Dynamics of active neuronal dendrites and their functional significance

Author

Katayama, Norihiro ; Nakao, Mitsuyuki ; Yamamoto, Mitsuaki

Author_Institution

Lab. of Neurophysiol. & Bioinf., Tohoku Univ., Sendai, Japan

Volume

3

fYear

1998

fDate

21-23 Apr 1998

Firstpage

240

Abstract

Dynamical properties of brain neurons are more complex and diverse than the neuron models used in artificial neural network studies. Here a pyramidal neuron in hippocampus is modeled based on physiological findings, which is known to show calcium-dependent dynamics in dendrites. Responses of the model neuron to excitatory stimuli on the dendrites are studied under the varied somatic inhibitions. Computer simulations demonstrate synaptic control of spatiotemporal dynamics of the active dendrite system. Highly organized neuronal information processing might be possible by the interaction between the hierarchical dendrite system and the dendritic pattern of synapse distribution

Keywords

biocontrol; biomembrane transport; brain models; neural nets; neurophysiology; active neuronal dendrite dynamics; brain neurons; calcium-dependent dynamics; excitatory stimuli; functional significance; highly-organized neuronal information processing; hippocampus; neural network; pyramidal neuron; somatic inhibitions; spatiotemporal dynamics; synapse distribution; synaptic control; Artificial neural networks; Bioinformatics; Biomembranes; Brain modeling; Hippocampus; Information processing; Laboratories; Neurons; Neurophysiology; Spatiotemporal phenomena;

fLanguage

English

Publisher

ieee

Conference_Titel

Knowledge-Based Intelligent Electronic Systems, 1998. Proceedings KES '98. 1998 Second International Conference on

Conference_Location

Adelaide, SA

Print_ISBN

0-7803-4316-6

Type

conf

DOI

10.1109/KES.1998.725978

Filename

725978