Body size and intracranial volume interact with the structure of the central nervous system: A multi-center in vivo neuroimaging study

René Labounek; Monica T. Bondy; Amy L. Paulson; Sandrine Bédard; Mihael Abramovic; Eva Alonso-Ortiz; Nicole T. Atcheson; Laura R. Barlow; Robert L. Barry; Markus Barth; Marco Battiston; Christian Büchel; Matthew D. Budde; Virginie Callot; Anna Combes; Benjamin De Leener; Maxime Descoteaux; Paulo Loureiro de Sousa; Marek Dostál; Julien Doyon; Adam V. Dvorak; Falk Eippert; Karla R. Epperson; Kevin S. Epperson; Patrick Freund; Jürgen Finsterbusch; Alexandru Foias; Michela Fratini; Issei Fukunaga; Claudia A.M.Gandini Wheeler-Kingshott; Gian Carlo Germani; Guillaume Gilbert; Federico Giove; Francesco Grussu; Akifumi Hagiwara; Pierre Gilles Henry; Tomáš Horák; Masaaki Hori; James M. Joers; Kouhei Kamiya; Haleh Karbasforoushan; Miloš Keřkovský; Ali Khatibi; Joo Won Kim; Nawal Kinany; Hagen Kitzler; Shannon Kolind; Yazhuo Kong; Petr Kudlička; Paul Kuntke; Nyoman D. Kurniawan; Slawomir Kusmia; Maria Marcella Laganà; Cornelia Laule; Christine S.W. Law; Tobias Leutritz; Yaou Liu; Sara Llufriu; Sean Mackey; Allan R. Martin; Eloy Martinez-Heras; Loan Mattera; Kristin P. O’Grady; Nico Papinutto; Daniel Papp; Deborah Pareto; Todd B. Parrish; Anna Pichiecchio; Ferran Prados; Àlex Rovira; Marc J. Ruitenberg; Rebecca S. Samson; Giovanni Savini; Maryam Seif; Alan C. Seifert; Alex K. Smith; Seth A. Smith; Zachary A. Smith; Elisabeth Solana; Yuichi Suzuki; George W. Tackley; Alexandra Tinnermann; Jan Valošek; Dimitri Van De Ville; Marios C. Yiannakas; Kenneth A. Weber; Nikolaus Weiskopf; Richard G. Wise; Patrik O. Wyss; Junqian Xu; Julien Cohen-Adad; Christophe Lenglet; Igor Nestrašil

doi:10.1162/imag_a_00559

Body size and intracranial volume interact with the structure of the central nervous system: A multi-center in vivo neuroimaging study

René Labounek
, Monica T. Bondy
, Amy L. Paulson
, Sandrine Bédard
, Mihael Abramovic
, Eva Alonso-Ortiz
, Nicole T. Atcheson
, Laura R. Barlow
, Robert L. Barry
, Markus Barth
, Marco Battiston
, Christian Büchel
, Matthew D. Budde
, Virginie Callot
, Anna Combes
, Benjamin De Leener
, Maxime Descoteaux
, Paulo Loureiro de Sousa
, Marek Dostál
, Julien Doyon

Adam V. Dvorak, Falk Eippert, Karla R. Epperson, Kevin S. Epperson, Patrick Freund, Jürgen Finsterbusch, Alexandru Foias, Michela Fratini, Issei Fukunaga, Claudia A.M.Gandini Wheeler-Kingshott, Gian Carlo Germani, Guillaume Gilbert, Federico Giove, Francesco Grussu, Akifumi Hagiwara, Pierre Gilles Henry, Tomáš Horák, Masaaki Hori, James M. Joers, Kouhei Kamiya, Haleh Karbasforoushan, Miloš Keřkovský, Ali Khatibi, Joo Won Kim, Nawal Kinany, Hagen Kitzler, Shannon Kolind, Yazhuo Kong, Petr Kudlička, Paul Kuntke, Nyoman D. Kurniawan, Slawomir Kusmia, Maria Marcella Laganà, Cornelia Laule, Christine S.W. Law, Tobias Leutritz, Yaou Liu, Sara Llufriu, Sean Mackey, Allan R. Martin, Eloy Martinez-Heras, Loan Mattera, Kristin P. O’Grady, Nico Papinutto, Daniel Papp, Deborah Pareto, Todd B. Parrish, Anna Pichiecchio, Ferran Prados, Àlex Rovira, Marc J. Ruitenberg, Rebecca S. Samson, Giovanni Savini, Maryam Seif, Alan C. Seifert, Alex K. Smith, Seth A. Smith, Zachary A. Smith, Elisabeth Solana, Yuichi Suzuki, George W. Tackley, Alexandra Tinnermann, Jan Valošek, Dimitri Van De Ville, Marios C. Yiannakas, Kenneth A. Weber, Nikolaus Weiskopf, Richard G. Wise, Patrik O. Wyss, Junqian Xu, Julien Cohen-Adad, Christophe Lenglet, Igor Nestrašil

