Heterogeneous growth of the insula shapes the human brain

Author:

Mallela Arka N.1ORCID,Deng Hansen1,Gholipour Ali23ORCID,Warfield Simon K.23ORCID,Goldschmidt Ezequiel24

Affiliation:

1. Department of Neurological Surgery, University of Pittsburgh Medical Center, Pittsburgh, PA 15213

2. Department of Radiology, Harvard Medical School, Boston, MA 02115

3. Department of Radiology, Boston Children’s Hospital, Boston, MA 02115

4. Department of Neurological Surgery, University of California San Francisco, San Francisco, CA 94143

Abstract

The human cerebrum consists of a precise and stereotyped arrangement of lobes, primary gyri, and connectivity that underlies human cognition [P. Rakic, Nat. Rev. Neurosci. 10 , 724–735 (2009)]. The development of this arrangement is less clear. Current models explain individual primary gyrification but largely do not account for the global configuration of the cerebral lobes [T. Tallinen, J. Y. Chung, J. S. Biggins, L. Mahadevan, Proc. Natl. Acad. Sci. U.S.A. 111 , 12667–12672 (2014) and D. C. Van Essen, Nature 385 , 313–318 (1997)]. The insula, buried in the depths of the Sylvian fissure, is unique in terms of gyral anatomy and size. Here, we quantitatively show that the insula has unique morphology and location in the cerebrum and that these key differences emerge during fetal development. Finally, we identify quantitative differences in developmental migration patterns to the insula that may underlie these differences. We calculated morphologic data in the insula and other lobes in adults (N = 107) and in an in utero fetal brain atlas (N = 81 healthy fetuses). In utero, the insula grows an order of magnitude slower than the other lobes and demonstrates shallower sulci, less curvature, and less surface complexity both in adults and progressively throughout fetal development. Spherical projection analysis demonstrates that the lenticular nuclei obstruct 60 to 70% of radial pathways from the ventricular zone (VZ) to the insula, forcing a curved migration to the insula in contrast to a direct radial pathway. Using fetal diffusion tractography, we identify radial glial fascicles that originate from the VZ and curve around the lenticular nuclei to form the insula. These results confirm existing models of radial migration to the cortex and illustrate findings that suggest differential insular and cerebral development, laying the groundwork to understand cerebral malformations and insular function and pathologies.

Funder

Burroughs Wellcome Fund

American Association of Neurological Surgeons

HHS | National Institutes of Health

McKnight Foundation

Publisher

Proceedings of the National Academy of Sciences

Subject

Multidisciplinary

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