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Literature DB >> 7252375

Bifurcation and resonance in a model for bursting nerve cells.

Abstract

In this paper we consider a model for the phenomenon of bursting in nerve cells. Experimental evidence indicates that this phenomenon is due to the interaction of multiple conductances with very different kinetics, and the model incorporates this evidence. As a parameter is varied the model undergoes a transition between two oscillatory waveforms; a corresponding transition is observed experimentally. After establishing the periodicity of the subcritical oscillatory solution, the nature of the transition is studied. It is found to be a resonance bifurcation, with the solution branching at the critical point to another periodic solution of the same period. Using this result a comparison is made between the model and experimental observations. The model is found to predict and allow an interpretation of these observations.

Mesh：

Year: 1981 PMID： 7252375 DOI： 10.1007/bf00275821

Source DB: PubMed Journal: J Math Biol ISSN： 0303-6812 Impact factor: 2.259

11 in total

1. The stomatogastric nervous system: structure and function of a small neural network.

Authors: A I Selverston; D F Russell; J P Miller
Journal: Prog Neurobiol Date: 1976 Impact factor: 11.685

2. A quantitative description of membrane current and its application to conduction and excitation in nerve.

Authors: A L HODGKIN; A F HUXLEY
Journal: J Physiol Date: 1952-08 Impact factor: 5.182

3. Characteristics of pacemaker oscillations in Aplysia neurons.

Authors: P A Mathieu; F A Roberge
Journal: Can J Physiol Pharmacol Date: 1971-09 Impact factor: 2.273

4. Mathematical description of a bursting pacemaker neuron by a modification of the Hodgkin-Huxley equations.

Authors: R E Plant; M Kim
Journal: Biophys J Date: 1976-03 Impact factor: 4.033

5. The sensitivity of Helix aspersa neurones to injected calcium ions.

Authors: R W Meech
Journal: J Physiol Date: 1974-03 Impact factor: 5.182

6. Cyclic variation of potassium conductance in a burst-generating neurone in Aplysia.

Authors: D Junge; C L Stephens
Journal: J Physiol Date: 1973-11 Impact factor: 5.182

7. Hippocampal pyramidal cells: significance of dendritic ionic conductances for neuronal function and epileptogenesis.

Authors: R D Traub; R Llinás
Journal: J Neurophysiol Date: 1979-03 Impact factor: 2.714

8. Changes in the intracellular concentration of free calcium ions in a pace-maker neurone, measured with the metallochromic indicator dye arsenazo III.

Authors: A L Gorman; M V Thomas
Journal: J Physiol Date: 1978-02 Impact factor: 5.182

9. The effects of calcium++ on bursting neurons. A modeling study.

Authors: R E Plant
Journal: Biophys J Date: 1978-03 Impact factor: 4.033

10. Three pharmacologically distinct potassium channels in molluscan neurones.

Authors: S H Thompson
Journal: J Physiol Date: 1977-02 Impact factor: 5.182

19 in total

1. Routes to chaos in a model of a bursting neuron.

Authors: C C Canavier; J W Clark; J H Byrne
Journal: Biophys J Date: 1990-06 Impact factor: 4.033

2. On the dynamics of bursting systems.

Authors: J C Alexander; D Y Cai
Journal: J Math Biol Date: 1991 Impact factor: 2.259

3. On the relationship between the number of negative slope regions in the voltage-current curve of the Hodgkin-Huxley model and its parameter values.

Authors: Y A Bedrov; G N Akoev; O E Dick
Journal: Biol Cybern Date: 1995-07 Impact factor: 2.086

10. Analysis of the effects of modulatory agents on a modeled bursting neuron: dynamic interactions between voltage and calcium dependent systems.

Authors: R J Butera; J W Clark; C C Canavier; D A Baxter; J H Byrne
Journal: J Comput Neurosci Date: 1995-03 Impact factor: 1.621