Uncovering the neural correlates of the urge-to-blink: a study utilising subjective urge ratings and paradigm free mapping
Uncovering the neural correlates of the urge-to-blink: a study utilising subjective urge ratings and paradigm free mapping
Neuroimaging plays a significant role in understanding the neurophysiology of Tourette syndrome (TS), in particular the main symptom, tics, and the urges associated with them. Premonitory urge is thought to be a negative reinforcer of tic expression in TS. Tic expression during neuroimaging is most often required as an overt marker of increased urge-to-tic, which can lead to considerable head movement, and thus data loss. This study aims to identify the brain regions involved in urge in healthy subjects using multi-echo functional magnetic resonance imaging (fMRI) and a timing-free approach to localise the blood-oxygen level-dependent (BOLD) response associated with the urge-to-act without information of when these events occur. Blink suppression is an analogous behaviour that can be expressed overtly in the MRI scanner which gives rise to an urge like those described by individuals with TS. We examined the urge-to-blink in 20 healthy volunteers with an experimental paradigm including two conditions, “Okay to blink” and “Suppress blinking”, to identify brain regions involved in blink suppression. Multi-echo fMRI data were analysed using a novel approach to investigate the BOLD signal correlated with the build-up of the urge-to-blink that participants continuously reported using a rollerball device. In addition, we used the method of multi-echo paradigm free mapping (MESPFM) to identify these regions without prior specification of task timings. Subjective urge scores were correlated with activity in the right posterior and ventral-anterior insula as well as the mid-cingulate and occipital cortices. Whereas blink suppression was associated with activation in the dorsolateral prefrontal cortex, cerebellum, right dorsal-anterior insula, mid-cingulate cortex, and thalamus. These findings illustrate that different insula subregions contribute to the urge-for-action and suppression networks. The MESPFM approach showed co-activation of the right insula and cingulate cortex. The MESPFM activation maps showed the highest overlap with activation associated with blink suppression, as identified using general linear model analysis, demonstrating that activity associated with suppression can be determined without prior knowledge of task timings.
blinking, functional magnetic resonance imaging, insula, paradigm free mapping, suppression, urge
Houlgreave, Mairi S.
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Uruñuela, Eneko
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Caballero-Gaudes, César
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Gowland, Penny
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Dyke, Katherine
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Brandt, Valerie
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Mohammed, Imaan
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Sanchez Panchuelo, Rosa
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Jackson, Stephen
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18 July 2025
Houlgreave, Mairi S.
fa4e1263-07d8-4e06-9106-ea030c5d4671
Uruñuela, Eneko
071ed5f3-7146-40af-98d4-ad7ed3d685c7
Caballero-Gaudes, César
d470b50f-f15b-43b8-b228-f887705cd0aa
Gowland, Penny
e411fdbe-c250-480f-83f3-735d95493527
Dyke, Katherine
e3febb9f-e5a3-4e60-8723-b6b3568412bc
Brandt, Valerie
e41f5832-70e4-407d-8a15-85b861761656
Mohammed, Imaan
ccd035e2-99ac-4a19-87be-5e00ea852c0f
Sanchez Panchuelo, Rosa
dfcebda5-1785-4ac3-a3cd-58d384a80550
Jackson, Stephen
2c78e85e-bc12-4d1f-835c-93c04941e532
Houlgreave, Mairi S., Uruñuela, Eneko, Caballero-Gaudes, César, Gowland, Penny, Dyke, Katherine, Brandt, Valerie, Mohammed, Imaan, Sanchez Panchuelo, Rosa and Jackson, Stephen
(2025)
Uncovering the neural correlates of the urge-to-blink: a study utilising subjective urge ratings and paradigm free mapping.
Imaging Neuroscience, 3, [IMAG.a.84].
(doi:10.1162/IMAG.a.84).
Abstract
Neuroimaging plays a significant role in understanding the neurophysiology of Tourette syndrome (TS), in particular the main symptom, tics, and the urges associated with them. Premonitory urge is thought to be a negative reinforcer of tic expression in TS. Tic expression during neuroimaging is most often required as an overt marker of increased urge-to-tic, which can lead to considerable head movement, and thus data loss. This study aims to identify the brain regions involved in urge in healthy subjects using multi-echo functional magnetic resonance imaging (fMRI) and a timing-free approach to localise the blood-oxygen level-dependent (BOLD) response associated with the urge-to-act without information of when these events occur. Blink suppression is an analogous behaviour that can be expressed overtly in the MRI scanner which gives rise to an urge like those described by individuals with TS. We examined the urge-to-blink in 20 healthy volunteers with an experimental paradigm including two conditions, “Okay to blink” and “Suppress blinking”, to identify brain regions involved in blink suppression. Multi-echo fMRI data were analysed using a novel approach to investigate the BOLD signal correlated with the build-up of the urge-to-blink that participants continuously reported using a rollerball device. In addition, we used the method of multi-echo paradigm free mapping (MESPFM) to identify these regions without prior specification of task timings. Subjective urge scores were correlated with activity in the right posterior and ventral-anterior insula as well as the mid-cingulate and occipital cortices. Whereas blink suppression was associated with activation in the dorsolateral prefrontal cortex, cerebellum, right dorsal-anterior insula, mid-cingulate cortex, and thalamus. These findings illustrate that different insula subregions contribute to the urge-for-action and suppression networks. The MESPFM approach showed co-activation of the right insula and cingulate cortex. The MESPFM activation maps showed the highest overlap with activation associated with blink suppression, as identified using general linear model analysis, demonstrating that activity associated with suppression can be determined without prior knowledge of task timings.
Text
2024.07.19.603913v1.full
- Author's Original
Text
imag.a.84
- Version of Record
More information
Accepted/In Press date: 23 June 2025
e-pub ahead of print date: 7 July 2025
Published date: 18 July 2025
Keywords:
blinking, functional magnetic resonance imaging, insula, paradigm free mapping, suppression, urge
Identifiers
Local EPrints ID: 503946
URI: http://eprints.soton.ac.uk/id/eprint/503946
PURE UUID: afcfbb5b-e539-4939-bd9a-057e036ee133
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Date deposited: 18 Aug 2025 17:05
Last modified: 29 Aug 2025 01:55
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Contributors
Author:
Mairi S. Houlgreave
Author:
Eneko Uruñuela
Author:
César Caballero-Gaudes
Author:
Penny Gowland
Author:
Katherine Dyke
Author:
Imaan Mohammed
Author:
Rosa Sanchez Panchuelo
Author:
Stephen Jackson
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