GREY AND WHITE MATTER BRAIN NETWORK CHANGES IN FRONTOTEMPORAL DEMENTIA SUBTYPES
GREY AND WHITE MATTER BRAIN NETWORK CHANGES IN FRONTOTEMPORAL DEMENTIA SUBTYPES
Background: Frontotemporal dementia (FTD) comprises of three clinical syndromes, behavioural-variant frontotemporal dementia (bvFTD), semantic dementia (SV-PPA), and progressive nonfluent aphasia (NFV-PPA) with unique underlying neuroanatomical deficits. To date, however, grey matter structural differences and their connecting white matter tracts in this network have been mostly characterised in comparison to controls, whereas within FTD subtype comparisons in the same patients have not been explored.
Methodology: In 94 participants, including bvFTD (n = 16), SV-PPA (n = 16) and NFV-PPA (n = 16), as well as an age-matched control group (n = 46), we employed voxel-based morphometry (VBM) and diffusion tensor imaging (DTI) to examine grey and white matter key signatures in each of the three FTD subtypes.
Results: Our results showed that bvFTD had specific ventromedial prefrontal cortex and striatum grey matter atrophy along with their connecting white matter tracts compared to other FTD subtypes. By contrast, SV-PPA showed additional temporal pole grey matter damage to bvFTD and grey and white matter temporal, amygdala and insula changes compared to NFV-PPA. Finally, NFV-PPA showed mild insula grey and white matter changes compared to bvFTD but differed from SV-PPA only on anterior corpus callosum white matter changes.
Conclusions: Our findings clearly indicate that not only grey matter regions of the FTD network but also their white matter connecting tracts have specific signatures for each FTD subtype. These promising findings highlight how neural network approaches can shed new light on neurodegenerative conditions and FTD in particular, which will inform future diagnostic and disease management.
410-418
Nguyen, Tim
f539a923-4625-410a-8fdc-bf8c50e0b3de
Bertoux, Maxime
cd351b78-c9bc-4d36-9a29-cc365fe16c34
O'Callaghan, Claire
67125729-afc7-4e85-bf89-76e8be3097a8
Ahmed, Samrah
ba36a7fd-d285-4c90-b336-5b227eb5490e
Hodges, John R.
7e7a95ab-a65f-42a1-8c01-30917e6b2f3d
Hornberger, Michael
a48c1c63-422a-4c11-9a51-c7be0aa3026d
2013
Nguyen, Tim
f539a923-4625-410a-8fdc-bf8c50e0b3de
Bertoux, Maxime
cd351b78-c9bc-4d36-9a29-cc365fe16c34
O'Callaghan, Claire
67125729-afc7-4e85-bf89-76e8be3097a8
Ahmed, Samrah
ba36a7fd-d285-4c90-b336-5b227eb5490e
Hodges, John R.
7e7a95ab-a65f-42a1-8c01-30917e6b2f3d
Hornberger, Michael
a48c1c63-422a-4c11-9a51-c7be0aa3026d
Nguyen, Tim, Bertoux, Maxime, O'Callaghan, Claire, Ahmed, Samrah, Hodges, John R. and Hornberger, Michael
(2013)
GREY AND WHITE MATTER BRAIN NETWORK CHANGES IN FRONTOTEMPORAL DEMENTIA SUBTYPES.
Translational Neuroscience, 4 (4), .
(doi:10.2478/s13380-013-0141-2).
Abstract
Background: Frontotemporal dementia (FTD) comprises of three clinical syndromes, behavioural-variant frontotemporal dementia (bvFTD), semantic dementia (SV-PPA), and progressive nonfluent aphasia (NFV-PPA) with unique underlying neuroanatomical deficits. To date, however, grey matter structural differences and their connecting white matter tracts in this network have been mostly characterised in comparison to controls, whereas within FTD subtype comparisons in the same patients have not been explored.
Methodology: In 94 participants, including bvFTD (n = 16), SV-PPA (n = 16) and NFV-PPA (n = 16), as well as an age-matched control group (n = 46), we employed voxel-based morphometry (VBM) and diffusion tensor imaging (DTI) to examine grey and white matter key signatures in each of the three FTD subtypes.
Results: Our results showed that bvFTD had specific ventromedial prefrontal cortex and striatum grey matter atrophy along with their connecting white matter tracts compared to other FTD subtypes. By contrast, SV-PPA showed additional temporal pole grey matter damage to bvFTD and grey and white matter temporal, amygdala and insula changes compared to NFV-PPA. Finally, NFV-PPA showed mild insula grey and white matter changes compared to bvFTD but differed from SV-PPA only on anterior corpus callosum white matter changes.
Conclusions: Our findings clearly indicate that not only grey matter regions of the FTD network but also their white matter connecting tracts have specific signatures for each FTD subtype. These promising findings highlight how neural network approaches can shed new light on neurodegenerative conditions and FTD in particular, which will inform future diagnostic and disease management.
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Published date: 2013
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Local EPrints ID: 504890
URI: http://eprints.soton.ac.uk/id/eprint/504890
PURE UUID: 5c0f68ba-bf3d-4eca-b12c-4f71c81ce984
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Date deposited: 19 Sep 2025 17:19
Last modified: 20 Sep 2025 02:31
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Author:
Tim Nguyen
Author:
Maxime Bertoux
Author:
Claire O'Callaghan
Author:
Samrah Ahmed
Author:
John R. Hodges
Author:
Michael Hornberger
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