Activity-dependent neural network development
- 1 August 1994
- journal article
- review article
- Published by Taylor & Francis in Network: Computation in Neural Systems
- Vol. 5 (3) , 401-423
- https://doi.org/10.1088/0954-898x/5/3/006
Abstract
Electrical activity plays a pivotal role in the development of neutrons into functional neural networks. Besides changes in synaptic strength, many other processes are activity-dependent. They influence neuronal function and connectivity, on multiple time scales as well as on multiple levels of specificity, both during development and in adulthood. A number of these processes are reviewed here, together with some simulation models. Their relevance for the current thinking about neural networks is discussed.This publication has 119 references indexed in Scilit:
- Toward generating neural network structures for function approximationNeural Networks, 1994
- Structural adaptation of parsimonious higher-order neural classifiersNeural Networks, 1994
- Activity-dependent Outgrowth of Neurons and Overshoot Phenomena in Developing Neural NetworksJournal of Theoretical Biology, 1994
- Growth Conditions Differentially Regulate the Expression of α‐Amino‐3‐Hydroxy‐5‐Methylisoxazole‐4‐Propionate (AMPA) Receptor Subunits in Cultured NeuronsJournal of Neurochemistry, 1993
- Analysis of Neuron Models with Dynamically Regulated ConductancesNeural Computation, 1993
- A model for outgrowth of branching neuritesJournal of Theoretical Biology, 1992
- Spontaneous firing as an epigenetic factor in brain development — physiological consequences of chronic tetrodotoxin and picrotoxin exposure on cultured rat neocortex neuronsDevelopmental Brain Research, 1992
- Size and connectivity as emergent properties of a developing immune networkJournal of Theoretical Biology, 1991
- Rapid changes in the distribution of GAP-43 correlate with the expression of neuronal polarity during normal development and under experimental conditions.The Journal of cell biology, 1990
- Influence of the extracellular potassium environment on neurite growth in sensory neurons, spinal cord neurons and sympathetic neuronsDevelopmental Brain Research, 1986