| # | Title | Journal | Year | Citations |
|---|
|
| 1 | Extraordinary neoteny of synaptic spines in the human prefrontal cortex | Proceedings of the National Academy of Sciences of the United States of America | 2011 | 1,126 |
| 2 | The anatomy of memory: an interactive overview of the parahippocampal–hippocampal network | Nature Reviews Neuroscience | 2009 | 1,095 |
| 3 | Putting a spin on the dorsal–ventral divide of the striatum | Trends in Neurosciences | 2004 | 1,082 |
| 4 | A pathophysiological framework of hippocampal dysfunction in ageing and disease | Nature Reviews Neuroscience | 2011 | 773 |
| 5 | Lewy pathology in Parkinson’s disease consists of crowded organelles and lipid membranes | Nature Neuroscience | 2019 | 669 |
| 6 | Cellular changes in the postmortem hippocampus in major depression | Biological Psychiatry | 2004 | 638 |
| 7 | Chronic Pulmonary Artery Pressure Elevation Is Insufficient to Explain Right Heart Failure | Circulation | 2009 | 453 |
| 8 | Spatial representation and the architecture of the entorhinal cortex | Trends in Neurosciences | 2006 | 448 |
| 9 | The neuropharmacology of impulsive behaviour | Trends in Pharmacological Sciences | 2008 | 428 |
| 10 | Questions and controversies in the study of time-varying functional connectivity in resting fMRI | Network Neuroscience | 2020 | 427 |
| 11 | Cognition in multiple sclerosis | Neurology | 2018 | 418 |
| 12 | The Basal Ganglia and Motor Control | Neural Plasticity | 2003 | 416 |
| 13 | Will the real multiple sclerosis please stand up? | Nature Reviews Neuroscience | 2012 | 416 |
| 14 | Frontal-Striatal Dysfunction During Planning in Obsessive-Compulsive Disorder | Archives of General Psychiatry | 2005 | 359 |
| 15 | Neuropathology of stress | Acta Neuropathologica | 2014 | 348 |
| 16 | Disorder-Specific Neuroanatomical Correlates of Attentional Bias in Obsessive-compulsive Disorder, Panic Disorder, and Hypochondriasis | Archives of General Psychiatry | 2005 | 336 |
| 17 | Impaired Spatial Representation in CA1 after Lesion of Direct Input from Entorhinal Cortex | Neuron | 2008 | 334 |
| 18 | Exploring the origins of grey matter damage in multiple sclerosis | Nature Reviews Neuroscience | 2015 | 334 |
| 19 | What Does the Anatomical Organization of the Entorhinal Cortex Tell Us? | Neural Plasticity | 2008 | 326 |
| 20 | Direction of information flow in large-scale resting-state networks is frequency-dependent | Proceedings of the National Academy of Sciences of the United States of America | 2016 | 326 |
| 21 | Spatial Memory in the Rat Requires the Dorsolateral Band of the Entorhinal Cortex | Neuron | 2005 | 301 |
| 22 | The perforant path: projections from the entorhinal cortex to the dentate gyrus | Progress in Brain Research | 2007 | 298 |
| 23 | Progression of regional grey matter atrophy in multiple sclerosis | Brain | 2018 | 292 |
| 24 | Brain circuitry of compulsivity | European Neuropsychopharmacology | 2016 | 281 |
| 25 | Circuit-Based Corticostriatal Homologies Between Rat and Primate | Biological Psychiatry | 2016 | 280 |
| 26 | Brain atrophy and lesion load predict long term disability in multiple sclerosis | Journal of Neurology, Neurosurgery and Psychiatry | 2013 | 278 |
| 27 | Distinct Subcortical Volume Alterations in Pediatric and Adult OCD: A Worldwide Meta- and Mega-Analysis | American Journal of Psychiatry | 2017 | 273 |
| 28 | Consensus recommendations for MS cortical lesion scoring using double inversion recovery MRI | Neurology | 2011 | 269 |
| 29 | Presupplementary Motor Area Hyperactivity During Response Inhibition: A Candidate Endophenotype of Obsessive-Compulsive Disorder | American Journal of Psychiatry | 2012 | 267 |
| 30 | Measurement and clinical effect of grey matter pathology in multiple sclerosis | Lancet Neurology, The | 2012 | 257 |
| 31 | Extensive Hippocampal Demyelination in Multiple Sclerosis | Journal of Neuropathology and Experimental Neurology | 2007 | 245 |
| 32 | Multicenter Voxel-Based Morphometry Mega-Analysis of Structural Brain Scans in Obsessive-Compulsive Disorder | American Journal of Psychiatry | 2014 | 233 |
| 33 | Therapeutic potential of autophagy-enhancing agents in Parkinson’s disease | Molecular Neurodegeneration | 2017 | 224 |
| 34 | The role of habit in compulsivity | European Neuropsychopharmacology | 2016 | 223 |
| 35 | Postmortem verification of MS cortical lesion detection with 3D DIR | Neurology | 2012 | 211 |
| 36 | Cortical Abnormalities Associated With Pediatric and Adult Obsessive-Compulsive Disorder: Findings From the ENIGMA Obsessive-Compulsive Disorder Working Group | American Journal of Psychiatry | 2018 | 209 |
| 37 | Complement C1q‐C3–associated synaptic changes in multiple sclerosis hippocampus | Annals of Neurology | 2015 | 202 |
| 38 | Automatic segmentation and volumetry of multiple sclerosis brain lesions from MR images | NeuroImage: Clinical | 2015 | 200 |
| 39 | Brain MRI atrophy quantification in MS | Neurology | 2017 | 199 |
| 40 | The Relationship between Impulsive Choice and Impulsive Action: A Cross-Species Translational Study | PLoS ONE | 2012 | 194 |
| 41 | Compulsivity in obsessive–compulsive disorder and addictions | European Neuropsychopharmacology | 2016 | 192 |
| 42 | Subcortical atrophy and cognition | Neurology | 2012 | 185 |
| 43 | Thalamus structure and function determine severity of cognitive impairment in multiple sclerosis | Neurology | 2015 | 185 |
| 44 | Network Collapse and Cognitive Impairment in Multiple Sclerosis | Frontiers in Neurology | 2015 | 177 |
| 45 | ENIGMA and the individual: Predicting factors that affect the brain in 35 countries worldwide | NeuroImage | 2017 | 175 |
| 46 | Cingulate cortex projections to the parahippocampal region and hippocampal formation in the rat | Hippocampus | 2007 | 165 |
| 47 | Cytoarchitectonic and chemoarchitectonic characterization of the prefrontal cortical areas in the mouse | Brain Structure and Function | 2010 | 165 |
| 48 | Human subcortical brain asymmetries in 15,847 people worldwide reveal effects of age and sex | Brain Imaging and Behavior | 2017 | 161 |
| 49 | The nucleus reuniens of the thalamus sits at the nexus of a hippocampus and medial prefrontal cortex circuit enabling memory and behavior | Learning and Memory | 2019 | 161 |
| 50 | The orbital cortex in rats topographically projects to central parts of the caudate–putamen complex | Neuroscience Letters | 2008 | 159 |
