Early bilateral and massive compromise of the frontal lobes

[1]  A. Ibáñez,et al.  Multilevel convergence of interoceptive impairments in hypertension: New evidence of disrupted body–brain interactions , 2018, Human brain mapping.

[2]  F. Manes,et al.  Social neuroscience: undoing the schism between neurology and psychiatry , 2018, Social neuroscience.

[3]  M. Sigman,et al.  A lesion model of envy and Schadenfreude: legal, deservingness and moral dimensions as revealed by neurodegeneration , 2017, Brain : a journal of neurology.

[4]  R. Rafal,et al.  Core, social and moral disgust are bounded: A review on behavioral and neural bases of repugnance in clinical disorders , 2017, Neuroscience & Biobehavioral Reviews.

[5]  M. Sigman,et al.  Attention, in and Out: Scalp-Level and Intracranial EEG Correlates of Interoception and Exteroception , 2017, Front. Neurosci..

[6]  Olivier Piguet,et al.  Tackling variability: A multicenter study to provide a gold‐standard network approach for frontotemporal dementia , 2017, Human brain mapping.

[7]  M. Sigman,et al.  Convergence of interoception, emotion, and social cognition: A twofold fMRI meta-analysis and lesion approach , 2017, Cortex.

[8]  Agustín Ibáñez,et al.  A Lesion-Proof Brain? Multidimensional Sensorimotor, Cognitive, and Socio-Affective Preservation Despite Extensive Damage in a Stroke Patient , 2017, Front. Aging Neurosci..

[9]  Agustín Ibáñez,et al.  The Road Less Traveled: Alternative Pathways for Action-Verb Processing in Parkinson's Disease. , 2016, Journal of Alzheimer's disease : JAD.

[10]  Michael Hornberger,et al.  Towards a neurocomputational account of social dysfunction in neurodegenerative disease. , 2016, Brain : a journal of neurology.

[11]  B. Dubois,et al.  Rostro-caudal Architecture of the Frontal Lobes in Humans , 2016, Cerebral cortex.

[12]  Adolfo M García,et al.  The Social Context Network Model in Psychiatric and Neurological Diseases. , 2016, Current topics in behavioral neurosciences.

[13]  R. Borgatti,et al.  When one is Enough: Impaired Multisensory Integration in Cerebellar Agenesis , 2016, Cerebral cortex.

[14]  Agustín Ibáñez,et al.  Reply: Towards a neurocomputational account of social dysfunction in neurodegenerative disease. , 2017, Brain : a journal of neurology.

[15]  Jia Liu,et al.  Human navigation network: the intrinsic functional organization and behavioral relevance , 2017, Brain Structure and Function.

[16]  Andreas Nieder,et al.  Dual Neural Network Model for the Evolution of Speech and Language , 2016, Trends in Neurosciences.

[17]  S. Baez,et al.  Feeling, learning from and being aware of inner states: interoceptive dimensions in neurodegeneration and stroke , 2016, Philosophical Transactions of the Royal Society B: Biological Sciences.

[18]  Agustín Ibáñez,et al.  The cerebellum and embodied semantics: evidence from a case of genetic ataxia due to STUB1 mutations , 2016, Journal of Medical Genetics.

[19]  Agustín Ibáñez,et al.  Your perspective and my benefit: multiple lesion models of self-other integration strategies during social bargaining. , 2016, Brain : a journal of neurology.

[20]  H. Sarnat,et al.  Telencephalic Flexure and Malformations of the Lateral Cerebral (Sylvian) Fissure. , 2016, Pediatric neurology.

[21]  R. Adolphs,et al.  Building a Science of Individual Differences from fMRI , 2016, Trends in Cognitive Sciences.

[22]  C. Koch,et al.  Neural correlates of consciousness: progress and problems , 2016, Nature Reviews Neuroscience.

[23]  J. Li,et al.  Huge Frontal-Temporal Lobe Arachnoid Cyst Presenting as an Weariness Migraine , 2016, The Journal of craniofacial surgery.

[24]  Facundo Manes,et al.  Orbitofrontal and limbic signatures of empathic concern and intentional harm in the behavioral variant frontotemporal dementia , 2016, Cortex.

[25]  Wolfgang M. Pauli,et al.  Regional specialization within the human striatum for diverse psychological functions , 2016, Proceedings of the National Academy of Sciences.

[26]  Daniel Fraiman,et al.  Brain Network Organization and Social Executive Performance in Frontotemporal Dementia , 2016, Journal of the International Neuropsychological Society.

[27]  Phillipp Bergmann,et al.  Principles Of Behavioral And Cognitive Neurology , 2016 .

[28]  Thomas Frei,et al.  The Human Frontal Lobes Functions And Disorders , 2016 .

[29]  Matthew D. Lieberman,et al.  The dorsal anterior cingulate cortex is selective for pain: Results from large-scale reverse inference , 2015, Proceedings of the National Academy of Sciences.

[30]  A. Lansner,et al.  Neurocognitive Architecture of Working Memory , 2015, Neuron.

