03471nam 22006134a 450 991045071600332120210922111047.01-281-89920-89786611899202981-270-323-3(CKB)1000000000334239(EBL)296081(OCoLC)476063268(SSID)ssj0000116056(PQKBManifestationID)11131893(PQKBTitleCode)TC0000116056(PQKBWorkID)10033388(PQKB)10685101(MiAaPQ)EBC296081(WSP)00000802(Au-PeEL)EBL296081(CaPaEBR)ebr10174079(CaONFJC)MIL189920(EXLCZ)99100000000033423920050715d2005 uy 0engur|n|---|||||txtccrBursting[electronic resource] the genesis of rhythm in the nervous system /editors, Stephen Coombes, Paul C. BressloffHackensack, NJ World Scientific Pub.c20051 online resource (418 p.)Description based upon print version of record.981-256-506-X Includes bibliographical references and index.PREFACE; CONTENTS; PART I: BURSTING AT THE SINGLE CELL LEVEL; CHAPTER 1 THE DEVELOPMENT OF THE HINDMARSH-ROSE MODEL FOR BURSTING; CHAPTER 2 NEGATIVE CALCIUM FEEDBACK: THE ROAD FROM CHAY-KEIZER; CHAPTER 3 AUTOREGULATION OF BURSTING OF AVP NEURONS OF THE RAT HYPOTHALAMUS; CHAPTER 4 BIFURCATIONS IN THE FAST DYNAMICS OF NEURONS: IMPLICATIONS FOR BURSTING; CHAPTER 5 BURSTING IN 2-COMPARTMENT NEURONS: A CASE STUDY OF THE PINSKY-RINZEL MODEL; CHAPTER 6 GHOSTBURSTING: THE ROLE OF ACTIVE DENDRITES IN ELECTROSENSORY PROCESSING; PART 11: BURSTING AT THE NETWORK LEVELCHAPTER 7 ANALYSIS OF CIRCUITS CONTAINING BURSTING NEURONS USING PHASE RESETTING CURVESCHAPTER 8 BURSTING IN COUPLED CELL SYSTEMS; CHAPTER 9 MODULATORY EFFECTS OF COUPLING ON BURSTING MAPS; CHAPTER 10 BEYOND SYNCHRONIZATION: MODULATORY AND BURSTING EMERGENT EFFECTS OF COUPLING IN SQUARE-WAVE; CHAPTER 11 BURSTING IN EXCITATORY NEURAL NETWORKS; CHAPTER 12 OSCILLATORY BURSTING MECHANISMS IN RESPIRATORY PACEMAKER NEURONS AND NETWORKS; CHAPTER 13 GEOMETRIC ANALYSIS OF BURSTING NETWORKS; CHAPTER 14 ELLIPTIC BURSTERS, DEPOLARIZATION BLOCK, AND WAVES; INDEXNeurons in the brain communicate with each other by transmitting sequences of electrical spikes or action potentials. One of the major challenges in neuroscience is to understand the basic physiological mechanisms underlying the complex spatiotemporal patterns of spiking activity observed during normal brain functioning, and to determine the origins of pathological dynamical states such as epileptic seizures and Parkinsonian tremors. A second major challenge is to understand how the patterns of spiking activity provide a substrate for the encoding and transmission of information, that is, howNeural transmissionSensory neuronsElectronic books.Neural transmission.Sensory neurons.612.8/1Coombes Stephen1045281Bressloff Paul C721730MiAaPQMiAaPQMiAaPQBOOK9910450716003321Bursting2471459UNINA