Closely overlapping responses to tools and hands in left lateral occipitotemporal cortex

Bracci, Stefania; Cavina-Pratesi, Cristiana; Ietswaart, Magdalena; Caramazza, Alfonso; Peelen, Marius V.

doi:10.1152/jn.00619.2011

Cited by 171 publications

(175 citation statements)

References 61 publications

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“…More recently, Kanwisher and colleagues (Saygin et al, 2016; Osher et al, 2015) have presented compelling evidence that there is a high degree of topographical alignment between patterns of structural connectivity and patterns of category preferences. Another line of work by Peelen and colleagues (Bracci et al, 2012) has shown a tight coupling between neural specificity for hands and tools in lateral posterior temporal cortex and functional connectivity with somatosensory cortex. Taken together, we would suggest that a connectivity constrained account of the origin of category-specificity in the ventral stream is able to explain a set of facts that would otherwise seem disconnected on an account that prioritized visual experience as the principal source of organizational constraints that lead to biases by semantic domain:…”

Section: Discussionmentioning

confidence: 99%

Connectivity-based constraints on category-specificity in the ventral object processing pathway

et al. 2017

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Recent efforts to characterize visual object representations in the ventral object processing pathway in the human brain have led to contrasting proposals about the causes of neural specificity for different categories. Here we use multivariate techniques in a novel way to relate patterns of functional connectivity to patterns of stimulus preferences. Stimulus preferences were measured throughout the ventral stream to tools, animals, faces and places; separately, we measured the strength of functional connectivity of each voxel in the ventral stream to category-preferring regions outside the ventral stream. Multivariate analyses were then performed over ventral stream voxels, relating ‘category-preferences’ to ‘functional connectivity preferences’. We show that the relation of those two measures doubly dissociates ‘tools’ and ‘places’, within what is ostensibly ‘place’ selective cortex (parahippocampal gyrus). Specifically, in the parahippocampal gyrus, functional connectivity to the left inferior parietal lobule is selectively related to stimulus preferences for tools (and not places), while functional connectivity to retrosplenial cortex is selectively related to place preferences (and not tools preferences). These findings indicate that functional connectivity can be used to index representational content rather than just provide an understanding of ‘which regions are talking to which regions’. We suggest that the connectivity of the brain is what drives category-specificity in the ventral stream, and that if this is correct, then understanding the connectivity of the ventral stream will be key to understanding the causes and function of category-specific neural organization.

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Section: Discussionmentioning

confidence: 99%

Connectivity-based constraints on category-specificity in the ventral object processing pathway

et al. 2017

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“…This denominator was chosen because the index would thus be less influenced by relative size differences between ROIs compared to other possibilities (e.g., the average size or the unique voxels in the two ROIs) (Bracci et al, 2012). The thresholds were set to p b 0.05 (Bonferroni corrected; fixed effect) for the scene localizer to separate PPA ROIs from those extending to elsewhere, and p b .01 (uncorrected, cluster size > 7 resampled voxels, 189 mm 3 ; random effect; resulting in a conjunction threshold of p b .001) for each contrast of the conjunction results of large nonmanipulable objects selectivity (large nonmanipulable > tool and large nonmanipulable > animal) in the sighted group's auditory, the blind group's auditory, and the sighted group's picture-viewing experiments.…”

Section: Relation Between Areas Showing Large Nonmanipulable Object Smentioning

confidence: 99%

Selectivity for large nonmanipulable objects in scene-selective visual cortex does not require visual experience

et al. 2013

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“…The advent of fMRI has afforded us the opportunity to examine the brain mechanisms associated with tool use and it has revealed a number of left-hemisphere areas implicated in the use of vision for guiding actions (the dorsal stream from occipito-parietal cortex to motor cortex) and for recognizing objects (the ventral stream in occipito-temporal cortex; Goodale & Milner, 1992). Historically, to localize the "tool network", brain activity associated with viewing pictures of tools has been contrasted against activity when viewing pictures of control stimuli such animals, buildings (Chao & Martin, 2000), chairs (Bracci et al, 2012), scrambled images (Creem-Regehr & Lee, 2005), or other non-tool shapes. These contrasts have reliably identified tool-selective areas such as dorsal regions like the superior parietal lobule (SPL), ventral pre-motor cortex (PMv), and ventral areas like the middle temporal gyrus (MTG), particularly in the left hemisphere.…”

Section: Introductionmentioning

confidence: 99%

Do human brain areas involved in visuomotor actions show a preference for real tools over visually similar non-tools?

Macdonald

Culham

2015

Neuropsychologia

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Closely overlapping responses to tools and hands in left lateral occipitotemporal cortex

Cited by 171 publications

References 61 publications

Connectivity-based constraints on category-specificity in the ventral object processing pathway

Connectivity-based constraints on category-specificity in the ventral object processing pathway

Selectivity for large nonmanipulable objects in scene-selective visual cortex does not require visual experience

Do human brain areas involved in visuomotor actions show a preference for real tools over visually similar non-tools?

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