Litcius/Paper detail

Network changes in patients with phobic postural vertigo

Judita Huber, Virginia L. Flanagin, Pauline Popp, Peter zu Eulenburg, Marianne Dieterich

2020Brain and Behavior22 citationsDOIOpen Access PDF

Abstract

INTRODUCTION: Functional dizziness comprises a class of dizziness disorders, including phobic postural vertigo (PPV), that cause vestibular symptoms in the absence of a structural organic origin. For this reason, functional brain mechanisms have been implicated in these disorders. METHODS: Here, functional network organization was investigated in 17 PPV patients and 18 healthy controls (HCs) during functional magnetic resonance imaging with a visual motion stimulus, data initially collected and described by Popp et al. (2018). Graph theoretical measures (degree centrality [DC], clustering coefficient [CC], and eccentricity) of 160 nodes within six functional networks were compared between HC and PPV patients during visual motion and static visual patterns. RESULTS: Graph theoretical measures analyzed during the static condition revealed significantly different DC in the default-mode, sensorimotor, and cerebellar networks. Furthermore, significantly different group differences in network organization changes between static visual and visual motion stimulation were observed. In PPV, DC and CC showed a significantly stronger increase in the sensorimotor network during visual stimulation, whereas cerebellar network showed a significantly stronger decrease in DC. CONCLUSION: These results suggest that the altered visual motion processing seen in PPV patients may arise from a modified state of sensory and cerebellar network connectivity.

Topics & Concepts

VertigoPhysical medicine and rehabilitationMedicineAudiologyPsychologyPhysical therapySurgeryVestibular and auditory disordersFunctional Brain Connectivity StudiesBalance, Gait, and Falls Prevention