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Activity of the multi-functional networked neurons depends on their intrinsic states and bears both cell- and network-defined features. Firing patterns of a neuron are conventionally attributed to spatial-temporal organization of inputs received from the network-mates via synapses, in vast majority dendritic. This attribution reflects widespread views of the within-cell job sharing, such that the main function of the dendrites is to receive signals and deliver them to the axo-somatic trigger zone, which actually generates the output pattern. However, these views are now revisited due to finding of active, non-linear properties of the dendritic membrane practically in neurons of practically all explored types. Like soma and axon, the dendrites with active membrane are able to generate self-maintained, propagating depolarizations and thus share intrinsic pattern-forming role with the trigger zone. Unlike the trigger zone, the dendrites have complex geometry, which is subject to developmental, activity-dependent, or neurodegenerative changes. Structural features of the arborization inevitably impact on electrical states and cooperative behavior of its constituting parts at different levels of organization, from sub-trees and branches to voltage- and ligand-gated ion channels populating the dendritic membrane. More than two decades of experimental and computer simulation studies have brought numerous phenomenological demonstrations of influence of the dendritic structure on neuronal firing patterns. A necessary step forward is to comprehend these findings and build a firm theoretical basis, including quantitative relationships between geometrical and electrical characteristics determining intrinsic activity of neurons. The articles in this eBook represent progress achieved in a broad circle of laboratories studied various aspects of structure and function of the neuronal dendrites. The authors elucidate new details of dendritic mechanisms underlying intrinsic activity patterns in neurons and highlight important questions that remain open in this important domain of cellular and computational neuroscience.
activity patterns --- functional compartmentalization --- Neurons --- synaptic action --- voltage-gated channels --- electrical states --- dendritic arborization
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Neuronal Plasticity. --- Neuroplasticity --- Plasticité neuronale --- Periodicals. --- Périodiques --- Plasticité neuronale. --- Neuroplasticity. --- Axon Pruning --- Axonal Pruning --- Dendrite Arborization --- Dendrite Pruning --- Dendritic Arborization --- Dendritic Pruning --- Dendritic Remodeling --- Neural Plasticity --- Neurite Pruning --- Neuronal Arborization --- Neuronal Network Remodeling --- Neuronal Pruning --- Neuronal Remodeling --- Synaptic Plasticity --- Synaptic Pruning --- Plasticity, Neuronal --- Arborization, Dendrite --- Arborization, Dendritic --- Arborization, Neuronal --- Arborizations, Dendrite --- Arborizations, Dendritic --- Arborizations, Neuronal --- Axon Prunings --- Axonal Prunings --- Dendrite Arborizations --- Dendrite Prunings --- Dendritic Arborizations --- Dendritic Prunings --- Dendritic Remodelings --- Network Remodeling, Neuronal --- Network Remodelings, Neuronal --- Neural Plasticities --- Neurite Prunings --- Neuronal Arborizations --- Neuronal Network Remodelings --- Neuronal Plasticities --- Neuronal Prunings --- Neuronal Remodelings --- Neuroplasticities --- Plasticities, Neural --- Plasticities, Neuronal --- Plasticities, Synaptic --- Plasticity, Neural --- Plasticity, Synaptic --- Pruning, Axon --- Pruning, Axonal --- Pruning, Dendrite --- Pruning, Dendritic --- Pruning, Neurite --- Pruning, Neuronal --- Pruning, Synaptic --- Prunings, Axon --- Prunings, Axonal --- Prunings, Dendrite --- Prunings, Dendritic --- Prunings, Neurite --- Prunings, Neuronal --- Prunings, Synaptic --- Remodeling, Dendritic --- Remodeling, Neuronal --- Remodeling, Neuronal Network --- Remodelings, Dendritic --- Remodelings, Neuronal --- Remodelings, Neuronal Network --- Synaptic Plasticities --- Synaptic Prunings --- Nervous system plasticity --- Neural adaptation --- Neural plasticity --- Neuronal adaptation --- Neuronal plasticity --- Plasticity, Nervous system --- Soft-wired nervous system --- Synaptic plasticity --- Neuronal Plasticity --- neural plasticity --- neuroplasticity --- Neurology --- Periodicals --- Cell Plasticity --- Adaptation (Physiology) --- Neurophysiology --- Developmental neurobiology --- Neurology. --- Health Sciences --- Physiology --- Psychiatry --- Neuropathology --- Brain Plasticity --- Brain Plasticities --- Plasticities, Brain --- Plasticity, Brain --- Neuroplasticitat. --- Revistes electròniques. --- Revistes digitals --- Revistes en línia --- Revistes on line --- Revistes per Internet --- Publicacions electròniques --- Revistes --- Adaptació neural --- Adaptació neuronal --- Plasticitat neural --- Plasticitat neuronal --- Plasticitat sinàptica --- Adaptació (Fisiologia) --- Neurofisiologia --- Neurobiologia del desenvolupament
