Neuroanatomical and functional dissociations between variably present anterior lateral prefrontal sulci

Willbrand, Ethan H.; Bunge, Silvia A.; Weiner, Kevin S.

doi:10.1101/2023.05.25.542301

Cited by 5 publications

(3 citation statements)

References 116 publications

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“…Notably, the studies covered different age ranges-ages 22-36 vs. 6-18-and also used different cognitive measures [our previous study used WISC-IV Matrix Reasoning task (Wechsler 1949) and the Woodcock-Johnson Psychoeducational Battery Cross Out task (Brown et al 2012)]. Thus, taken together, these findings establish a robust anatomical-behavioral association that does not generalize to all forms of cognition or to all sulci, which converges with the observed functional dissociation between neighboring sulcal components (Willbrand et al 2023a).…”

Section: Discussionmentioning

confidence: 62%

“…We found that children and adults with left pimfs-v had on average 28% and 34% higher reasoning scores, respectively, than those without it. In the same sample of younger adults, we recently showed that pimfs-v and pimfs-d exhibited different patterns of large-scale resting-state functional connectivity, whereby the pimfs-v was associated with control-related networks and the pimfs-d was associated with attention-related networks (Willbrand et al 2023a). Thus, the present behavioral dissociation between these sulcal components likely stems from participation in different brain networks and cognitive functions.…”

Section: Discussionmentioning

confidence: 98%

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Sulcal variability in anterior lateral prefrontal cortex contributes to variability in reasoning performance among young adults

Willbrand

Jackson

Chen

et al. 2023

Preprint

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Identifying structural-functional correspondences is a major goal among biologists. In neurobiology, recent findings identify relationships between performance on cognitive tasks and the presence or absence of small, shallow indentations, or sulci, of the human brain. Here, we tested if the presence or absence of one such sulcus, the paraintermediate frontal sulcus (pimfs-v) in lateral prefrontal cortex, was related to relational reasoning in young adults from the Human Connectome Project (ages 22-36). After manually identifying 2,877 sulci across 144 hemispheres, our results indicate that the presence of the pimfs-v in the left hemisphere was associated with a 21-34% higher performance on a relational reasoning task. These findings have direct developmental and evolutionary relevance as recent work shows that the presence or absence of the pimfs-v is also related to reasoning performance in a pediatric cohort, and that the pimfs-v is exceedingly rare in chimpanzees. Thus, the pimfs-v is a novel developmental, cognitive, and evolutionarily relevant feature that should be considered in future studies examining how the complex relationships among multiscale anatomical and functional features of the brain give rise to abstract thought.

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Section: Discussionmentioning

confidence: 62%

Section: Discussionmentioning

confidence: 98%

Sulcal variability in anterior lateral prefrontal cortex contributes to variability in reasoning performance among young adults

Willbrand

Jackson

Chen

et al. 2023

Preprint

Self Cite

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“…To determine if the slocs-v is functionally distinct from surrounding sulci, we generated functional connectivity profiles using recently developed analyses [12,13,53]. First, we used resting-state network parcellations for each individual participant from Kong and colleagues [54],…”

Section: (F) Functional Analysesmentioning

confidence: 99%

Updating the sulcal landscape of the human lateral parieto-occipital junction provides anatomical, functional, and cognitive insights

Willbrand,

Tsai,

Gagnant

et al. 2023

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Understanding the tripartite relationship among neuroanatomy, brain function, and cognition is of major interest across neurobiological subdisciplines. Recent advances in neuroimaging have uncovered neuroanatomical structures in evolutionarily-expanded portions of the brain that are related to individual differences in brain function and cognition. Here, we explored this relationship in lateral parietal cortex (LPC), a region crucial for many higher-level cognitive abilities. To do so, we manually defined 2176 individual sulci across 144 hemispheres. We identified four small and shallow indentations of the cerebral cortex (sulci) that were previously unidentified in the lateral parieto-occipital junction (LPOJ) and LPC. One of these sulci (ventral supralateral occipital sulcus, slocs-v) is present in nearly every hemisphere, and is morphologically, architecturally, and functionally dissociable from neighboring sulci. Implementing a data-driven, model-based approach relating sulcal depth to behavior identified different relationships of ventral and dorsal LPC/LPOJ sulcal networks contributing to the perception of spatial orientation. The model identified the slocs-v, further indicating the importance of this new neuroanatomical structure. Our findings build on classic neuroanatomical theories and identify new neuroanatomical targets for future “precision imaging” studies exploring the relationship among brain structure, brain function, and cognitive abilities at the level of the individual participant.

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Sulcal variability in anterior lateral prefrontal cortex contributes to variability in reasoning performance among young adults

Willbrand,

Jackson,

Chen

et al. 2024

Brain Struct Funct

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Neuroanatomical and functional dissociations between variably present anterior lateral prefrontal sulci

Cited by 5 publications

References 116 publications

Sulcal variability in anterior lateral prefrontal cortex contributes to variability in reasoning performance among young adults

Sulcal variability in anterior lateral prefrontal cortex contributes to variability in reasoning performance among young adults

Updating the sulcal landscape of the human lateral parieto-occipital junction provides anatomical, functional, and cognitive insights

Sulcal variability in anterior lateral prefrontal cortex contributes to variability in reasoning performance among young adults

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