A revised perspective on the evolution of the lateral frontal cortex in primates

Céline Amiez; Jérôme Sallet; Camille Giacometti; Charles Verstraete; Clémence Gandaux; Valentine Morel-Latour; Adrien Meguerditchian; Fadila Hadj-Bouziane; Suliann Ben Hamed; William D. Hopkins; Emmanuel Procyk; Charles R.E. Wilson; Michael Petrides

doi:10.1126/sciadv.adf9445

A revised perspective on the evolution of the lateral frontal cortex in primates

Céline Amiez, Jérôme Sallet, Camille Giacometti, Charles Verstraete, Clémence Gandaux, Valentine Morel-Latour, Adrien Meguerditchian, Fadila Hadj-Bouziane, Suliann Ben Hamed, William D. Hopkins, Emmanuel Procyk, Charles R.E. Wilson, Michael Petrides

Research output: Contribution to journal › Article › peer-review

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Abstract

Detailed neuroscientific data from macaque monkeys have been essential in advancing understanding of human frontal cortex function, particularly for regions of frontal cortex without homologs in other model species. However, precise transfer of this knowledge for direct use in human applications requires an understanding of monkey to hominid homologies, particularly whether and how sulci and cytoarchitectonic regions in the frontal cortex of macaques relate to those in hominids. We combine sulcal pattern analysis with resting-state functional magnetic resonance imaging and cytoarchitectonic analysis to show that oldworld monkey brains have the same principles of organization as hominid brains, with the notable exception of sulci in the frontopolar cortex. This essential comparative framework provides insights into primate brain evolution and a key tool to drive translation from invasive research in monkeys to human applications.

Original language	English (US)
Article number	eadf9445
Journal	Science Advances
Volume	9
Issue number	20
DOIs	https://doi.org/10.1126/sciadv.adf9445
State	Published - 2023
Externally published	Yes

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Amiez, C., Sallet, J., Giacometti, C., Verstraete, C., Gandaux, C., Morel-Latour, V., Meguerditchian, A., Hadj-Bouziane, F., Ben Hamed, S., Hopkins, W. D., Procyk, E., Wilson, C. R. E., & Petrides, M. (2023). A revised perspective on the evolution of the lateral frontal cortex in primates. Science Advances, 9(20), Article eadf9445. https://doi.org/10.1126/sciadv.adf9445

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abstract = "Detailed neuroscientific data from macaque monkeys have been essential in advancing understanding of human frontal cortex function, particularly for regions of frontal cortex without homologs in other model species. However, precise transfer of this knowledge for direct use in human applications requires an understanding of monkey to hominid homologies, particularly whether and how sulci and cytoarchitectonic regions in the frontal cortex of macaques relate to those in hominids. We combine sulcal pattern analysis with resting-state functional magnetic resonance imaging and cytoarchitectonic analysis to show that oldworld monkey brains have the same principles of organization as hominid brains, with the notable exception of sulci in the frontopolar cortex. This essential comparative framework provides insights into primate brain evolution and a key tool to drive translation from invasive research in monkeys to human applications.",

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AU - Sallet, Jérôme

AU - Giacometti, Camille

AU - Verstraete, Charles

AU - Gandaux, Clémence

AU - Morel-Latour, Valentine

AU - Meguerditchian, Adrien

AU - Hadj-Bouziane, Fadila

AU - Ben Hamed, Suliann

AU - Hopkins, William D.

AU - Procyk, Emmanuel

AU - Wilson, Charles R.E.

AU - Petrides, Michael

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AB - Detailed neuroscientific data from macaque monkeys have been essential in advancing understanding of human frontal cortex function, particularly for regions of frontal cortex without homologs in other model species. However, precise transfer of this knowledge for direct use in human applications requires an understanding of monkey to hominid homologies, particularly whether and how sulci and cytoarchitectonic regions in the frontal cortex of macaques relate to those in hominids. We combine sulcal pattern analysis with resting-state functional magnetic resonance imaging and cytoarchitectonic analysis to show that oldworld monkey brains have the same principles of organization as hominid brains, with the notable exception of sulci in the frontopolar cortex. This essential comparative framework provides insights into primate brain evolution and a key tool to drive translation from invasive research in monkeys to human applications.

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A revised perspective on the evolution of the lateral frontal cortex in primates

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