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The book highlights important aspects of Molecular Psychiatry, including molecular mechanisms, animal models, biomarkers, advanced methods, drugs and antidepressant response, as well as genetics and epigenetics. Molecular mechanisms are a vital part of the search for the biological basis of psychiatric disorders, providing molecular hints that can later be tested as biomarkers or targets for drug development. Animal models represent a commonly used approach to aid in this bench-to-bed translation; the examples here are social defeat stress and the Roman High-Avoidance (RHA) and the Roman Low-Avoidance (RLA) rats. For biomarkers, psychiatric disorders pose a particular challenge due to the tissue specificity of many currently investigated biomarkers; i.e., not all blood-based measures directly represent changes in the brain. The Ebook includes five articles focused on the challenges of identifying clinically and biologically relevant biomarkers for psychiatric disorders. Scientific progress typically is fostered by the development of new methods. The application of machine learning methods for the proper analysis of Big Data and induced pluripotent stem cells are examples outlined in this Ebook. Furthermore, three articles are devoted to the understanding of the mechanisms of actions of existing drugs with the ultimate goal of identifying ways to predict treatment response in patients. Finally, three articles deepen the insight into the genetics and epigenetics of psychiatric disorders.
cardiovascular disease --- cell adhesion molecules --- immunology --- inflammation --- nervous system --- schizophrenia --- bipolar disorder --- major depressive disorder --- DNA methylation --- response variability --- antipsychotics --- drug design --- multi-target drugs --- polypharmacology --- multi-task learning --- machine learning --- biomarker discovery --- psychiatry --- serotonin --- 5-HT 4 receptor --- 5-HT4R --- depression --- mood disorder --- expression --- Alzheimer’s disease --- cognition --- Parkinson’s disease --- forced swimming --- Roman rat lines --- stress --- hippocampus --- BDNF --- trkB --- PSA-NCAM --- western blot --- immunohistochemistry --- general cognitive function --- intelligence --- GWAS --- genetic correlation --- childhood-onset schizophrenia (COS) --- induced pluripotent stem cell (iPSC) --- copy number variation (CNV) --- early neurodevelopment --- neuronal differentiation --- synapse --- dendritic arborization --- miRNAs --- stress physiology --- cytoskeleton --- actin dynamics --- DRR1 --- TU3A --- FAM107A --- acid sphingomyelinase --- alcohol dependence --- liver enzymes --- sphingolipid metabolism --- withdrawal --- Hsp90 --- GR --- stress response --- steroid hormones --- molecular chaperones --- psychiatric disease --- circadian rhythms --- FKBP51 --- FKBP52 --- CyP40 --- PP5 --- DISC1 --- neurodevelopment --- CRMP-2 --- proteomics --- antidepressant treatment --- HPA axis --- gene expression --- FKBP5 --- sleep --- sleep EEG --- biomarkers --- antidepressants --- cordance --- gender --- sex difference --- antidepressant --- rapid-acting --- Ketamine --- endocrinology --- (2R,6R)-Hydroxynorketamine --- electroconvulsive therapy --- basic-helix-loop-helix --- brain --- coactivator --- glucocorticoids --- mineralocorticoid receptor knockout --- transcription biology --- dopaminergic gene polymorphisms --- affective temperament --- obesity --- alpha-synuclein --- SNCA --- major depression --- Hamilton Scale of Depression --- chemokines --- neuroinflammation --- social defeat --- Immune response --- T cells --- susceptibility --- resilience --- Treg cells --- Th17 cells --- behavior --- PPARγ --- n/a --- Alzheimer's disease --- Parkinson's disease
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The traditional model of synapses as fixed structures has been replaced by a dynamic one in which synapses are constantly being deleted and replaced. This book, written by a leading researcher on the neurochemistry of schizophrenia, integrates material from neuroscience and cell biology to provide a comprehensive account of our current knowledge of the neurochemical basis of synaptic plasticity. The book presents the evidence for synaptic plasticity, an account of the dendritic spine and the glutamate synapse with a focus on redox mechanisms, and the biochemical basis of the Hebbian synapse. It discusses the role of endocytosis, special proteins, and local protein synthesis. Additional topics include volume transmission, arachidonic acid signaling, hormonal modulation, and psychological stress. Finally, the book considers pharmacological and clinical implications of current research, particularly with reference to schizophrenia and Alzheimer's disease.
