4.6 Article

Individual differences in mental imagery modulate effective connectivity of scene-selective regions during resting state

Journal

BRAIN STRUCTURE & FUNCTION
Volume 227, Issue 5, Pages 1831-1842

Publisher

SPRINGER HEIDELBERG
DOI: 10.1007/s00429-022-02475-0

Keywords

Scene-selective regions; Navigation; Imagery; fMRI; Resting-state; Dynamic Causal Modelling

Funding

  1. Sapienza University of Rome
  2. Special Research Fund of Ghent University [BOF16/DOC/282]

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Successful navigation relies on the ability to identify, perceive, and correctly process the spatial structure of a scene. Visual mental imagery plays a crucial role in navigation and is associated with the activity of relevant brain regions. This study investigated the intrinsic causal interactions among scene-selective brain regions and found that the strength of connectivity between these regions correlated with individual differences in mental imagery ability.
Successful navigation relies on the ability to identify, perceive, and correctly process the spatial structure of a scene. It is well known that visual mental imagery plays a crucial role in navigation. Indeed, cortical regions encoding navigationally relevant information are also active during mental imagery of navigational scenes. However, it remains unknown whether their intrinsic activity and connectivity reflect the individuals' ability to imagine a scene. Here, we primarily investigated the intrinsic causal interactions among scene-selective brain regions such as Parahipoccampal Place Area (PPA), Retrosplenial Complex, and Occipital Place Area (OPA) using Dynamic Causal Modelling for resting-state functional magnetic resonance data. Second, we tested whether resting-state effective connectivity parameters among scene-selective regions could reflect individual differences in mental imagery in our sample, as assessed by the self-reported Vividness of Visual Imagery Questionnaire. We found an inhibitory influence of occipito-medial on temporal regions, and an excitatory influence of more anterior on more medial and posterior brain regions. Moreover, we found that a key role in imagery is played by the connection strength from OPA to PPA, especially in the left hemisphere, since the influence of the signal between these scene-selective regions positively correlated with good mental imagery ability. Our investigation contributes to the understanding of the complexity of the causal interaction among brain regions involved in navigation and provides new insight in understanding how an essential ability, such as mental imagery, can be explained by the intrinsic fluctuation of brain signal.

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