Seeing through the Static: Reduced Imagery Vividness in Aphantasia is Associated with Impaired Temporal Lobe Signal Complexity

Aphantasia is the inability to experience mental imagery in full wakefulness without any prominent perceptual deficits. Visual aphantasia is associated with differences in distributed brain networks, but its neurobiological underpinnings remain a mystery. We rationalised that aphantasia may arise due to impairments in the top-down control over visual imagination. We expected that this in turn would prevent the brains of aphantasic subjects from differentiating neural activity encoding the contents of imagination from the background noise of resting activity, particularly within the ventral temporal lobes. To test this hypothesis, we re-analysed functional magnetic resonance imaging data collected from aphantasics (n = 23) and controls (n = 20) during a simple perception and imagery task. We used two measures of informational complexity to quantify the complexity of the spatial pattern of thresholded BOLD signal in the participants' temporal lobes during visual imagery. This spatial complexity was lower in aphantasics than controls during blocks of imagery, but not during perception (P < 0.05). We then performed dynamic functional connectivity analyses on the same data to demonstrate that the higher-order networks of aphantasics coupled abnormally with the temporal lobes during imagery (P < 0.05). These results provide a novel perspective, reframing aphantasia as an inability of the visual system to selectively activate regions encoding object-specific visual categories above background levels of noise.