Tissues --- Nervous System Physiological Processes --- Nervous System --- Nervous System Physiological Phenomena --- Anatomy --- Musculoskeletal and Neural Physiological Phenomena --- Phenomena and Processes --- Neuronal Plasticity --- Nerve Tissue --- Human Anatomy & Physiology --- Health & Biological Sciences --- Neuroscience --- Musculoskeletal and Neural Physiological Concepts --- Musculoskeletal and Neural Physiological Phenomenon --- Musculoskeletal and Neural Physiology --- Anatomies --- Nervous System Physiological Concepts --- Nervous System Physiological Phenomenon --- Nervous System Physiological Process --- Physiology, Nervous System --- Nervous System Physiologic Processes --- Nervous System Physiology --- System Physiology, Nervous --- Nervous Systems --- System, Nervous --- Systems, Nervous --- Tissue --- Nervous Tissue --- Nerve Tissues --- Nervous Tissues --- Tissue, Nerve --- Tissue, Nervous --- Tissues, Nerve --- Tissues, Nervous --- Axon Pruning --- Axonal Pruning --- Dendrite Arborization --- Dendrite Pruning --- Dendritic Arborization --- Dendritic Pruning --- Dendritic Remodeling --- Neural Plasticity --- Neurite Pruning --- Neuronal Arborization --- Neuronal Network Remodeling --- Neuronal Pruning --- Neuronal Remodeling --- Neuroplasticity --- Synaptic Plasticity --- Synaptic Pruning --- Plasticity, Neuronal --- Arborization, Dendrite --- Arborization, Dendritic --- Arborization, Neuronal --- Arborizations, Dendrite --- Arborizations, Dendritic --- Arborizations, Neuronal --- Axon Prunings --- Axonal Prunings --- Dendrite Arborizations --- Dendrite Prunings --- Dendritic Arborizations --- Dendritic Prunings --- Dendritic Remodelings --- Network Remodeling, Neuronal --- Network Remodelings, Neuronal --- Neural Plasticities --- Neurite Prunings --- Neuronal Arborizations --- Neuronal Network Remodelings --- Neuronal Plasticities --- Neuronal Prunings --- Neuronal Remodelings --- Neuroplasticities --- Plasticities, Neural --- Plasticities, Neuronal --- Plasticities, Synaptic --- Plasticity, Neural --- Plasticity, Synaptic --- Pruning, Axon --- Pruning, Axonal --- Pruning, Dendrite --- Pruning, Dendritic --- Pruning, Neurite --- Pruning, Neuronal --- Pruning, Synaptic --- Prunings, Axon --- Prunings, Axonal --- Prunings, Dendrite --- Prunings, Dendritic --- Prunings, Neurite --- Prunings, Neuronal --- Prunings, Synaptic --- Remodeling, Dendritic --- Remodeling, Neuronal --- Remodeling, Neuronal Network --- Remodelings, Dendritic --- Remodelings, Neuronal --- Remodelings, Neuronal Network --- Synaptic Plasticities --- Synaptic Prunings --- physiology --- Cell Plasticity --- Brain Plasticity --- Brain Plasticities --- Plasticities, Brain --- Plasticity, Brain --- Neuroplasticity. --- Neurochemistry. --- Biochemistry --- Neurosciences --- Nervous system plasticity --- Neural adaptation --- Neural plasticity --- Neuronal adaptation --- Neuronal plasticity --- Plasticity, Nervous system --- Soft-wired nervous system --- Synaptic plasticity --- Adaptation (Physiology) --- Neurophysiology --- Developmental neurobiology
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This book presents the neurobiology of orthodontics according to the most recently acquired knowledge on the interaction of the brain activity with the senses. In particular, it highlights the ability of orofacial sensory input to modulate and change the brain activity underlying functions of the stomatognathic system, such as chewing, biting, speech, and occlusal feedback. The approach adopted thereby represents a significant departure from the theory and practice of traditional orthodontics, in which malocclusions of the teeth have been interpreted as deriving from DNA coding errors. The described new conceptualization of the etiology and diagnosis of malocclusions has profound implications for orthodontic therapy, as is clearly explained. Orthodontic therapy in turn has significant effects on the brain, which are documented in a chapter devoted to neuroimaging methods. By opening up new and creative pathways in the world of orthodontics, this book will hopefully both educate and excite the practitioner. It is recommended reading for all orthodontists.
