Analysis of the signals generated by networks of neurons coupled to planar arrays of microtransducers in simulated experiments
Identifieur interne : 001B98 ( Istex/Curation ); précédent : 001B97; suivant : 001B99Analysis of the signals generated by networks of neurons coupled to planar arrays of microtransducers in simulated experiments
Auteurs : M. Bove [Italie] ; S. Martinoia [Italie] ; G. Verreschi [Italie] ; M. Giugliano [Italie] ; M. Grattarola [Italie]Source :
- Biosensors and Bioelectronics [ 0956-5663 ] ; 1998.
Abstract
Planar microelectrode arrays can be used to characterize the dynamics of networks of neurons reconstituted in vitro. In this paper simulations related to experiments of the electrical activity recording by means of planar arrays of microtransducers coupled to networks of neurons are described. First a detailed model of single and synaptically connected neurons is given, appropriate to computer simulate the action potentials of neuronal populations. Then `realistic' signals are generated. These signals are intended to reproduce, both in shape and intensity, those recorded by a microelectrode array. Typical experimental conditions are considered, and a detailed analysis given, of the bioelectronic coupling and of its influence on the shape of the recorded signals. Finally, simulated experiments dealing with dorsal root ganglia neurons are described and analysed in comparison with experimental results reported in the literature and obtained in our own laboratory. The effectiveness of the planar microelectrode technique is briefly discussed.
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DOI: 10.1016/S0956-5663(98)00015-3
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ISTEX:132B6C5605C8F6DCC23CB70ECC0C8D42AB011D41Le document en format XML
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<front><div type="abstract" xml:lang="en">Planar microelectrode arrays can be used to characterize the dynamics of networks of neurons reconstituted in vitro. In this paper simulations related to experiments of the electrical activity recording by means of planar arrays of microtransducers coupled to networks of neurons are described. First a detailed model of single and synaptically connected neurons is given, appropriate to computer simulate the action potentials of neuronal populations. Then `realistic' signals are generated. These signals are intended to reproduce, both in shape and intensity, those recorded by a microelectrode array. Typical experimental conditions are considered, and a detailed analysis given, of the bioelectronic coupling and of its influence on the shape of the recorded signals. Finally, simulated experiments dealing with dorsal root ganglia neurons are described and analysed in comparison with experimental results reported in the literature and obtained in our own laboratory. The effectiveness of the planar microelectrode technique is briefly discussed.</div>
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