Decoding Sound and Imagery Content in Early Visual Cortex

Decoding Sound and Imagery Content in Early Visual Cortex

Human early visual cortex was traditionally thought to process simple visual features such as orientation, contrast, and spatial frequency via feedforward input from the lateral geniculate nucleus (e.g., [1]). However, the role of nonretinal influence on early visual cortex is so far insufficiently...

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Bibliographic Details
Published in:Current biology Vol. 24; no. 11; pp. 1256 - 1262
Main Authors: Vetter, Petra, Smith, Fraser W., Muckli, Lars
Format: Journal Article
Language:English
Published: England Elsevier Inc 02-06-2014
Cell Press
Subjects:
Acoustic Stimulation
Auditory Perception
Humans
Magnetic Resonance Imaging
Memory, Short-Term
Photic Stimulation
Visual Cortex - physiology
Visual Perception
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Summary:Human early visual cortex was traditionally thought to process simple visual features such as orientation, contrast, and spatial frequency via feedforward input from the lateral geniculate nucleus (e.g., [1]). However, the role of nonretinal influence on early visual cortex is so far insufficiently investigated despite much evidence that feedback connections greatly outnumber feedforward connections [2–5]. Here, we explored in five fMRI experiments how information originating from audition and imagery affects the brain activity patterns in early visual cortex in the absence of any feedforward visual stimulation. We show that category-specific information from both complex natural sounds and imagery can be read out from early visual cortex activity in blindfolded participants. The coding of nonretinal information in the activity patterns of early visual cortex is common across actual auditory perception and imagery and may be mediated by higher-level multisensory areas. Furthermore, this coding is robust to mild manipulations of attention and working memory but affected by orthogonal, cognitively demanding visuospatial processing. Crucially, the information fed down to early visual cortex is category specific and generalizes to sound exemplars of the same category, providing evidence for abstract information feedback rather than precise pictorial feedback. Our results suggest that early visual cortex receives nonretinal input from other brain areas when it is generated by auditory perception and/or imagery, and this input carries common abstract information. Our findings are compatible with feedback of predictive information to the earliest visual input level (e.g., [6]), in line with predictive coding models [7–10]. •Early visual cortex receives nonretinal input carrying abstract information•Both auditory perception and imagery generate consistent top-down input•Information feedback may be mediated by multisensory areas•Feedback is robust to attentional, but not visuospatial, manipulation Vetter et al. show that category-specific information from both complex natural sounds and imagery can be read out from early visual cortex activity in blindfolded participants. This is evidence for nonretinal abstract information feedback to early visual cortex, compatible with predictive coding models.
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Present address: School of Psychology, University of East Anglia, Norwich Research Park, Norwich NR4 7TJ, UK
ISSN:0960-9822
1879-0445
DOI:10.1016/j.cub.2014.04.020