Cellular correlates of gray matter volume changes in magnetic resonance morphometry identified by two-photon microscopy

Livia Asan; Claudia Falfán-Melgoza; Carlo A. Beretta; Markus Sack; Lei Zheng; Wolfgang Weber-Fahr; Thomas Kuner; Johannes Knabbe

doi:10.1038/s41598-021-83491-8

Scientific Reports (Feb 2021)

Cellular correlates of gray matter volume changes in magnetic resonance morphometry identified by two-photon microscopy

Livia Asan,
Claudia Falfán-Melgoza,
Carlo A. Beretta,
Markus Sack,
Lei Zheng,
Wolfgang Weber-Fahr,
Thomas Kuner,
Johannes Knabbe

Affiliations

Livia Asan: Department of Functional Neuroanatomy, Institute for Anatomy and Cell Biology, Heidelberg University
Claudia Falfán-Melgoza: Translational Imaging Research Group, Central Institute of Mental Health, Medical Faculty of Mannheim, Heidelberg University
Carlo A. Beretta: Department of Functional Neuroanatomy, Institute for Anatomy and Cell Biology, Heidelberg University
Markus Sack: Translational Imaging Research Group, Central Institute of Mental Health, Medical Faculty of Mannheim, Heidelberg University
Lei Zheng: Translational Imaging Research Group, Central Institute of Mental Health, Medical Faculty of Mannheim, Heidelberg University
Wolfgang Weber-Fahr: Translational Imaging Research Group, Central Institute of Mental Health, Medical Faculty of Mannheim, Heidelberg University
Thomas Kuner: Department of Functional Neuroanatomy, Institute for Anatomy and Cell Biology, Heidelberg University
Johannes Knabbe: Department of Functional Neuroanatomy, Institute for Anatomy and Cell Biology, Heidelberg University

DOI: https://doi.org/10.1038/s41598-021-83491-8
Journal volume & issue: Vol. 11, no. 1
pp. 1 – 20

Abstract

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Abstract Magnetic resonance imaging (MRI) of the brain combined with voxel-based morphometry (VBM) revealed changes in gray matter volume (GMV) in various disorders. However, the cellular basis of GMV changes has remained largely unclear. We correlated changes in GMV with cellular metrics by imaging mice with MRI and two-photon in vivo microscopy at three time points within 12 weeks, taking advantage of age-dependent changes in brain structure. Imaging fluorescent cell nuclei allowed inferences on (i) physical tissue volume as determined from reference spaces outlined by nuclei, (ii) cell density, (iii) the extent of cell clustering, and (iv) the volume of cell nuclei. Our data indicate that physical tissue volume alterations only account for 13.0% of the variance in GMV change. However, when including comprehensive measurements of nucleus volume and cell density, 35.6% of the GMV variance could be explained, highlighting the influence of distinct cellular mechanisms on VBM results.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

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