A Voxel-Based Morphometric Study of Gray Matter in Specific Phobia.
Date
2023Abstract
The objective of this study was to analyze the neurostructural abnormalities of brain areas
responsible for the acquisition and maintenance of fear in small animal phobia by comparing gray
matter volume (GMV) in individuals with phobia and non-fearful controls. Structural magnetic
resonance imaging was obtained from 62 adults (79% female) assigned to one of two groups: 31 were
diagnosed with small animal phobia and 31 were non-fearful controls. To investigate structural
alterations, a whole-brain voxel-based morphometry analysis was conducted to compare the GMV of
the brain areas involved in fear between both groups. The results indicated that individuals with
a small animal specific phobia showed smaller GMV in cortical regions, such as the orbitofrontal
(OFC) and medial frontal cortex, and greater GMV in the putamen than non-fearful controls. These
brain areas are responsible for avoidant behavior (putamen) and emotional regulation processes or
inhibitory control (prefrontal cortex (PFC)), which might suggest a greater vulnerability of phobic
individuals to acquiring non-adaptive conditioned responses and emotional dysregulation. The
findings provide preliminary support for the involvement of structural deficits in OFC and medial
frontal cortex in phobia, contributing to clarify the neurobiological substrates for phobias.