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Eyes open on sleep and wake: in vivo to in silico neural networks

Eyes open on sleep and wake: in vivo to in silico neural networks
Eyes open on sleep and wake: in vivo to in silico neural networks
Functional and effective connectivity of cortical areas are essential for normal brain function under different behavioral states. Appropriate cortical activity during sleep and wakefulness is ensured by the balanced activity of excitatory and inhibitory circuits. Ultimately, fast, millisecond cortical rhythmic oscillations shape cortical function in time and space. On a much longer time scale, brain function also depends on prior sleep-wake history and circadian processes. However, much remains to be established on how the brain operates at the neuronal level in humans during sleep and wakefulness. A key limitation of human neuroscience is the difficulty in isolating neuronal excitation/inhibition drive in vivo. Therefore, computational models are noninvasive approaches of choice to indirectly access hidden neuronal states. In this review, we present a physiologically driven in silico approach, Dynamic Causal Modelling (DCM), as a means to comprehend brain function under different experimental paradigms. Importantly, DCM has allowed for the understanding of how brain dynamics underscore brain plasticity, cognition, and different states of consciousness. In a broader perspective, noninvasive computational approaches, such as DCM, may help to puzzle out the spatial and temporal dynamics of human brain function at different behavioural states.
2090-5904
Vanvinckenroye, A
9d56adb2-36b8-454a-b7a6-320d3a9c0f3d
Vandewalle, G
26e86381-f07d-41ae-ae39-debbfd10013b
Phillips, C
84996ce5-2db1-4bc0-a80a-1c09764f91a2
Chellappa, SL
516582b5-3cba-4644-86c9-14c91a4510f2
Vanvinckenroye, A
9d56adb2-36b8-454a-b7a6-320d3a9c0f3d
Vandewalle, G
26e86381-f07d-41ae-ae39-debbfd10013b
Phillips, C
84996ce5-2db1-4bc0-a80a-1c09764f91a2
Chellappa, SL
516582b5-3cba-4644-86c9-14c91a4510f2

Vanvinckenroye, A, Vandewalle, G, Phillips, C and Chellappa, SL (2016) Eyes open on sleep and wake: in vivo to in silico neural networks. Neural Plasticity, [1478684]. (doi:10.1155/2016/1478684).

Record type: Article

Abstract

Functional and effective connectivity of cortical areas are essential for normal brain function under different behavioral states. Appropriate cortical activity during sleep and wakefulness is ensured by the balanced activity of excitatory and inhibitory circuits. Ultimately, fast, millisecond cortical rhythmic oscillations shape cortical function in time and space. On a much longer time scale, brain function also depends on prior sleep-wake history and circadian processes. However, much remains to be established on how the brain operates at the neuronal level in humans during sleep and wakefulness. A key limitation of human neuroscience is the difficulty in isolating neuronal excitation/inhibition drive in vivo. Therefore, computational models are noninvasive approaches of choice to indirectly access hidden neuronal states. In this review, we present a physiologically driven in silico approach, Dynamic Causal Modelling (DCM), as a means to comprehend brain function under different experimental paradigms. Importantly, DCM has allowed for the understanding of how brain dynamics underscore brain plasticity, cognition, and different states of consciousness. In a broader perspective, noninvasive computational approaches, such as DCM, may help to puzzle out the spatial and temporal dynamics of human brain function at different behavioural states.

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More information

Accepted/In Press date: 11 October 2015
Published date: 14 January 2016
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Identifiers

Local EPrints ID: 479678
URI: http://eprints.soton.ac.uk/id/eprint/479678
DOI: doi:10.1155/2016/1478684
ISSN: 2090-5904
PURE UUID: 39530bee-d354-445c-95db-572237850968
ORCID for SL Chellappa: ORCID iD orcid.org/0000-0002-6190-464X

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Date deposited: 26 Jul 2023 16:46
Last modified: 17 Mar 2024 04:20

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Contributors

Author: A Vanvinckenroye
Author: G Vandewalle
Author: C Phillips
Author: SL Chellappa ORCID iD

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