Malocclusion -- Treatment. --- Orthodontics. --- Teeth -- Pathophysiology. --- Neurobiology --- Malocclusion --- Neuronal Plasticity --- Orthodontics, Corrective --- Neurosciences --- Tooth Diseases --- Orthodontics --- Nervous System Physiological Processes --- Biology --- Stomatognathic Diseases --- Biological Science Disciplines --- Nervous System Physiological Phenomena --- Dentistry --- Natural Science Disciplines --- Diseases --- Musculoskeletal and Neural Physiological Phenomena --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Disciplines and Occupations --- Phenomena and Processes --- Dentistry - General --- Health & Biological Sciences --- Musculoskeletal and Neural Physiological Concepts --- Musculoskeletal and Neural Physiological Phenomenon --- Musculoskeletal and Neural Physiology --- Natural Sciences --- Physical Sciences --- Discipline, Natural Science --- Disciplines, Natural Science --- Natural Science --- Natural Science Discipline --- Physical Science --- Science, Natural --- Science, Physical --- Sciences, Natural --- Sciences, Physical --- Nervous System Physiological Concepts --- Nervous System Physiological Phenomenon --- Nervous System Physiological Process --- Physiology, Nervous System --- Nervous System Physiologic Processes --- Nervous System Physiology --- System Physiology, Nervous --- Nervous System --- Biologic Sciences --- Biological Science --- Science, Biological --- Sciences, Biological --- Biological Sciences --- Life Sciences --- Biologic Science --- Biological Science Discipline --- Discipline, Biological Science --- Disciplines, Biological Science --- Life Science --- Science Discipline, Biological --- Science Disciplines, Biological --- Science, Biologic --- Science, Life --- Sciences, Biologic --- Sciences, Life --- Mouth and Tooth Diseases --- Dental Diseases --- Dental Disease --- Disease, Dental --- Disease, Stomatognathic --- Diseases, Dental --- Diseases, Stomatognathic --- Stomatognathic Disease --- Disease, Tooth --- Diseases, Tooth --- Tooth Disease --- Neuroscience --- Corrective Orthodontics --- Axon Pruning --- Axonal Pruning --- Dendrite Arborization --- Dendrite Pruning --- Dendritic Arborization --- Dendritic Pruning --- Dendritic Remodeling --- Neural Plasticity --- Neurite Pruning --- Neuronal Arborization --- Neuronal Network Remodeling --- Neuronal Pruning --- Neuronal Remodeling --- Neuroplasticity --- Synaptic Plasticity --- Synaptic Pruning --- Plasticity, Neuronal --- Arborization, Dendrite --- Arborization, Dendritic --- Arborization, Neuronal --- Arborizations, Dendrite --- Arborizations, Dendritic --- Arborizations, Neuronal --- Axon Prunings --- Axonal Prunings --- Dendrite Arborizations --- Dendrite Prunings --- Dendritic Arborizations --- Dendritic Prunings --- Dendritic Remodelings --- Network Remodeling, Neuronal --- Network Remodelings, Neuronal --- Neural Plasticities --- Neurite Prunings --- Neuronal Arborizations --- Neuronal Network Remodelings --- Neuronal Plasticities --- Neuronal Prunings --- Neuronal Remodelings --- Neuroplasticities --- Plasticities, Neural --- Plasticities, Neuronal --- Plasticities, Synaptic --- Plasticity, Neural --- Plasticity, Synaptic --- Pruning, Axon --- Pruning, Axonal --- Pruning, Dendrite --- Pruning, Dendritic --- Pruning, Neurite --- Pruning, Neuronal --- Pruning, Synaptic --- Prunings, Axon --- Prunings, Axonal --- Prunings, Dendrite --- Prunings, Dendritic --- Prunings, Neurite --- Prunings, Neuronal --- Prunings, Synaptic --- Remodeling, Dendritic --- Remodeling, Neuronal --- Remodeling, Neuronal Network --- Remodelings, Dendritic --- Remodelings, Neuronal --- Remodelings, Neuronal Network --- Synaptic Plasticities --- Synaptic Prunings --- Cross Bite --- Angle's Classification --- Crossbite --- Tooth Crowding --- Angle Classification --- Angles Classification --- Bite, Cross --- Bites, Cross --- Classification, Angle's --- Cross Bites --- Crossbites --- Crowding, Tooth --- Crowdings, Tooth --- Malocclusions --- Neurobiology, Cellular --- Neurobiology, Molecular --- Cellular Neurobiology --- Molecular Neurobiology --- physiology --- Dentistry. --- Neurology. --- Otolaryngologic surgery. --- Head and Neck Surgery. --- Head --- Surgery. --- Medicine --- Nervous system --- Neuropsychiatry --- Dental surgery --- Odontology --- Surgery, Dental --- Oral medicine --- Teeth --- Neurology . --- Operative otolaryngology --- Otolaryngologic surgery --- Surgery, Operative --- Surgery, Orificial
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This book, a follow-up to the editors' Synaptic Plasticity (MIT Press,1993), reports on the most recent trends in the field. The levels of analysis range from molecular to cellular and network, the unifying theme being the nature of the relationships between synaptic plasticity and information processing and storage.Many neurons exhibit plasticity; that is, they can change structurally or functionally, often in a lasting way. Plasticity is evident in such diverse phenomena as learning and memory, brain development, drug tolerance, sprouting of axon terminals after a brain lesion, and various cellular forms of activity-dependent synaptic plasticity such as long-term potentiation and long-term depression. This book, a follow-up to the editors' Synaptic Plasticity (MIT Press, 1993), reports on the most recent trends in the field. The levels of analysis range from molecular to cellular and network, the unifying theme being the nature of the relationships between synaptic plasticity and information processing and storage.ContributorsYael Amitai, Michel Baudry, Theodore W. Berger, Pierre-Alain Buchs, A.K. Butler, Franck A. Chaillan, Gilbert A. Chauvet, Marie-Francoise Chesselet, Barry W. Connors, Taraneh Ghaffari, Jay R. Gibson, Ziv Gil, Michel Khrestchatisky, Dietmar Kuhl, Carole E. Landisman, Gilles Laurent, Jim-Shih Liaw, David J. Linden, Katrina MacLeod, Henry Markram, W.V. Morehouse, Dominique Muller, J.A. Napieralski, Santiago Rivera, Francois S. Roman, Bernard Soumireu-Mourat, Oswald Steward, Mark Stopfer, F.G. Szele, Richard F. Thompson, Nicolas Toni, Bernard Truchet, Misha Tsodyks, K. Uryu, Ascher Uziel, Christopher S. Wallace, Yun Wang, Michael Wehr, Paul F. Worley, Xiaping Xie
Synapses --- Synapse --- Cell Components --- Cell Component --- Cellular Structure --- Component, Cell --- Components, Cell --- Structure, Cellular --- Structures, Cellular --- Cell Membrane Structure --- Membrane Structure, Cell --- Membrane Structures, Cell --- Structure, Cell Membrane --- Structures, Cell Membrane --- Cell Junctions --- Cell Junction --- Intercellular Junction --- Junction, Cell --- Junction, Intercellular --- Junctions, Cell --- Junctions, Intercellular --- Nervous System Physiological Processes --- Intercellular Junctions --- Nervous System --- Anatomy --- Cell Membrane Structures --- Nervous System Physiological Phenomena --- Musculoskeletal and Neural Physiological Phenomena --- Cell Membrane --- Phenomena and Processes --- Cellular Structures --- Cells --- Neuronal Plasticity --- Human Anatomy & Physiology --- Health & Biological Sciences --- Neuroscience --- Synaptic Transmission --- Axon Pruning --- Axonal Pruning --- Dendrite Arborization --- Dendrite Pruning --- Dendritic Arborization --- Dendritic Pruning --- Dendritic Remodeling --- Neural Plasticity --- Neurite Pruning --- Neuronal Arborization --- Neuronal Network Remodeling --- Neuronal Pruning --- Neuronal Remodeling --- Neuroplasticity --- Synaptic Plasticity --- Synaptic Pruning --- Plasticity, Neuronal --- Arborization, Dendrite --- Arborization, Dendritic --- Arborization, Neuronal --- Arborizations, Dendrite --- Arborizations, Dendritic --- Arborizations, Neuronal --- Axon Prunings --- Axonal Prunings --- Dendrite Arborizations --- Dendrite Prunings --- Dendritic Arborizations --- Dendritic Prunings --- Dendritic Remodelings --- Network Remodeling, Neuronal --- Network Remodelings, Neuronal --- Neural Plasticities --- Neurite Prunings --- Neuronal Arborizations --- Neuronal Network Remodelings --- Neuronal Plasticities --- Neuronal Prunings --- Neuronal Remodelings --- Neuroplasticities --- Plasticities, Neural --- Plasticities, Neuronal --- Plasticities, Synaptic --- Plasticity, Neural --- Plasticity, Synaptic --- Pruning, Axon --- Pruning, Axonal --- Pruning, Dendrite --- Pruning, Dendritic --- Pruning, Neurite --- Pruning, Neuronal --- Pruning, Synaptic --- Prunings, Axon --- Prunings, Axonal --- Prunings, Dendrite --- Prunings, Dendritic --- Prunings, Neurite --- Prunings, Neuronal --- Prunings, Synaptic --- Remodeling, Dendritic --- Remodeling, Neuronal --- Remodeling, Neuronal Network --- Remodelings, Dendritic --- Remodelings, Neuronal --- Remodelings, Neuronal Network --- Synaptic Plasticities --- Synaptic Prunings --- Cell Plasticity --- Cell --- Cell Biology --- Cytoplasmic Membrane --- Plasma Membrane --- Cell Membranes --- Cytoplasmic Membranes --- Membrane, Cell --- Membrane, Cytoplasmic --- Membrane, Plasma --- Membranes, Cell --- Membranes, Cytoplasmic --- Membranes, Plasma --- Plasma Membranes --- Membranes --- Musculoskeletal and Neural Physiological Concepts --- Musculoskeletal and Neural Physiological Phenomenon --- Musculoskeletal and Neural Physiology --- Nervous System Physiological Concepts --- Nervous System Physiological Phenomenon --- Nervous System Physiological Process --- Physiology, Nervous System --- Nervous System Physiologic Processes --- Nervous System Physiology --- System Physiology, Nervous --- Anatomies --- Nervous Systems --- System, Nervous --- Systems, Nervous --- Cell Communication --- physiology --- Brain Plasticity --- Brain Plasticities --- Plasticities, Brain --- Plasticity, Brain --- Neuroplasticity. --- NEUROSCIENCE/General --- Nervous system plasticity --- Neural adaptation --- Neural plasticity --- Neuronal adaptation --- Neuronal plasticity --- Plasticity, Nervous system --- Soft-wired nervous system --- Synaptic plasticity --- Adaptation (Physiology) --- Neurophysiology --- Developmental neurobiology --- Cerveau --- Système nerveux --- Plasticité neuronale.
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Neurons in the brain communicate by short electrical pulses, the so-called action potentials or spikes. How can we understand the process of spike generation? How can we understand information transmission by neurons? What happens if thousands of neurons are coupled together in a seemingly random network? How does the network connectivity determine the activity patterns? And, vice versa, how does the spike activity influence the connectivity pattern? These questions are addressed in this 2002 introduction to spiking neurons aimed at those taking courses in computational neuroscience, theoretical biology, biophysics, or neural networks. The approach will suit students of physics, mathematics, or computer science; it will also be useful for biologists who are interested in mathematical modelling. The text is enhanced by many worked examples and illustrations. There are no mathematical prerequisites beyond what the audience would meet as undergraduates: more advanced techniques are introduced in an elementary, concrete fashion when needed.
