Pierre Estienne scite author profile

Pierre Estienne

2Publications

5Citation Statements Received

196Citation Statements Given

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185

Affiliations

Institut des Neurosciences Paris-Saclay, Institut Polytechnique de Paris, University of Paris-Saclay

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Different ways of evolving tool-using brains in teleosts and amniotes

Estienne

Simion

Hagio

et al. 2022

Preprint

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In mammals and birds, tool-using species are characterized by a high degree of encephalization with a relatively large telencephalon containing a higher proportion of total brain neurons compared to other species. Some teleost species in the wrasse family have convergently evolved tool-using abilities. In this study, we compared the brains of tool-using wrasses with various teleost species from a broad phylogenetic range. We show that in the tool-using wrasses, the telencephalon and the ventral part of the forebrain and midbrain are significantly enlarged compared to other teleost species, but do not contain a larger proportion of cells. Instead, this size difference is due to large fiber tracts connecting the dorsal part of the telencephalon (pallium) to the inferior lobe (IL), a ventral mesencephalic structure absent in amniotes. Such tracts were not present in other teleost species such as trout, zebrafish, or the Astyanax surface fish. The high degree of connectivity between the IL and the pallium in tool-using wrasses suggests that this unique teleostean structure contributes to higher-order cognitive functions. Considering how remarkably different their overall brain organization is, we conclude that, unlike in amniotes, the evolution of non telencephalic structures might have been key in the emergence of higher-order cognitive functions in teleosts.

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Towards an ultra-high resolution structural connectivity atlas of the parrot brain using extreme high-field 17.2T diffusion MRI

Uszynski¹,

Ciobanu²,

Bardin³

et al.

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The cognitive abilities of parrots are known to be highly developed to the extent of matching those exhibited by crows and primates. However, little is known about the anatomy and structural connectivity of the parrot’s brain. In this work, we propose to use the power of diffusion MRI along with the strong gradients of a unique 17.2T preclinical MRI system to deliver a first white matter atlas of the parrot brain.

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Pierre Estienne

Different ways of evolving tool-using brains in teleosts and amniotes

Towards an ultra-high resolution structural connectivity atlas of the parrot brain using extreme high-field 17.2T diffusion MRI

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