A Dynamic Causal Modeling Study on Category Effects: Bottom-Up or Top-Down Mediation?

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A Dynamic Causal Modeling Study on Category Effects: Bottom-Up or Top-Down Mediation?

Andrea Mechelli, Cathy J. Price, Uta Noppeney and Karl J. Friston

Institute of Neurology, London, UK

ABSTRACT

In this study, we combined functional magnetic resonance imaging(fMRI) and dynamic causal modeling (DCM) to investigate whetherobject category effects in the occipital and temporal cortexare mediated by inputs from early visual cortex or parietalregions. Resolving this issue may provide anatomical constraintson theories of category specificity—which make differentassumptions about the underlying neurophysiology. The data wereacquired by Ishai, Ungerleider, Martin, Schouten, and Haxby(1999, 2000) and provided by the National fMRI Data Center (http://www.fmridc.org).The original authors used a conventional analysis to estimatedifferential effects in the occipital and temporal cortex inresponse to pictures of chairs, faces, and houses. We extendedthis approach by estimating neuronal interactions that mediatecategory effects using DCM. DCM uses a Bayesian framework toestimate and make inferences about the influence that one regionexerts over another and how this is affected by experimentalchanges. DCM differs from previous approaches to brain connectivity,such as multivariate autoregressive models and structural equationmodeling, as it assumes that the observed hemodynamic responsesare driven by experimental changes rather than endogenous noise.DCM therefore brings the analysis of brain connectivity muchcloser to the analysis of regionally specific effects usuallyapplied to functional imaging data. We used DCM to estimatethe influence that V3 and the superior/inferior parietal cortexexerted over category-responsive regions and how this was affectedby the presentation of houses, faces, and chairs. We found thatcategory effects in occipital and temporal cortex were mediatedby inputs from early visual cortex. In contrast, the connectivityfrom the superior/inferior parietal area to the category-responsiveareas was unaffected by the presentation of chairs, faces, orhouses. These findings indicate that category effects in theoccipital and temporal cortex can be mediated by bottom-up mechanisms—afinding that needs to be embraced by models of category specificity.

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