Computational neuroscience. --- Neural networks (Neurobiology). --- Neurons. --- Neuroplasticity. --- Neurons --- Neuronal Plasticity --- Nerve Net --- Models, Neurological --- Nervous System Physiological Processes --- Models, Biological --- Nervous System --- Cells --- Models, Theoretical --- Anatomy --- Nervous System Physiological Phenomena --- Musculoskeletal and Neural Physiological Phenomena --- Investigative Techniques --- Phenomena and Processes --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Neuroscience --- Human Anatomy & Physiology --- Health & Biological Sciences --- Investigative Technics --- Investigative Technic --- Investigative Technique --- Technic, Investigative --- Technics, Investigative --- Technique, Investigative --- Techniques, Investigative --- Musculoskeletal and Neural Physiological Concepts --- Musculoskeletal and Neural Physiological Phenomenon --- Musculoskeletal and Neural Physiology --- Neural Networks (Anatomic) --- Nerve Nets --- Net, Nerve --- Nets, Nerve --- Network, Neural (Anatomic) --- Networks, Neural (Anatomic) --- Neural Network (Anatomic) --- Axon Pruning --- Axonal Pruning --- Dendrite Arborization --- Dendrite Pruning --- Dendritic Arborization --- Dendritic Pruning --- Dendritic Remodeling --- Neural Plasticity --- Neurite Pruning --- Neuronal Arborization --- Neuronal Network Remodeling --- Neuronal Pruning --- Neuronal Remodeling --- Neuroplasticity --- Synaptic Plasticity --- Synaptic Pruning --- Brain Plasticity --- Plasticity, Neuronal --- Arborization, Dendrite --- Arborization, Dendritic --- Arborization, Neuronal --- Arborizations, Dendrite --- Arborizations, Dendritic --- Arborizations, Neuronal --- Axon Prunings --- Axonal Prunings --- Brain Plasticities --- Dendrite Arborizations --- Dendrite Prunings --- Dendritic Arborizations --- Dendritic Prunings --- Dendritic Remodelings --- Network Remodeling, Neuronal --- Network Remodelings, Neuronal --- Neural Plasticities --- Neurite Prunings --- Neuronal Arborizations --- Neuronal Network Remodelings --- Neuronal Plasticities --- Neuronal Prunings --- Neuronal Remodelings --- Neuroplasticities --- Plasticities, Brain --- Plasticities, Neural --- Plasticities, Neuronal --- Plasticities, Synaptic --- Plasticity, Brain --- Plasticity, Neural --- Plasticity, Synaptic --- Pruning, Axon --- Pruning, Axonal --- Pruning, Dendrite --- Pruning, Dendritic --- Pruning, Neurite --- Pruning, Neuronal --- Pruning, Synaptic --- Prunings, Axon --- Prunings, Axonal --- Prunings, Dendrite --- Prunings, Dendritic --- Prunings, Neurite --- Prunings, Neuronal --- Prunings, Synaptic --- Remodeling, Dendritic --- Remodeling, Neuronal --- Remodeling, Neuronal Network --- Remodelings, Dendritic --- Remodelings, Neuronal --- Remodelings, Neuronal Network --- Synaptic Plasticities --- Synaptic Prunings --- Cell Plasticity --- Nervous System Physiological Concepts --- Nervous System Physiological Phenomenon --- Nervous System Physiological Process --- Physiology, Nervous System --- Nervous System Physiologic Processes --- Nervous System Physiology --- System Physiology, Nervous --- Anatomies --- Experimental Model --- Experimental Models --- Mathematical Model --- Model, Experimental --- Models (Theoretical) --- Models, Experimental --- Models, Theoretic --- Theoretical Study --- Mathematical Models --- Model (Theoretical) --- Model, Mathematical --- Model, Theoretical --- Models, Mathematical --- Studies, Theoretical --- Study, Theoretical --- Theoretical Model --- Theoretical Models --- Theoretical Studies --- Computer Simulation --- Systems Theory --- Cell --- Cell Biology --- Nervous Systems --- System, Nervous --- Systems, Nervous --- Biological Model --- Biological Models --- Model, Biological --- Models, Biologic --- Biologic Model --- Biologic Models --- Model, Biologic --- Model, Neurological --- Neurologic Model --- Neurological Model --- Neurological Models --- Neurologic Models --- Model, Neurologic --- Models, Neurologic --- Nerve Cells --- Cell, Nerve --- Cells, Nerve --- Nerve Cell --- Neuron --- physiology --- Computational neuroscience --- Neural networks (Neurobiology) --- 681.3*I51 --- Nervous system plasticity --- Neural adaptation --- Neural plasticity --- Neuronal adaptation --- Neuronal plasticity --- Plasticity, Nervous system --- Soft-wired nervous system --- Synaptic plasticity --- Adaptation (Physiology) --- Neurophysiology --- Developmental neurobiology --- Nerve cells --- Neurocytes --- Nervous system --- Biological neural networks --- Nets, Neural (Neurobiology) --- Networks, Neural (Neurobiology) --- Neural nets (Neurobiology) --- Cognitive neuroscience --- Neurobiology --- Neural circuitry --- Computational neurosciences --- Computational biology --- Neurosciences --- 681.3*I51 Models: deterministic; fuzzy set; geometric; statistical; structural (Patternrecognition) --- Models: deterministic; fuzzy set; geometric; statistical; structural (Patternrecognition)
