Abstract
Broca's region can be subdivided into its constituent areas 44 and 45 based on established differences in connectivity to superior temporal and inferior parietal regions. The current study builds on our previous work manually parcellating Broca's area on the individual-level by applying these anatomical criteria to functional connectivity data. Here we present an automated observer-independent and anatomy-informed parcellation pipeline with comparable precision to the manual labels at the individual-level. The method first extracts individualized connectivity templates of areas 44 and 45 by assigning to each surface vertex within the ventrolateral frontal cortex the partial correlation value of its functional connectivity to group-level templates of areas 44 and 45, accounting for other template connectivity patterns. To account for cross-subject variability in connectivity, the partial correlation procedure is then repeated using individual-level network templates, including individual-level connectivity from areas 44 and 45. Each node is finally labeled as area 44, 45, or neither, using a winner-take-all approach. The method also incorporates prior knowledge of anatomical location by weighting the results using spatial probability maps. The resulting area labels show a high degree of spatial overlap with the gold-standard manual labels, and group-average area maps are consistent with cytoarchitectonic probability maps of areas 44 and 45. To facilitate reproducibility and to demonstrate that the method can be applied to resting-state fMRI datasets with varying acquisition and preprocessing parameters, the labeling procedure is applied to two open-source datasets from the Human Connectome Project and the Nathan Kline Institute Rockland Sample. While the current study focuses on Broca's region, the method is adaptable to parcellate other cortical regions with distinct connectivity profiles.
Highlights
Broca's region is one of the most widely studied brain areas because of its historical significance and critical role in language processing (Sahin et al, 2009)
Located on the inferior frontal gyrus in the language-dominant hemisphere, it can be subdivided into its constituent areas 44 and 45 based on cytoarchitectonic boundaries that roughly correspond to the macroanatomical landmarks of the pars opercularis and pars triangularis respectively (Amunts et al, 1999; Petrides and Pandya, 2002)
To demonstrate the improvement of the parcellation results when anatomical information is incorporated via spatial weighting of the partial correlation maps, results are presented without the application of spatial weighting
Summary
Broca's region is one of the most widely studied brain areas because of its historical significance and critical role in language processing (Sahin et al, 2009). Located on the inferior frontal gyrus in the language-dominant hemisphere, it can be subdivided into its constituent areas 44 and 45 based on cytoarchitectonic boundaries that roughly correspond to the macroanatomical landmarks of the pars opercularis and pars triangularis respectively (Amunts et al, 1999; Petrides and Pandya, 2002). Based on this knowledge, it is common in neuropsychological research to make use of morphologically defined regions-ofinterest (ROIs) as proxies for areas 44 and 45. Tailoring cortical parcellation approaches to the individual brain is critical in order to capture the unique functional and morphological characteristics of each subject with precision, and this can be done by applying similar principles as those used for the dual regression
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