Author
Listed:
- Stefano Anzellotti
- Alfonso Caramazza
- Rebecca Saxe
Abstract
When we perform a cognitive task, multiple brain regions are engaged. Understanding how these regions interact is a fundamental step to uncover the neural bases of behavior. Most research on the interactions between brain regions has focused on the univariate responses in the regions. However, fine grained patterns of response encode important information, as shown by multivariate pattern analysis. In the present article, we introduce and apply multivariate pattern dependence (MVPD): a technique to study the statistical dependence between brain regions in humans in terms of the multivariate relations between their patterns of responses. MVPD characterizes the responses in each brain region as trajectories in region-specific multidimensional spaces, and models the multivariate relationship between these trajectories. We applied MVPD to the posterior superior temporal sulcus (pSTS) and to the fusiform face area (FFA), using a searchlight approach to reveal interactions between these seed regions and the rest of the brain. Across two different experiments, MVPD identified significant statistical dependence not detected by standard functional connectivity. Additionally, MVPD outperformed univariate connectivity in its ability to explain independent variance in the responses of individual voxels. In the end, MVPD uncovered different connectivity profiles associated with different representational subspaces of FFA: the first principal component of FFA shows differential connectivity with occipital and parietal regions implicated in the processing of low-level properties of faces, while the second and third components show differential connectivity with anterior temporal regions implicated in the processing of invariant representations of face identity.Author summary: Human behavior is supported by systems of brain regions that exchange information to complete a task. This exchange of information between brain regions leads to statistical relationships between their responses over time. Most likely, these relationships do not link only the mean responses in two brain regions, but also their finer spatial patterns. Analyzing finer response patterns has been a key advance in the study of responses within individual regions, and can be leveraged to study between-region interactions. To capture the overall statistical relationship between two brain regions, we need to describe each region’s responses with respect to dimensions that best account for the variation in that region over time. These dimensions can be different from region to region. We introduce an approach in which each region’s responses are characterized in terms of region-specific dimensions that best account for its responses, and the relationships between regions are modeled with multivariate linear models. We demonstrate that this approach provides a better account of the data as compared to standard functional connectivity in two different experiments, and we use it to discover multiple dimensions within the fusiform face area that have different connectivity profiles with the rest of the brain.
Suggested Citation
Stefano Anzellotti & Alfonso Caramazza & Rebecca Saxe, 2017.
"Multivariate pattern dependence,"
PLOS Computational Biology, Public Library of Science, vol. 13(11), pages 1-20, November.
Handle:
RePEc:plo:pcbi00:1005799
DOI: 10.1371/journal.pcbi.1005799
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Citations
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Cited by:
- Yichen Li & Rebecca Saxe & Stefano Anzellotti, 2019.
"Intersubject MVPD: Empirical comparison of fMRI denoising methods for connectivity analysis,"
PLOS ONE, Public Library of Science, vol. 14(9), pages 1-18, September.
- Alessio Basti & Marieke Mur & Nikolaus Kriegeskorte & Vittorio Pizzella & Laura Marzetti & Olaf Hauk, 2019.
"Analysing linear multivariate pattern transformations in neuroimaging data,"
PLOS ONE, Public Library of Science, vol. 14(10), pages 1-23, October.
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