A neurohybrid memristive system for adaptive stimulation of hippocampus

We propose a hybrid memristve neuromorphic system for stimulating hippocampus regions bypassing damaged areas. Synaptic plasticity properties of the system allow close-loop adaptive control of neural dynamics. We implement the simplest version of this system which consists of two neuron-like generat...

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Published in:Chaos, solitons and fractals Vol. 146; p. 110804
Main Authors: Gerasimova, S.A., Lebedeva, A.V., Fedulina, A., Koryazhkina, M., Belov, A.I., Mishchenko, M.A., Matveeva, M., Guseinov, D., Mikhaylov, A.N., Kazantsev, V.B., Pisarchik, A.N.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.05.2021
Subjects:
Adaptive stimulation technology
Hippocampal slice
Memristive device
Neuromorphic system
Neuron
Neuronal synaptic plasticity
Neuromorphic system
Hippocampal slice
Neuron
Adaptive stimulation technology
Neuronal synaptic plasticity
Memristive device
ISSN:0960-0779, 1873-2887
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Abstract We propose a hybrid memristve neuromorphic system for stimulating hippocampus regions bypassing damaged areas. Synaptic plasticity properties of the system allow close-loop adaptive control of neural dynamics. We implement the simplest version of this system which consists of two neuron-like generators coupled by a memristive device, and two fiber-optic channels to transmit signals from the generators directly to living cells to stimulate hippocampus regions. The adaptive stimulation nature of the neural cells is provided by a stochastic response of the self-learning memristive device to the signal of the neuron-like generator. A biological model of impaired functioning of the perforating pathway in the rat hippocampus is implemented by damaging the CA3 region, on the base of the electrophysiological signal changes in normal and pathological conditions. The proposed adaptive stimulation technology demonstrates the possibility of restoring the functionality of the perforating pathway by introducing the neuromorphic system into the hippocampus to replace lost areas.
AbstractList We propose a hybrid memristve neuromorphic system for stimulating hippocampus regions bypassing damaged areas. Synaptic plasticity properties of the system allow close-loop adaptive control of neural dynamics. We implement the simplest version of this system which consists of two neuron-like generators coupled by a memristive device, and two fiber-optic channels to transmit signals from the generators directly to living cells to stimulate hippocampus regions. The adaptive stimulation nature of the neural cells is provided by a stochastic response of the self-learning memristive device to the signal of the neuron-like generator. A biological model of impaired functioning of the perforating pathway in the rat hippocampus is implemented by damaging the CA3 region, on the base of the electrophysiological signal changes in normal and pathological conditions. The proposed adaptive stimulation technology demonstrates the possibility of restoring the functionality of the perforating pathway by introducing the neuromorphic system into the hippocampus to replace lost areas.
ArticleNumber 110804
Author Belov, A.I.
Mishchenko, M.A.
Lebedeva, A.V.
Fedulina, A.
Guseinov, D.
Koryazhkina, M.
Mikhaylov, A.N.
Matveeva, M.
Kazantsev, V.B.
Gerasimova, S.A.
Pisarchik, A.N.
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  givenname: A.V.
  surname: Lebedeva
  fullname: Lebedeva, A.V.
  email: lebedeva@neuro.nnov.ru
  organization: Lobachevsky State University of Nizhny Novgorod, Nizhny Novgorod, Russia
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  surname: Fedulina
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  surname: Belov
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  surname: Mishchenko
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  surname: Guseinov
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  organization: Lobachevsky State University of Nizhny Novgorod, Nizhny Novgorod, Russia
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  orcidid: 0000-0001-5505-7352
  surname: Mikhaylov
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  surname: Kazantsev
  fullname: Kazantsev, V.B.
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  surname: Pisarchik
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  email: alexander.pisarchik@ctb.upm.es
  organization: Lobachevsky State University of Nizhny Novgorod, Nizhny Novgorod, Russia
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Keywords Neuromorphic system
Hippocampal slice
Neuron
Adaptive stimulation technology
Neuronal synaptic plasticity
Memristive device
Language English
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Snippet We propose a hybrid memristve neuromorphic system for stimulating hippocampus regions bypassing damaged areas. Synaptic plasticity properties of the system...
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StartPage 110804
SubjectTerms Adaptive stimulation technology
Hippocampal slice
Memristive device
Neuromorphic system
Neuron
Neuronal synaptic plasticity
Title A neurohybrid memristive system for adaptive stimulation of hippocampus
URI https://dx.doi.org/10.1016/j.chaos.2021.110804
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