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Atomoxetine restores the response inhibition network in Parkinson’s disease
Parkinson’s disease impairs the inhibition of responses, and whilst impulsivity is mild for some patients, severe impulse control disorders affect ∼10% of cases. Based on preclinical models we proposed that noradrenergic denervation contributes to the impairment of response inhibition, via changes i...
Autores principales: | , , , , , , , , , , , , , |
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Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
Oxford University Press
2016
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Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4958901/ https://www.ncbi.nlm.nih.gov/pubmed/27343257 http://dx.doi.org/10.1093/brain/aww138 |
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author | Rae, Charlotte L. Nombela, Cristina Rodríguez, Patricia Vázquez Ye, Zheng Hughes, Laura E. Jones, P. Simon Ham, Timothy Rittman, Timothy Coyle-Gilchrist, Ian Regenthal, Ralf Sahakian, Barbara J. Barker, Roger A. Robbins, Trevor W. Rowe, James B. |
author_facet | Rae, Charlotte L. Nombela, Cristina Rodríguez, Patricia Vázquez Ye, Zheng Hughes, Laura E. Jones, P. Simon Ham, Timothy Rittman, Timothy Coyle-Gilchrist, Ian Regenthal, Ralf Sahakian, Barbara J. Barker, Roger A. Robbins, Trevor W. Rowe, James B. |
author_sort | Rae, Charlotte L. |
collection | PubMed |
description | Parkinson’s disease impairs the inhibition of responses, and whilst impulsivity is mild for some patients, severe impulse control disorders affect ∼10% of cases. Based on preclinical models we proposed that noradrenergic denervation contributes to the impairment of response inhibition, via changes in the prefrontal cortex and its subcortical connections. Previous work in Parkinson’s disease found that the selective noradrenaline reuptake inhibitor atomoxetine could improve response inhibition, gambling decisions and reflection impulsivity. Here we tested the hypotheses that atomoxetine can restore functional brain networks for response inhibition in Parkinson’s disease, and that both structural and functional connectivity determine the behavioural effect. In a randomized, double-blind placebo-controlled crossover study, 19 patients with mild-to-moderate idiopathic Parkinson’s disease underwent functional magnetic resonance imaging during a stop-signal task, while on their usual dopaminergic therapy. Patients received 40 mg atomoxetine or placebo, orally. This regimen anticipates that noradrenergic therapies for behavioural symptoms would be adjunctive to, not a replacement for, dopaminergic therapy. Twenty matched control participants provided normative data. Arterial spin labelling identified no significant changes in regional perfusion. We assessed functional interactions between key frontal and subcortical brain areas for response inhibition, by comparing 20 dynamic causal models of the response inhibition network, inverted to the functional magnetic resonance imaging data and compared using random effects model selection. We found that the normal interaction between pre-supplementary motor cortex and the inferior frontal gyrus was absent in Parkinson’s disease patients on placebo (despite dopaminergic therapy), but this connection was restored by atomoxetine. The behavioural change in response inhibition (improvement indicated by reduced stop-signal reaction time) following atomoxetine correlated with structural connectivity as measured by the fractional anisotropy in the white matter underlying the inferior frontal gyrus. Using multiple regression models, we examined the factors that influenced the individual differences in the response to atomoxetine: the reduction in stop-signal reaction time correlated with structural connectivity and baseline performance, while disease severity and drug plasma level predicted the change in fronto-striatal effective connectivity following atomoxetine. These results suggest that (i) atomoxetine increases sensitivity of the inferior frontal gyrus to afferent inputs from the pre-supplementary motor cortex; (ii) atomoxetine can enhance downstream modulation of frontal-subcortical connections for response inhibition; and (iii) the behavioural consequences of treatment are dependent on fronto-striatal structural connections. The individual differences in behavioural responses to atomoxetine highlight the need for patient stratification in future clinical trials of noradrenergic therapies for Parkinson’s disease. |
format | Online Article Text |
id | pubmed-4958901 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 2016 |
publisher | Oxford University Press |
record_format | MEDLINE/PubMed |
