Broca P. Remarques sur le siège de la faculté du langage articulé, suivies d’une observation d’aphémie (perte de la parole). Bull. Mém. Soc. Anat. Paris. 6 : 330-357 View in Article Google Scholar

Wernicke C. Der Aphasische Symptomencomplex: Eine Psychologische Studie auf Anatomischer Basis. M. Crohn und Weigert , View in Article Google Scholar

Scoville W.B.

Milner B. Loss of recent memory after bilateral hippocampal lesions. J. Neurol. Neurosurg. Psychiatry. 20 : 11-21 View in Article PubMed

Crossref

Google Scholar

Milner B. Les troubles de la mémoire accompagnant des lésions hippocampiques bilatérales. in: Passouant P. Physiologie de l’Hippocampe. Centre National de la Recherche Scientifique , : 257-272 View in Article Google Scholar

Ungerleider L.G.

Mishkin M. Two cortical visual systems. in: Ingle D.J. Analysis of Visual Behavior. MIT Press , : 549-586 View in Article Google Scholar

McClelland J.L.

et al. Why there are complementary learning systems in the hippocampus and neocortex: insights from the successes and failures of connectionist models of learning and memory. Psychol. Rev. 102 : 419-457 View in Article PubMed

Crossref

Google Scholar

Mansouri F.A.

et al. Behavioral consequences of selective damage to frontal pole and posterior cingulate cortices. Proc. Natl. Acad. Sci. U. S. A. 112 : E3940-E3949 View in Article PubMed

Crossref

Google Scholar

Petrides M. Selection between competing responses based on conditional rules. in: Bunge S.A. Wallis J.D. Neuroscience of Rule-Governed Behavior. Oxford University Press , : 3-22 View in Article Google Scholar

Shamay-Tsoory S.G.

et al. Two systems for empathy: a double dissociation between emotional and cognitive empathy in inferior frontal gyrus versus ventromedial prefrontal lesions. Brain. 132 : 617-627 View in Article Scopus (633)

PubMed

Crossref

Google Scholar

Hebscher M.

et al. Memory, decision-making, and the ventromedial prefrontal cortex (vmPFC): the roles of subcallosal and posterior orbitofrontal cortices in monitoring and control processes. Cereb. Cortex. 26 : 4590-4601 View in Article Scopus (20)

PubMed

Crossref

Google Scholar

Petrides M. The mid-dorsolateral prefronto-parietal network and the epoptic process. in: Stuss D.T. Knight R.T. Principles of Frontal Lobe Function. 2nd edn. Oxford University Press , : 79-89 View in Article Google Scholar

Meunier M.

et al. Effects on visual recognition of combined and separate ablations of the entorhinal and perirhinal cortex in rhesus monkeys. J. Neurosci. 13 : 5418-5432 View in Article PubMed

Crossref

Google Scholar

Pandya D.

et al. Cerebral Cortex: Architecture, Connections, and the Dual Origin Concept. Oxford University Press , View in Article Crossref

Google Scholar

Vaidya A.R.

Fellows L.K. Testing necessary regional frontal contributions to value assessment and fixation-based updating. Nat. Commun. 6 10120 View in Article PubMed

Crossref

Google Scholar

Petrides M. Impairments on nonspatial self-ordered and externally ordered working memory tasks after lesions of the mid-dorsal part of the lateral frontal cortex in the monkey. J. Neurosci. 15 : 359-375 View in Article PubMed

Crossref

Google Scholar

Milner B.

et al. Further analysis of hippocampal amnesic syndrome – 14-year follow-up study of H.M. Neuropsychologia. 6 : 215-234 View in Article Crossref

Google Scholar

Corkin S. Permanent Present Tense. Basic Books , View in Article Google Scholar

Baxter M.G.

et al. Control of response selection by reinforcer value requires interaction of amygdala and orbital prefrontal cortex. J. Neurosci. 20 : 4311-4319 View in Article PubMed

Crossref

Google Scholar

Izquierdo A.

