Neuronal and cellular oscillators
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Neuronal and cellular oscillators

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Published by Marcel Dekker in New York .
Written in English


  • Neurophysiology,
  • Biological rhythms,
  • Neurons,
  • Heart cells -- Electric properties,
  • Neural circuitry

Book details:

Edition Notes

Includes bibliographies and index.

Statementedited by Jon W. Jacklet.
SeriesCellular clocks ;, v. 2
ContributionsJacklet, Jon W., 1935-
LC ClassificationsQP363 .N4775 1989
The Physical Object
Paginationxiii, 553 p. :
Number of Pages553
ID Numbers
Open LibraryOL2055233M
ISBN 100824780302
LC Control Number88033508

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Neural oscillations, or brainwaves, are rhythmic or repetitive patterns of neural activity in the central nervous system. Neural tissue can generate oscillatory activity in many ways, driven either by mechanisms within individual neurons or by interactions between neurons. In individual neurons, oscillations can appear either as oscillations in membrane potential or as rhythmic patterns of. We review numerous recent results in which geometric singular perturbation methods have been used to analyze the population rhythms of neuronal networks. The neurons are modeled as relaxation oscillators and the coupling between neurons is modeled in a way Author: D. Terman. Books and Book Chapters Passive Properties Aidley DJ (). The Physiology of Excitable Cells (Cambridge University Press, (ed.) Neuronal and cellular oscillators (Marcel Dekker, New York), pp. Brown RH, Cannon SC, Rowland LP (). Diseases of the nerve and motor unit. In: Kandel ER, Schwartz JH, Jessell TM, Siegelbaum SA File Size: KB. Cellular neuronal oscillators. Article. Jan ; J. Jacklet; View. and what factors regulate how many and which neurons fire under different conditions form the central theme of this book Author: David Terman.

This is complicated by our incomplete knowledge of neural structures and functions, at the cellular and population levels. The first step towards enhanced appreciation of the value of neural modeling and neural networks is to be aware of what has been achieved in this multidisciplinary field of research. This book sets out to create such awareness. "Gyorgy Buzsaki's Rhythms of the Brain is an excellent compendium on the rapidly expanding research into the mechanisms and functions of neuronal synchronization. Buzsaki presents such synchronization as a binding glue that integrates many levels of neuroscientific investigation with one another and with neighboring disciplines Buzsaki manages to elegantly integrate insights from physics Cited by: Pinsker H.M. and Ayers J. (): “Neuronal Oscillators”. Chapter 9 In “ Neurobiology ”, edited by W.D. Willis, Churchill Livingstone Inc. Google Scholar Pinsker H.M. and Kandel (): “Short-term modulation of endogenous bursting rhythms by monosynaptic inhibition in Aplysia neurons: effects of Author: Carme Torras i Genís. Physics / - The biophysical basis of neurons and networks (Truth is much too complicated to allow anything but approximations.*) Course overview. This course explores the cellular and synaptic basis for neuronal control of animal behavior. The emphasis in on analytically tractable models of network dynamics and neuronal computation.

Theta oscillations are believed to play an important role in the coordination of neuronal firing in the entorhinal (EC)-hippocampal system but the underlying mechanisms are not known. We simultaneously recorded from neurons in multiple regions of the EC-hippocampal loop and examined their temporal relationships. Theta-coordinated synchronous spiking of EC neuronal populations predicted the Cited by: () Delays and weakly coupled neuronal oscillators. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences , () Canards, Clusters, and Synchronization in a Weakly Coupled Interneuron by: Book is in Like New / near Mint Condition. Will include dust jacket if it originally came with one. Text will be unmarked and pages crisp. Satisfaction is guaranteed with every order. CELLULAR AND MOLECULAR BASES OF BIOLOGICAL CLOCKS: MODELS AND MECHANISMS FOR CIRCADIAN TIMEKEEPING By Leland N. Jr. Edmunds - Hardcover **Mint Condition**. The success of the human genome project has ushered in a new era that emphasizes a systemic or integrated approach to ascertain the cellular behavior arising from complex cellular networks. Scientists are now embarking on a quest to elucidate the organization and control of cellular networks that underlie the phenotypic behavior of a cell.