TY - JOUR
T1 - Altered functional brain connectivity in patients with visually induced dizziness
AU - Van Ombergen, Angelique
AU - Heine, Lizette
AU - Jillings, Steven
AU - Roberts, R. Edward
AU - Jeurissen, Ben
AU - Van Rompaey, Vincent
AU - Mucci, Viviana
AU - Vanhecke, Stefanie
AU - Sijbers, Jan
AU - Vanhevel, Floris
AU - Sunaert, Stefan
AU - Bahri, Mohamed Ali
AU - Parizel, Paul M.
AU - Van de Heyning, Paul H.
AU - Laureys, Steven
AU - Wuyts, Floris L.
N1 - Publisher Copyright:
© 2017 The Authors
PY - 2017
Y1 - 2017
N2 - Background Vestibular patients occasionally report aggravation or triggering of their symptoms by visual stimuli, which is called visually induced dizziness (VID). These patients therefore experience dizziness, discomfort, disorientation and postural unsteadiness. The underlying pathophysiology of VID is still poorly understood. Objective The aim of the current explorative study was to gain a first insight in the underlying neural aspects of VID. Methods We included 10 VID patients and 10 healthy matched controls, all of which underwent a resting state fMRI scan session. Changes in functional connectivity were explored by means of the intrinsic connectivity contrast (ICC). Seed-based analysis was subsequently performed in visual and vestibular seeds. Results We found a decreased functional connectivity in the right central operculum (superior temporal gyrus), as well as increased functional connectivity in the occipital pole in VID patients as compared to controls in a hypothesis-free analysis. A weaker functional connectivity between the thalamus and most of the right putamen was measured in VID patients in comparison to controls in a seed-based analysis. Furthermore, also by means of a seed-based analysis, a decreased functional connectivity between the visual associative area and the left parahippocampal gyrus was found in VID patients. Additionally, we found increased functional connectivity between thalamus and occipital and cerebellar areas in the VID patients, as well as between the associative visual cortex and both middle frontal gyrus and precuneus. Conclusions We found alterations in the visual and vestibular cortical network in VID patients that could underlie the typical VID symptoms such as a worsening of their vestibular symptoms when being exposed to challenging visual stimuli. These preliminary findings provide the first insights into the underlying functional brain connectivity in VID patients. Future studies should extend these findings by employing larger sample sizes, by investigating specific task-based paradigms in these patients and by exploring the implications for treatment.
AB - Background Vestibular patients occasionally report aggravation or triggering of their symptoms by visual stimuli, which is called visually induced dizziness (VID). These patients therefore experience dizziness, discomfort, disorientation and postural unsteadiness. The underlying pathophysiology of VID is still poorly understood. Objective The aim of the current explorative study was to gain a first insight in the underlying neural aspects of VID. Methods We included 10 VID patients and 10 healthy matched controls, all of which underwent a resting state fMRI scan session. Changes in functional connectivity were explored by means of the intrinsic connectivity contrast (ICC). Seed-based analysis was subsequently performed in visual and vestibular seeds. Results We found a decreased functional connectivity in the right central operculum (superior temporal gyrus), as well as increased functional connectivity in the occipital pole in VID patients as compared to controls in a hypothesis-free analysis. A weaker functional connectivity between the thalamus and most of the right putamen was measured in VID patients in comparison to controls in a seed-based analysis. Furthermore, also by means of a seed-based analysis, a decreased functional connectivity between the visual associative area and the left parahippocampal gyrus was found in VID patients. Additionally, we found increased functional connectivity between thalamus and occipital and cerebellar areas in the VID patients, as well as between the associative visual cortex and both middle frontal gyrus and precuneus. Conclusions We found alterations in the visual and vestibular cortical network in VID patients that could underlie the typical VID symptoms such as a worsening of their vestibular symptoms when being exposed to challenging visual stimuli. These preliminary findings provide the first insights into the underlying functional brain connectivity in VID patients. Future studies should extend these findings by employing larger sample sizes, by investigating specific task-based paradigms in these patients and by exploring the implications for treatment.
KW - Functional connectivity
KW - VID
KW - Vertigo
KW - Vestibular
KW - Visually induced dizziness
KW - rsfMRI
UR - http://www.scopus.com/inward/record.url?scp=85014724127&partnerID=8YFLogxK
U2 - 10.1016/j.nicl.2017.02.020
DO - 10.1016/j.nicl.2017.02.020
M3 - Article
C2 - 28331800
AN - SCOPUS:85014724127
SN - 2213-1582
VL - 14
SP - 538
EP - 545
JO - NeuroImage: Clinical
JF - NeuroImage: Clinical
ER -