Listing 1 - 8 of 8 |
Sort by
|
Choose an application
Human anatomy --- Human physiology --- Brain Mapping --- Brain mapping --- Cartographie cérébrale --- Periodicals. --- Périodiques --- Brain mapping. --- Engineering --- Health Sciences --- Information Technology --- Biomedical Engineering --- Clinical Medicine --- Diagnostics --- Medical Informatics --- Neurology --- Radiology --- Healthcare Database & Medical Informatics --- positron emission tomography --- magnetic resonance imaging --- single-photon emission tomography --- non-invasive brain imaging --- neural systems modelling --- neuroanatomy --- Brain Electrical Activity Mapping --- Functional Cerebral Localization --- Topographic Brain Mapping --- Brain Mapping, Topographic --- Functional Cerebral Localizations --- Mapping, Brain --- Mapping, Topographic Brain --- Stereotaxic Techniques --- Connectome mapping --- Mapping of the brain --- Topographic brain mapping --- Brain --- Localization of functions --- Brain Mapping.
Choose an application
A large part of the contemporary literature involves functional neuroimaging. Yet few readers are sufficiently familiar with the various imaging methods, their capabilities and limitations, to appraise it correctly. To fulfill that need is the purpose of this Handbook, which consists of an accessible description of the methods and their clinical and research applications. The Handbook begins with an overview of basic concepts of functional brain imaging, magnetoencephalography and the use of magnetic source imaging (MSI), positron emission tomography (PET), diffusion tensor imaging (DTI), and transcranial magnetic stimulation (TMS). The authors then discuss the various research applications of imaging, such as white matter connectivity; the function of the default mode network; the possibility and the utility of imaging of consciousness; the search for mnemonic traces of concepts the mechanisms of the encoding, consolidation, and retrieval of memories; executive functions and their neuroanatomical mechanisms; voluntary actions, human will and decision-making; motor cognition; language and the mechanisms of affective states and pain. The final chapter discusses the uses of functional neuroimaging in the presurgical mapping of the brain.
Brain --- Neuropsychology --- Neurophysiology --- Psychophysiology --- Cerebrum --- Mind --- Central nervous system --- Head --- Imaging --- E-books --- Brain mapping. --- Functional Neuroimaging --- Brain Mapping. --- Brain Electrical Activity Mapping --- Functional Cerebral Localization --- Topographic Brain Mapping --- Brain Mapping, Topographic --- Functional Cerebral Localizations --- Mapping, Brain --- Mapping, Topographic Brain --- Connectome mapping --- Mapping of the brain --- Topographic brain mapping --- Brain mapping --- Cognitive neuroscience --- Magnetic resonance imaging --- Brain Mapping --- Clinical magnetic resonance imaging --- Diagnostic magnetic resonance imaging --- Functional magnetic resonance imaging --- Imaging, Magnetic resonance --- Medical magnetic resonance imaging --- MR imaging --- MRI (Magnetic resonance imaging) --- NMR imaging --- Nuclear magnetic resonance --- Nuclear magnetic resonance imaging --- Cognitive neuropsychology --- methods --- physiology --- Diagnostic use --- Stereotaxic Techniques --- Cross-sectional imaging --- Diagnostic imaging --- Cognitive science --- Localization of functions --- Cognitive neuroscience. --- Magnetic resonance imaging. --- Physiology. --- Methods. --- Functional Neuroimaging - methods --- Brain - physiology
Choose an application
Cognitive neuroscientists increasingly claim that brain images generated by new brain imaging technologies reflect, correlate, or represent cognitive processes. This book warns against these claims, arguing that, despite its utility in anatomic and physiological applications, brain imaging research has not provided consistent evidence for correlation with cognition. It bases this argument on a review of the empirical literature, pointing to variability in data not only among subjects within individual experiments but also in the meta-analytical approach that pools data from different experiments.
Cognitive neuroscience. --- Cognitive neuropsychology --- Cognitive science --- Neuropsychology --- Meta-analysis. --- Brain --- Brain mapping. --- Brain mapping --- Cognition --- Physiology. --- Physiology --- COGNITIVE SCIENCES/Psychology/Cognitive Psychology --- NEUROSCIENCE/General --- COGNITIVE SCIENCES/General --- Psychology --- Connectome mapping --- Mapping of the brain --- Topographic brain mapping --- Cerebrum --- Mind --- Central nervous system --- Head --- Medicine --- Psychometrics --- Social sciences --- Localization of functions --- Research --- Evaluation --- Statistical methods --- 159.91 --- 159.95*1 --- 159.95*1 Cognitieve psychologie --- Cognitieve psychologie --- 159.91 Psychofysiologie. Neuropsychologie. Psychomotoriek. Psychomotorische therapie --- Psychofysiologie. Neuropsychologie. Psychomotoriek. Psychomotorische therapie
Choose an application
Cognitive psychology --- Physiology of nerves and sense organs --- Cognitive neuroscience --- Brain --- Thought and thinking --- Mental Processes --- Brain Mapping --- Neurosciences --- physiology --- history --- Brain - physiology --- Neurosciences - history
Choose an application
Quatrième de couverture : "A l’ère des neurosciences et de leur numérisation massive, la détermination des structures fines du cerveau et la compréhension de son fonctionnement sont devenues des enjeux de premier ordre. Dans ce contexte, l’IRM s’est imposée comme une technique reine. Grâce à elle, le cerveau s’offre au regard, dévoilant arcanes et tréfonds scintillants… La visualisation des processus cognitifs via des images spectaculaires, qui fascinent les chercheurs autant que le public, engendre une nouvelle relation à notre corps pensant et agissant. Mais que sont ces objets numériques d’un nouveau genre ? Comment ces images sont-elles acquises, sur quelles bases techniques et par quels protocoles ? Et quel projet anime ceux qui établissent des atlas de référence, dessinant un cerveau pixelisé dans lequel tous les autres doivent se fondre ? Pour le savoir, Giulia Anichini s’est immergée plusieurs années durant dans deux centres de recherche en imagerie où elle a pu observer les pratiques et les savoir-faire, décrire les implicites. Partant des lieux et des acteurs de ces pratiques, de leur environnement matériel, elle décrit les méthodes d’acquisition des images, leurs transformations successives et les bricolages informatiques mis en œuvre pour sauver des résultats pas toujours probants. Elle montre comment les banques de données saturées d’images obtenues selon des choix techniques et théoriques hétérogènes constituent désormais une extension inéluctable du laboratoire de neuro-imagerie, où s’élabore une science data driven prétendument affranchie de la théorie. L’accumulation de ces résultats à la fiabilité pas toujours assurée n’est pas neutre, notamment par ses implications dans le champ des neurosciences sociales, quand les émotions dites morales tracent leur géographie dans le « cortex numérique ». Entre enquête ethnologique, sociologie des sciences et analyse épistémologique, Giulia Anichini propose ici une vision inédite des neurosciences, de leurs présupposés, leurs conjectures et leurs ambitions."
