The Eye’s Mind: perspectives on visual imagery

titleThe Eye’s Mind: perspectives on visual imagery
start_date2023/04/17
schedule11h
onlineno
visiohttps://us02web.zoom.us/j/83888993899?pwd=ZFZ0STdQVmhESkI2bnVabWRWV0RpQT09
location_infoamphithéâtre & zoom
summaryFor most of us visual imagery is a conspicuous ingredient of the imaginative experience which allows us to escape from the here and now into the past, the future and the worlds conceived by science and art. There appears to be wide inter-individual variation in the vividness of visual imagery. Although the British psychologist Galton together with the Parisian neurologist Charcot and his psychiatrist colleague Cotard - recognised that some individuals may lack wakeful imagery entirely, the existence of ‘extreme imagery’ has been oddly neglected since this early work. In 2015 we coined the term ‘aphantasia’ to describe the lack of the mind’s eye, describing 21 individuals who reported a lifelong inability to visualise (Cortex, 2015;73:378-80). Since then we have heard from around 14,000 people, most reporting lifelong aphantasia, or its converse hyperphantasia, but also less common ‘acquired’ imagery loss resulting from brain injury or psychological disorder. Preliminary analyses suggests association between vividness extremes, occupational preference and reported abilities in face recognition and autobiographical memory. Many people with lifelong aphantasia nevertheless dream visually. Imagery in other modalities is variably affected. Extreme imagery appears to run in families more often than would be expected by chance. I will describe the findings of our recent pilot study of neuropsychological and brain imaging signatures of extreme imagery, and place our study of a- and hyper-phantasia in the context of the Eye’s Mind project, an interdisciplinary collaboration funded by the AHRC [1]. In addition to our work on extreme imagery, we have reviewed the intellectual history of visual imagery [2] and undertaken a recent ALE meta-analysis of functional imaging studies of visualisation [3] in single trials. Thus, well-orchestrated neural dynamics in the frontal cortex underlie the flexible control of SWM. References [1]: http://medicine.exeter.ac.uk/research/neuroscience/theeyesmind/ [2]: MacKisack et al, Frontiers in Psychology, 515:1-16. doi: 10.3389/fpsyg.2016.00515 [3]: Winlove et al, Cortex, 2018 https://doi.org/10.1016/j.cortex.2017.12.014
responsiblesBlancho

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submittedpublished2023/04/13 12:40 UTC
speakers
Zeman
Event #498586 - created on 2023/03/23