Altered network stability in progressive supranuclear palsy
Altered network stability in progressive supranuclear palsy
The clinical syndromes of Progressive Supranuclear Palsy (PSP) may be mediated by abnormal temporal dynamics of brain networks, due to the impact of atrophy, synapse loss and neurotransmitter deficits. We tested the hypothesis that alterations in signal complexity in neural networks influence short-latency state transitions. Ninety-four participants with PSP and 64 healthy controls were recruited from two independent cohorts. All participants underwent clinical and neuropsychological testing and resting-state functional MRI. Network dynamics were assessed using hidden Markov models and neural signal complexity measured in terms of multiscale entropy. In both cohorts, PSP increased the proportion of time in networks associated with higher cognitive functions. This effect correlated with clinical severity as measured by the PSP-rating-scale, and with reduced neural signal complexity. Regional atrophy influenced abnormal brain-state occupancy, but abnormal network topology and dynamics were not restricted to areas of atrophy. Our findings show that the pathology of PSP causes clinically relevant changes in neural temporal dynamics, leading to a greater proportion of time in inefficient brain-states.
109-117
Whiteside, David J.
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Jones, P. Simon
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Ghosh, Boyd C.P.
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Coyle-Gilchrist, Ian
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Gerhard, Alexander
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Hu, Michele T.
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Klein, Johannes C.
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Leigh, P. Nigel
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Church, Alistair
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Burn, David J.
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Morris, Huw R.
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Rowe, James B.
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Rittman, Timothy
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1 November 2021
Whiteside, David J.
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Jones, P. Simon
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Ghosh, Boyd C.P.
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Coyle-Gilchrist, Ian
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Gerhard, Alexander
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Hu, Michele T.
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Klein, Johannes C.
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Leigh, P. Nigel
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Church, Alistair
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Burn, David J.
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Morris, Huw R.
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Rowe, James B.
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Rittman, Timothy
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Whiteside, David J., Jones, P. Simon, Ghosh, Boyd C.P., Coyle-Gilchrist, Ian, Gerhard, Alexander, Hu, Michele T., Klein, Johannes C., Leigh, P. Nigel, Church, Alistair, Burn, David J., Morris, Huw R., Rowe, James B. and Rittman, Timothy
(2021)
Altered network stability in progressive supranuclear palsy.
Neurobiology of Aging, 107, .
(doi:10.1016/j.neurobiolaging.2021.07.007).
Abstract
The clinical syndromes of Progressive Supranuclear Palsy (PSP) may be mediated by abnormal temporal dynamics of brain networks, due to the impact of atrophy, synapse loss and neurotransmitter deficits. We tested the hypothesis that alterations in signal complexity in neural networks influence short-latency state transitions. Ninety-four participants with PSP and 64 healthy controls were recruited from two independent cohorts. All participants underwent clinical and neuropsychological testing and resting-state functional MRI. Network dynamics were assessed using hidden Markov models and neural signal complexity measured in terms of multiscale entropy. In both cohorts, PSP increased the proportion of time in networks associated with higher cognitive functions. This effect correlated with clinical severity as measured by the PSP-rating-scale, and with reduced neural signal complexity. Regional atrophy influenced abnormal brain-state occupancy, but abnormal network topology and dynamics were not restricted to areas of atrophy. Our findings show that the pathology of PSP causes clinically relevant changes in neural temporal dynamics, leading to a greater proportion of time in inefficient brain-states.
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Accepted/In Press date: 8 July 2021
e-pub ahead of print date: 19 August 2021
Published date: 1 November 2021
Identifiers
Local EPrints ID: 477630
URI: http://eprints.soton.ac.uk/id/eprint/477630
ISSN: 0197-4580
PURE UUID: 18534f03-a8c7-4c0d-aa79-9490857eef10
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Date deposited: 09 Jun 2023 16:57
Last modified: 17 Mar 2024 02:03
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Contributors
Author:
David J. Whiteside
Author:
P. Simon Jones
Author:
Boyd C.P. Ghosh
Author:
Ian Coyle-Gilchrist
Author:
Alexander Gerhard
Author:
Michele T. Hu
Author:
Johannes C. Klein
Author:
P. Nigel Leigh
Author:
Alistair Church
Author:
David J. Burn
Author:
Huw R. Morris
Author:
James B. Rowe
Author:
Timothy Rittman
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