Brain --- Magnetic Resonance Imaging --- Neuroimaging --- Neurosciences, Cognitive --- diagnostic imaging --- methods --- Brain mapping --- Cognitive neuroscience --- Magnetic resonance imaging --- Methodology. --- Brain - diagnostic imaging --- Neuroimaging - methods --- Neurosciences, Cognitive - methods
Choose an application
Nervous System Diseases --- Diagnostic Imaging --- diagnosis --- Diagnostic Imaging. --- Brain mapping --- Neuropsychiatry --- Brain --- -Cerebrum --- Mind --- Central nervous system --- Head --- Behavioral neurology --- Biological psychiatry --- Neurology --- Connectome mapping --- Mapping of the brain --- Topographic brain mapping --- Imaging, Diagnostic --- Imaging, Medical --- Medical Imaging --- Image Processing, Computer-Assisted --- diagnosis. --- Imaging --- Localization of functions --- Radiologic and Imaging Nursing --- -diagnosis.
Choose an application
A comprehensive and unified account of the neural computations underlying speech production, offering a theoretical framework bridging the behavioral and the neurological literatures.In this book, Frank Guenther offers a comprehensive, unified account of the neural computations underlying speech production, with an emphasis on speech motor control rather than linguistic content. Guenther focuses on the brain mechanisms responsible for commanding the musculature of the vocal tract to produce articulations that result in an acoustic signal conveying a desired string of syllables. Guenther provides neuroanatomical and neurophysiological descriptions of the primary brain structures involved in speech production, looking particularly at the cerebral cortex and its interactions with the cerebellum and basal ganglia, using basic concepts of control theory (accompanied by nontechnical explanations) to explore the computations performed by these brain regions.Guenther offers a detailed theoretical framework to account for a broad range of both behavioral and neurological data on the production of speech. He discusses such topics as the goals of the neural controller of speech; neural mechanisms involved in producing both short and long utterances; and disorders of the speech system, including apraxia of speech and stuttering. Offering a bridge between the neurological and behavioral literatures on speech production, the book will be a valuable resource for researchers in both fields.
Psycholinguistics --- Phonetics --- Physiology: movement organs, voice and skin --- Speech --- Brain --- Speech Disorders --- Vocal Cords --- Models, Neurological --- physiology --- Speech Disorders. --- Models, Neurological. --- physiology. --- Speech - physiology --- Brain - physiology --- Vocal Cords - physiology --- Language disorders. --- Vocal cords. --- Brain mapping. --- Physiological aspects. --- Physiology. --- NEUROSCIENCE/General --- LINGUISTICS & LANGUAGE/General
Choose an application
Ce livre s’articule autour de l’idée que les oscillations neuronales du cerveau forment le fondement du mouvement et de la pensée. Il démontre que la majorité des fonctions cérébrales peut être pilotée à partir d’une gamme étendue d’oscillations pouvant produire des états mentaux différents allant de l’éveil au sommeil, au rêve, au passage de la sensation à l’action, à la réflexion, à l’émotion et à la créativité. Différentes expériences fondamentales en neuroscience sont revisitées afin d’illustrer le lien indissociable entre les oscillations neuronales, le mouvement et la pensée.
Neurons --- Brain waves --- Neural transmission. --- Neurosciences. --- Neurosciences --- Physiology --- Neurophysiology --- Neurophysiologie --- Cerebral Cortex --- Cerebellar Cortex --- Neuronal Plasticity --- Signal Transduction --- Eye Movements --- Brain --- Motor Neurons --- Brain Mapping --- Sleep --- Evoked Potentials --- Circadien Rhythm --- Consciousness --- Cortex cérébral. --- Neurophysiologie. --- Plasticité neuronale. --- Oeil --- Neurones moteurs. --- Localisation cérébrale. --- Sommeil. --- Potentiels évoqués (électrophysiologie) --- Conscience. --- Rythmes circadiens. --- Mouvements.
Listing 1 - 8 of 8 |
Sort by
|