Murray E.A. Combined unilateral lesions of the amygdala and orbital prefrontal cortex impair affective processing in rhesus monkeys. J. Neurophysiol. 91 : 2023-2039 View in Article Scopus (107)

PubMed

Crossref

Google Scholar

Leonard B.W.

et al. Transient memory impairment in monkeys with bilateral lesions of the entorhinal cortex. J. Neurosci. 15 : 5637-5659 View in Article PubMed

Crossref

Google Scholar

Suzuki W.A.

et al. Lesions of the perirhinal and parahippocampal cortices in the monkey produce long-lasting memory impairment in the visual and tactual modalities. J. Neurosci. 13 : 2430-2451 View in Article PubMed

Crossref

Google Scholar

Finger S.

et al. Brain damage and behavioral recovery: serial lesion phenomena. Brain Res. 63 : 1-18 View in Article PubMed

Crossref

Google Scholar

Fetsch C.R.

et al. Focal optogenetic suppression in macaque area MT biases direction discrimination and decision confidence, but only transiently. Elife. 7 e36523 View in Article Scopus (2)

PubMed

Crossref

Google Scholar

Ilmoniemi R.J.

et al. Neuronal responses to magnetic stimulation reveal cortical reactivity and connectivity. Neuroreport. 8 : 3537-3540 View in Article PubMed

Crossref

Google Scholar

Paus T.

et al. Transcranial magnetic stimulation during positron emission tomography: a new method for studying connectivity of the human cerebral cortex. J. Neurosci. 17 : 3178-3184 View in Article PubMed

Crossref

Google Scholar

Hadj-Bouziane F.

et al. Amygdala lesions disrupt modulation of functional MRI activity evoked by facial expression in the monkey inferior temporal cortex. Proc. Natl. Acad. Sci. U. S. A. 109 : E3640-E3648 View in Article Scopus (0)

PubMed

Crossref

Google Scholar

Schmid M.C.

et al. Visually driven activation in macaque areas V2 and V3 without input from the primary visual cortex. PLoS One. 4 e5527 View in Article Scopus (0)

PubMed

Crossref

Google Scholar

Petrides M. Functional specialization within the dorsolateral frontal cortex for serial order memory. Proc. Biol. Sci. 246 : 299-306 View in Article PubMed

Crossref

Google Scholar

Martin C.B.

et al. Integrative and distinctive coding of visual and conceptual object features in the ventral visual stream. Elife. 7 e31873 View in Article Scopus (16)

PubMed

Crossref

Google Scholar

Thiebaut de Schotten M.

et al. Damage to white matter pathways in subacute and chronic spatial neglect: a group study and 2 single-case studies with complete virtual ‘in vivo’ tractography dissection. Cereb. Cortex. 24 : 691-706 View in Article Scopus (0)

PubMed

Crossref

Google Scholar

Dauguet J.

et al. Comparison of fiber tracts derived from in-vivo DTI tractography with 3D histological neural tract tracer reconstruction on a macaque brain. Neuroimage. 37 : 530-538 View in Article Scopus (133)

PubMed

Crossref

Google Scholar

Thiebaut de Schotten M.

et al. Atlasing location, asymmetry and inter-subject variability of white matter tracts in the human brain with MR diffusion tractography. Neuroimage. 54 : 49-59 View in Article Scopus (336)

PubMed

Crossref

Google Scholar

Carter A.R.

et al. Resting interhemispheric functional magnetic resonance imaging connectivity predicts performance after stroke. Ann. Neurol. 67 : 365-375 View in Article PubMed

Google Scholar

Kazama A.

Bachevalier J. Selective aspiration or neurotoxic lesions of orbital frontal areas 11 and 13 spared monkeys' performance on the object discrimination reversal task. J. Neurosci. 29 : 2794-2804 View in Article Scopus (0)

PubMed

Crossref

Google Scholar

Shiba Y.

et al. Lesions of either anterior orbitofrontal cortex or ventrolateral prefrontal cortex in marmoset monkeys heighten innate fear and attenuate active coping behaviors to predator threat. Front. Syst. Neurosci. 8 : 250 View in Article Scopus (12)

PubMed

Crossref

Google Scholar

Izquierdo A.

Murray E.A. Functional interaction of medial mediodorsal thalamic nucleus but not nucleus accumbens with amygdala and orbital prefrontal cortex is essential for adaptive response selection after reinforcer devaluation. J. Neurosci. 30 : 661-669 View in Article Scopus (49)

PubMed

Crossref

Google Scholar

Wallis C.U.

et al. Opposing roles of primate areas 25 and 32 and their putative rodent homologs in the regulation of negative emotion. Proc. Natl. Acad. Sci. U. S. A. 114 : E4075-E4084 View in Article Scopus (0)

PubMed

Crossref

Google Scholar

Lezak M.

et al. Neuropsychological Assessment. Oxford University Press , View in Article Google Scholar

Huys Q.J.

et al. Computational psychiatry as a bridge from neuroscience to clinical applications. Nat. Neurosci. 19 : 404-413 View in Article PubMed

Crossref

Google Scholar

Burgess P.W.

et al. The case for the development and use of ‘ecologically valid’ measures of executive function in experimental and clinical neuropsychology. J. Int. Neuropsychol. Soc. 12 : 194-209 View in Article Scopus (0)

PubMed

Crossref

Google Scholar

Shallice T.