[31]  D. Bassett,et al.  Dynamic reconfiguration of frontal brain networks during executive cognition in humans , 2015, Proceedings of the National Academy of Sciences.

[32]  D. Sharp,et al.  Contrasting network and modular perspectives on inhibitory control , 2015, Trends in Cognitive Sciences.

[33]  Paul Steinmann,et al.  Physical biology of human brain development , 2015, Front. Cell. Neurosci..

[34]  Qing-jun Jiang,et al.  A new case of complete primary cerebellar agenesis: clinical and imaging findings in a living patient. , 2015, Brain : a journal of neurology.

[35]  M. Sigman,et al.  Disentangling interoception: insights from focal strokes affecting the perception of external and internal milieus , 2015, Front. Psychol..

[36]  Matthew K. Leonard,et al.  Dynamic speech representations in the human temporal lobe , 2014, Trends in Cognitive Sciences.

[37]  David Huepe,et al.  Comparing moral judgments of patients with frontotemporal dementia and frontal stroke. , 2014, JAMA neurology.

[38]  M. Sigman,et al.  How Do You Feel when You Can't Feel Your Body? Interoception, Functional Connectivity and Emotional Processing in Depersonalization-Derealization Disorder , 2014, PloS one.

[39]  F. Manes,et al.  Bridging psychiatry and neurology through social neuroscience , 2014, World psychiatry : official journal of the World Psychiatric Association.

[40]  Margherita Melloni,et al.  Empathy and contextual social cognition , 2014, Cognitive, affective & behavioral neuroscience.

[41]  Wanqing Li,et al.  The default mode network and social understanding of others: what do brain connectivity studies tell us , 2014, Front. Hum. Neurosci..

[42]  Gerry Leisman,et al.  Cognitive-motor interactions of the basal ganglia in development , 2014, Front. Syst. Neurosci..

[43]  Miguel Martorell Caro,et al.  Implicit emotional awareness in frontotemporal dementia , 2013, Cognitive neuroscience.

[44]  Bruce L. Miller,et al.  The Human Frontal Lobes: Functions and Disorders , 2013 .

[45]  R. Adolphs,et al.  Toward a Neural Basis for Social Behavior , 2013, Neuron.

[46]  Justin S. Feinstein,et al.  Lesion studies of human emotion and feeling , 2013, Current Opinion in Neurobiology.

[47]  Andreea C. Bostan,et al.  Cerebellar networks with the cerebral cortex and basal ganglia , 2013, Trends in Cognitive Sciences.

[48]  Lucas Sedeño,et al.  Insular networks for emotional processing and social cognition: Comparison of two case reports with either cortical or subcortical involvement , 2013, Cortex.

[49]  Hartwig R. Siebner,et al.  The motor system and its disorders , 2012, NeuroImage.

[50]  Facundo Manes,et al.  Contextual social cognition and the behavioral variant of frontotemporal dementia , 2012, Neurology.

[51]  Mert R. Sabuncu,et al.  The influence of head motion on intrinsic functional connectivity MRI , 2012, NeuroImage.

[52]  Monica Acciarresi Agnosia, apraxia, callosal disconnection and other specific cognitive disorders. , 2012, Frontiers of neurology and neuroscience.

[53]  R. Buckner,et al.  The organization of the human striatum estimated by intrinsic functional connectivity. , 2012, Journal of neurophysiology.

[54]  F. Gómez,et al.  Alterations of multiple resting state network connectivity in physiological, pharmacological, and pathological consciousness states , 2012 .

[55]  H. Lau,et al.  Empirical support for higher-order theories of conscious awareness , 2011, Trends in Cognitive Sciences.

[56]  Timothy E. J. Behrens,et al.  Review Frontal Cortex and Reward-guided Learning and Decision-making Figure 1. Frontal Brain Regions in the Macaque Involved in Reward-guided Learning and Decision-making Finer Grained Anatomical Divisions with Frontal Cortical Systems for Reward-guided Behavior , 2022 .

[57]  Marisa O. Hollinshead,et al.  The organization of the human cerebral cortex estimated by intrinsic functional connectivity. , 2011, Journal of neurophysiology.

[58]  Russell A. Poldrack,et al.  Large-scale automated synthesis of human functional neuroimaging data , 2011, Nature Methods.

[59]  Christopher L. Asplund,et al.  The organization of the human cerebellum estimated by intrinsic functional connectivity. , 2011, Journal of neurophysiology.

[60]  D. Menon,et al.  Changes in Resting Neural Connectivity during Propofol Sedation , 2010, PLoS ONE.

[61]  M. Boly,et al.  Breakdown of within- and between-network Resting State Functional Magnetic Resonance Imaging Connectivity during Propofol-induced Loss of Consciousness , 2010, Anesthesiology.

[62]  F. Manes,et al.  Clinical effects of insular damage in humans , 2010, Brain Structure and Function.

[63]  Chaogan Yan,et al.  DPARSF: A MATLAB Toolbox for “Pipeline” Data Analysis of Resting-State fMRI , 2010, Front. Syst. Neurosci..