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Neural networks (Neurobiology) --- Nervous system --- Neurons --- Neuronal Plasticity --- Models, Neurological --- Cells --- Models, Biological --- Nervous System --- Nervous System Physiological Processes --- Models, Theoretical --- Nervous System Physiological Phenomena --- Anatomy --- Musculoskeletal and Neural Physiological Phenomena --- Investigative Techniques --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Phenomena and Processes --- Neuroscience --- Human Anatomy & Physiology --- Health & Biological Sciences --- Investigative Technics --- Investigative Technic --- Investigative Technique --- Technic, Investigative --- Technics, Investigative --- Technique, Investigative --- Techniques, Investigative --- Musculoskeletal and Neural Physiological Concepts --- Musculoskeletal and Neural Physiological Phenomenon --- Musculoskeletal and Neural Physiology --- Anatomies --- Nervous System Physiological Concepts --- Nervous System Physiological Phenomenon --- Nervous System Physiological Process --- Physiology, Nervous System --- Nervous System Physiologic Processes --- Nervous System Physiology --- System Physiology, Nervous --- Experimental Model --- Experimental Models --- Mathematical Model --- Model, Experimental --- Models (Theoretical) --- Models, Experimental --- Models, Theoretic --- Theoretical Study --- Mathematical Models --- Model (Theoretical) --- Model, Mathematical --- Model, Theoretical --- Models, Mathematical --- Studies, Theoretical --- Study, Theoretical --- Theoretical Model --- Theoretical Models --- Theoretical Studies --- Computer Simulation --- Systems Theory --- Nervous Systems --- System, Nervous --- Systems, Nervous --- Biological Model --- Biological Models --- Model, Biological --- Models, Biologic --- Biologic Model --- Biologic Models --- Model, Biologic --- Cell --- Cell Biology --- Nerve Cells --- Cell, Nerve --- Cells, Nerve --- Nerve Cell --- Neuron --- Model, Neurological --- Neurologic Model --- Neurological Model --- Neurological Models --- Neurologic Models --- Model, Neurologic --- Models, Neurologic --- Axon Pruning --- Axonal Pruning --- Dendrite Arborization --- Dendrite Pruning --- Dendritic Arborization --- Dendritic Pruning --- Dendritic Remodeling --- Neural Plasticity --- Neurite Pruning --- Neuronal Arborization --- Neuronal Network Remodeling --- Neuronal Pruning --- Neuronal Remodeling --- Neuroplasticity --- Synaptic Plasticity --- Synaptic Pruning --- Brain Plasticity --- Plasticity, Neuronal --- Arborization, Dendrite --- Arborization, Dendritic --- Arborization, Neuronal --- Arborizations, Dendrite --- Arborizations, Dendritic --- Arborizations, Neuronal --- Axon Prunings --- Axonal Prunings --- Brain Plasticities --- Dendrite Arborizations --- Dendrite Prunings --- Dendritic Arborizations --- Dendritic Prunings --- Dendritic Remodelings --- Network Remodeling, Neuronal --- Network Remodelings, Neuronal --- Neural Plasticities --- Neurite Prunings --- Neuronal Arborizations --- Neuronal Network Remodelings --- Neuronal Plasticities --- Neuronal Prunings --- Neuronal Remodelings --- Neuroplasticities --- Plasticities, Brain --- Plasticities, Neural --- Plasticities, Neuronal --- Plasticities, Synaptic --- Plasticity, Brain --- Plasticity, Neural --- Plasticity, Synaptic --- Pruning, Axon --- Pruning, Axonal --- Pruning, Dendrite --- Pruning, Dendritic --- Pruning, Neurite --- Pruning, Neuronal --- Pruning, Synaptic --- Prunings, Axon --- Prunings, Axonal --- Prunings, Dendrite --- Prunings, Dendritic --- Prunings, Neurite --- Prunings, Neuronal --- Prunings, Synaptic --- Remodeling, Dendritic --- Remodeling, Neuronal --- Remodeling, Neuronal Network --- Remodelings, Dendritic --- Remodelings, Neuronal --- Remodelings, Neuronal Network --- Synaptic Plasticities --- Synaptic Prunings --- Cell Plasticity --- Nerve cells --- Neurocytes --- Organs (Anatomy) --- Neurosciences --- Biological neural networks --- Nets, Neural (Neurobiology) --- Networks, Neural (Neurobiology) --- Neural nets (Neurobiology) --- Cognitive neuroscience --- Neurobiology --- Neural circuitry --- Computer simulation. --- Computer simulation --- physiology
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