in visual imagery: convergent evidence from PET and rTMS. , 1999, Science.
[63] Stanislas Dehaene,et al. Specialization within the ventral stream: the case for the visual word form area , 2004, NeuroImage.
[64] Simon B. Eickhoff,et al. Analysis of neural mechanisms underlying verbal fluency in cytoarchitectonically defined stereotaxic space—The roles of Brodmann areas 44 and 45 , 2004, NeuroImage.
[65] J. Fernandez-Miranda,et al. Asymmetry, connectivity, and segmentation of the arcuate fascicle in the human brain , 2014, Brain Structure and Function.
[66] Angela D. Friederici,et al. Merge in the Human Brain: A Sub-Region Based Functional Investigation in the Left Pars Opercularis , 2015, Front. Psychol..
[67] Vinod Goel,et al. Neuroanatomical Correlates of Human Reasoning , 1998, Journal of Cognitive Neuroscience.
[68] J. Desmond,et al. Functional Specialization for Semantic and Phonological Processing in the Left Inferior Prefrontal Cortex , 1999, NeuroImage.
[69] N. Tzourio-Mazoyer,et al. Automated Anatomical Labeling of Activations in SPM Using a Macroscopic Anatomical Parcellation of the MNI MRI Single-Subject Brain , 2002, NeuroImage.
[70] C. Fiebach,et al. The role of left inferior frontal and superior temporal cortex in sentence comprehension: localizing syntactic and semantic processes. , 2003, Cerebral cortex.
[71] Yong Wang,et al. The uncinate fasciculus as observed using diffusion spectrum imaging in the human brain , 2016, Neuroradiology.
[72] R. Dolan,et al. An fMRI study of intentional and unintentional (embarrassing) violations of social norms. , 2002, Brain : a journal of neurology.
[73] Vinod Menon,et al. Musical structure is processed in “language” areas of the brain: a possible role for Brodmann Area 47 in temporal coherence , 2003, NeuroImage.
[74] Paul J. Harrison,et al. Asymmetry of the uncinate fasciculus: a post-mortem study of normal subjects and patients with schizophrenia. , 2002, Cerebral cortex.
[75] B. Mazoyer,et al. Cortical Terminations of the Inferior Fronto-Occipital and Uncinate Fasciculi: Anatomical Stem-Based Virtual Dissection , 2016, Front. Neuroanat..
[76] Costanza Papagno,et al. Naming and the Role of the Uncinate Fasciculus in Language Function , 2011, Current neurology and neuroscience reports.