spelling | pubmed-49589012017-08-01 Atomoxetine restores the response inhibition network in Parkinson’s disease Rae, Charlotte L. Nombela, Cristina Rodríguez, Patricia Vázquez Ye, Zheng Hughes, Laura E. Jones, P. Simon Ham, Timothy Rittman, Timothy Coyle-Gilchrist, Ian Regenthal, Ralf Sahakian, Barbara J. Barker, Roger A. Robbins, Trevor W. Rowe, James B. Brain Original Articles Parkinson’s disease impairs the inhibition of responses, and whilst impulsivity is mild for some patients, severe impulse control disorders affect ∼10% of cases. Based on preclinical models we proposed that noradrenergic denervation contributes to the impairment of response inhibition, via changes in the prefrontal cortex and its subcortical connections. Previous work in Parkinson’s disease found that the selective noradrenaline reuptake inhibitor atomoxetine could improve response inhibition, gambling decisions and reflection impulsivity. Here we tested the hypotheses that atomoxetine can restore functional brain networks for response inhibition in Parkinson’s disease, and that both structural and functional connectivity determine the behavioural effect. In a randomized, double-blind placebo-controlled crossover study, 19 patients with mild-to-moderate idiopathic Parkinson’s disease underwent functional magnetic resonance imaging during a stop-signal task, while on their usual dopaminergic therapy. Patients received 40 mg atomoxetine or placebo, orally. This regimen anticipates that noradrenergic therapies for behavioural symptoms would be adjunctive to, not a replacement for, dopaminergic therapy. Twenty matched control participants provided normative data. Arterial spin labelling identified no significant changes in regional perfusion. We assessed functional interactions between key frontal and subcortical brain areas for response inhibition, by comparing 20 dynamic causal models of the response inhibition network, inverted to the functional magnetic resonance imaging data and compared using random effects model selection. We found that the normal interaction between pre-supplementary motor cortex and the inferior frontal gyrus was absent in Parkinson’s disease patients on placebo (despite dopaminergic therapy), but this connection was restored by atomoxetine. The behavioural change in response inhibition (improvement indicated by reduced stop-signal reaction time) following atomoxetine correlated with structural connectivity as measured by the fractional anisotropy in the white matter underlying the inferior frontal gyrus. Using multiple regression models, we examined the factors that influenced the individual differences in the response to atomoxetine: the reduction in stop-signal reaction time correlated with structural connectivity and baseline performance, while disease severity and drug plasma level predicted the change in fronto-striatal effective connectivity following atomoxetine. These results suggest that (i) atomoxetine increases sensitivity of the inferior frontal gyrus to afferent inputs from the pre-supplementary motor cortex; (ii) atomoxetine can enhance downstream modulation of frontal-subcortical connections for response inhibition; and (iii) the behavioural consequences of treatment are dependent on fronto-striatal structural connections. The individual differences in behavioural responses to atomoxetine highlight the need for patient stratification in future clinical trials of noradrenergic therapies for Parkinson’s disease. Oxford University Press 2016-08 2016-06-24 /pmc/articles/PMC4958901/ /pubmed/27343257 http://dx.doi.org/10.1093/brain/aww138 Text en © The Author (2016). Published by Oxford University Press on behalf of the Guarantors of Brain. http://creativecommons.org/licenses/by/4.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited. |
spellingShingle | Original Articles Rae, Charlotte L. Nombela, Cristina Rodríguez, Patricia Vázquez Ye, Zheng Hughes, Laura E. Jones, P. Simon Ham, Timothy Rittman, Timothy Coyle-Gilchrist, Ian Regenthal, Ralf Sahakian, Barbara J. Barker, Roger A. Robbins, Trevor W. Rowe, James B. Atomoxetine restores the response inhibition network in Parkinson’s disease |
title | Atomoxetine restores the response inhibition network in Parkinson’s disease |
title_full | Atomoxetine restores the response inhibition network in Parkinson’s disease |
title_fullStr | Atomoxetine restores the response inhibition network in Parkinson’s disease |
title_full_unstemmed | Atomoxetine restores the response inhibition network in Parkinson’s disease |
title_short | Atomoxetine restores the response inhibition network in Parkinson’s disease |
title_sort | atomoxetine restores the response inhibition network in parkinson’s disease |
topic | Original Articles |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4958901/ https://www.ncbi.nlm.nih.gov/pubmed/27343257 http://dx.doi.org/10.1093/brain/aww138 |
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