Burgess P.W. Deficits in strategy application following frontal lobe damage in man. Brain. 114 : 727-741 View in Article PubMed

Crossref

Google Scholar

Murray E.A.

Mishkin M. Object recognition and location memory in monkeys with excitotoxic lesions of the amygdala and hippocampus. J. Neurosci. 18 : 6568-6582 View in Article PubMed

Crossref

Google Scholar

Hampton R.R.

et al. Method for making selective lesions of the hippocampus in macaque monkeys using NMDA and a longitudinal surgical approach. Hippocampus. 14 : 9-18 View in Article Scopus (0)

PubMed

Crossref

Google Scholar

Dicks D.

et al. Uncus and amiygdala lesions: effects on social behavior in the free-ranging rhesus monkey. Science. 165 : 69-71 View in Article PubMed

Crossref

Google Scholar

Rand D.

et al. Training multitasking in a virtual supermarket: a novel intervention after stroke. Am. J. Occup. Ther. 63 : 535-542 View in Article PubMed

Crossref

Google Scholar

Raspelli S.

et al. Validation of a neuro virtual reality-based version of the multiple errands test for the assessment of executive functions. Stud. Health Technol. Inform. 167 : 92-97 View in Article PubMed

Google Scholar

Cipresso P.

et al. Virtual multiple errands test (VMET): a virtual reality-based tool to detect early executive functions deficit in Parkinson's disease. Front. Behav. Neurosci. 8 : 405 View in Article Scopus (15)

PubMed

Crossref

Google Scholar

La Paglia F.

et al. Assessment of executive functions in patients with obsessive compulsive disorder by NeuroVR. Stud. Health Technol. Inform. 181 : 98-102 View in Article PubMed

Google Scholar

Dolins F.L.

et al. Technology advancing the study of animal cognition: using virtual reality to present virtually simulated environments to investigate nonhuman primate spatial cognition. Curr. Zool. 63 : 97-108 View in Article Scopus (1)

PubMed

Crossref

Google Scholar

Mitz A.R.

et al. Using pupil size and heart rate to infer affective states during behavioral neurophysiology and neuropsychology experiments. J. Neurosci. Methods. 279 : 1-12 View in Article Scopus (0)

PubMed

Crossref

Google Scholar

Fellows L.K. Group studies in experimental neuropsychology. in: Cooper H. APA Handbook of Research Methods in Psychology (Vol. 2). Research Designs: Quantitative, Qualitative, Neuropsychological, and Biological. American Psychological Association , : 647-659 View in Article Crossref

Google Scholar

Murray E.A.

Baxter M.G. Cognitive neuroscience and nonhuman primates: lesion studies. in: Senior C. Methods in Mind. MIT Press , : 43-69 View in Article Google Scholar

Bell A.H.

Bultitude J.H. Methods matter: a primer on permanent and reversible interference techniques in animals for investigators of human neuropsychology. Neuropsychologia. 115 : 211-219 View in Article Scopus (0)

PubMed

Crossref

Google Scholar

Li W.

et al. Different patterns of white matter changes after successful surgery of mesial temporal lobe epilepsy. Neuroimage Clin. : 101631 View in Article PubMed

Google Scholar

Grober E.

Sliwinski M. Development and validation of a model for estimating premorbid verbal intelligence in the elderly. J. Clin. Exp. Neuropsychol. 13 : 933-949 View in Article PubMed

Crossref

Google Scholar

Chatham C.H.

Badre D. How to test cognitive theory with fMRI. in: Spieler D. Schumacher E. New Methods in Cognitive Psychology. Routledge , ( ) View in Article Google Scholar

Gorgolewski K.J.

et al. The brain imaging data structure, a format for organizing and describing outputs of neuroimaging experiments. Sci. Data. 3 160044 View in Article PubMed

Crossref

Google Scholar