[64]  R. Todd Constable,et al.  Functional connectivity and alterations in baseline brain state in humans , 2010, NeuroImage.

[65]  M. D’Esposito,et al.  Is the rostro-caudal axis of the frontal lobe hierarchical? , 2009, Nature Reviews Neuroscience.

[66]  C. Clark,et al.  Sensory function in severe semilobar holoprosencephaly , 2009, Neurocase.

[67]  R. Benoit,et al.  Mesulam's frontal lobe mystery re-examined. , 2009, Restorative neurology and neuroscience.

[68]  M. Greicius,et al.  Persistent default‐mode network connectivity during light sedation , 2008, Human brain mapping.

[69]  David Badre,et al.  Cognitive control, hierarchy, and the rostro–caudal organization of the frontal lobes , 2008, Trends in Cognitive Sciences.

[70]  Jeffrey M. Zacks,et al.  Segmentation in the perception and memory of events , 2008, Trends in Cognitive Sciences.

[71]  H. Dufour,et al.  Brain of a white-collar worker , 2007, The Lancet.

[72]  Helga Fritsch,et al.  The Embryonic Human Brain: An Atlas of Developmental Stages , 2007 .

[73]  S. Takashima,et al.  A case of partial 14q- with facial features of holoprosencephaly and hydranencephaly. , 2007, Pediatric neurology.

[74]  M. Donaghy Book Review The Human Frontal Lobes: Functions and Disorders (The Science and Practice of Neuropsychology.) Second edition. Edited by Bruce L. Miller and Jeffrey L. Cummings. 666 pp., illustrated. New York, Guilford Press, 2007. $95. 978-1-59385-329-7 , 2007 .

[75]  B. Merker Consciousness without a cerebral cortex: A challenge for neuroscience and medicine , 2007, Behavioral and Brain Sciences.

[76]  Y. Rossetti,et al.  No double-dissociation between optic ataxia and visual agnosia: Multiple sub-streams for multiple visuo-manual integrations , 2006, Neuropsychologia.

[77]  Christopher J Rennie,et al.  Mode of Functional Connectivity in Amygdala Pathways Dissociates Level of Awareness for Signals of Fear , 2006, The Journal of Neuroscience.

[78]  Adele Diamond,et al.  Bootstrapping conceptual deduction using physical connection: rethinking frontal cortex , 2006, Trends in Cognitive Sciences.

[79]  Joseph Altman,et al.  The Human Brain During the Early First Trimester , 2006 .

[80]  C. Frith,et al.  Meeting of minds: the medial frontal cortex and social cognition , 2006, Nature Reviews Neuroscience.

[81]  Stephen M. Smith,et al.  fMRI resting state networks define distinct modes of long-distance interactions in the human brain , 2006, NeuroImage.

[82]  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.

[83]  Chantal François,et al.  A direct prefrontotectal tract against distractibility in the human brain , 2003, Annals of neurology.

[84]  Bill Faw Pre-frontal executive committee for perception, working memory, attention, long-term memory, motor control, and thinking: A tutorial review , 2003, Consciousness and Cognition.

[85]  Vinod Menon,et al.  Functional connectivity in the resting brain: A network analysis of the default mode hypothesis , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[86]  T E Conturo,et al.  Diffusion tensor fiber tracking of human brain connectivity: aquisition methods, reliability analysis and biological results , 2002, NMR in biomedicine.

[87]  Lucie Hertz-Pannier,et al.  Late plasticity for language in a child's non-dominant hemisphere: a pre- and post-surgery fMRI study. , 2002, Brain : a journal of neurology.

[88]  D. Stuss,et al.  Adult clinical neuropsychology: lessons from studies of the frontal lobes. , 2002, Annual review of psychology.

[89]  Stephen G. Lomber,et al.  Reconstructing functional systems after lesions of cerebral cortex , 2001, Nature Reviews Neuroscience.

[90]  J. Fuster The Prefrontal Cortex—An Update Time Is of the Essence , 2001, Neuron.

[91]  P. Basser,et al.  In vivo fiber tractography using DT‐MRI data , 2000, Magnetic resonance in medicine.

[92]  Martin H. Teicher,et al.  Degree of neuronal activation following FG-7142 changes across regions during development. , 1999, Brain research. Developmental brain research.

[93]  M. Raichle,et al.  Tracking neuronal fiber pathways in the living human brain. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[94]  J. Fuster Frontal lobes , 1993, Current Opinion in Neurobiology.

[95]  B H Price,et al.  The comportmental learning disabilities of early frontal lobe damage. , 1990, Brain : a journal of neurology.

[96]  M. Mesulam Frontal cortex and behavior , 1986, Annals of neurology.

[97]  T. Kansu,et al.  'Agenesis' of the temporal lobe. A case report with autopsy findings. , 1979, Archives of neurology.

[98]  R.N.DeJ. Epilepsy and the Functional Anatomy of the Human Brain , 1954, Neurology.