Spike history neural response model
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Date
2015-06
Journal Title
Journal ISSN
Volume Title
Publisher
Springer US
Abstract
There is a potential for improved efficacy of neural stimulation if stimulation levels can be modified dynamically based on the responses of neural tissue in real time. A neural model is developed that describes the response of neurons to electrical stimulation and that is suitable for feedback control neuroprosthetic stimulation. Experimental data from NZ white rabbit retinae is used with a data-driven technique to model neural dynamics. The linear-nonlinear approach is adapted to incorporate spike history and to predict the neural response of ganglion cells to electrical stimulation. To validate the fitness of the model, the penalty term is calculated based on the time difference between each simulated spike and the closest spike in time in the experimentally recorded train. The proposed model is able to robustly predict experimentally observed spike trains.
Description
Keywords
Retinal ganglion cells, Modeling, Simulations, Closed-loop stimulation strategy, Bionic eye
Citation
Kameneva, T., M. Abramian, D. Zarelli, D. Nesic, A. N. Burkitt, H. Meffin & D. B. Grayden (2015). Spike history neural response model. Journal of Computational Neuroscience 38(3): 463-481