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

Abstract

Clinical research emphasizes the implementation of rigorous and reproducible study designs that rely on between-group matching or controlling for sources of biological variation such as subject’s sex and age. However, corrections for body size (i.e., height and weight) are mostly lacking in clinical neuroimaging designs. This study investigates the importance of body size parameters in their relationship with spinal cord (SC) and brain magnetic resonance imaging (MRI) metrics. Data were derived from a cosmopolitan population of 267 healthy human adults (age 30.1 ± 6.6 years old, 125 females). We show that body height correlates with brain gray matter (GM) volume, cortical GM volume, total cerebellar volume, brainstem volume, and cross-sectional area (CSA) of cervical SC white matter (CSA-WM; 0.44 ≤ r ≤ 0.62). Intracranial volume (ICV) correlates with body height (r = 0.46) and the brain volumes and CSA-WM (0.37 ≤ r ≤ 0.77). In comparison, age correlates with cortical GM volume, precentral GM volume, and cortical thickness (-0.21 ≥ r ≥ -0.27). Body weight correlates with magnetization transfer ratio in the SC WM, dorsal columns, and lateral corticospinal tracts (-0.20 ≥ r ≥ -0.23). Body weight further correlates with the mean diffusivity derived from diffusion tensor imaging (DTI) in SC WM (r = -0.20) and dorsal columns (-0.21), but only in males. CSA-WM correlates with brain volumes (0.39 ≤ r ≤ 0.64), and with precentral gyrus thickness and DTI-based fractional anisotropy in SC dorsal columns and SC lateral corticospinal tracts (-0.22 ≥ r ≥ -0.25). Linear mixture of age, sex, or sex and age, explained 2 ± 2%, 24 ± 10%, or 26 ± 10%, of data variance in brain volumetry and SC CSA. The amount of explained variance increased to 33 ± 11%, 41 ± 17%, or 46 ± 17%, when body height, ICV, or body height and ICV were added into the mixture model. In females, the explained variances halved suggesting another unidentified biological factor(s) determining females’ central nervous system (CNS) morphology. In conclusion, body size and ICV are significant biological variables. Along with sex and age, body size should therefore be included as a mandatory variable in the design of clinical neuroimaging studies examining SC and brain structure; and body size and ICV should be considered as covariates in statistical analyses. Normalization of different brain regions with ICV diminishes their correlations with body size, but simultaneously amplifies ICV-related variance (r = 0.72 ± 0.07) and suppresses volume variance of the different brain regions (r = 0.12 ± 0.19) in the normalized measurements.

Original language	English
Article number	imag_a_00559
Journal	Imaging Neuroscience
Volume	3
DOIs	https://doi.org/10.1162/imag_a_00559
State	Published - 7 May 2025
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2025 The Authors. Published under a Creative Commons Attribution 4.0 International (CC BY 4.0) license.

Keywords

body height and weight
brain
in vivo human neuroimaging
intracranial volume
spinal cord
structural magnetic resonance imaging

ASJC Scopus subject areas

Neuroscience (miscellaneous)
Medicine (miscellaneous)
Radiology Nuclear Medicine and imaging
Clinical Neurology

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10.1162/imag_a_00559

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Labounek, R., Bondy, M. T., Paulson, A. L., Bédard, S., Abramovic, M., Alonso-Ortiz, E., Atcheson, N. T., Barlow, L. R., Barry, R. L., Barth, M., Battiston, M., Büchel, C., Budde, M. D., Callot, V., Combes, A., De Leener, B., Descoteaux, M., de Sousa, P. L., Dostál, M., ... Nestrašil, I. (2025). Body size and intracranial volume interact with the structure of the central nervous system: A multi-center in vivo neuroimaging study. Imaging Neuroscience, 3, Article imag_a_00559. https://doi.org/10.1162/imag_a_00559

@article{fbc19a4dd0a04f569d7acbc451652144,

title = "Body size and intracranial volume interact with the structure of the central nervous system: A multi-center in vivo neuroimaging study",

abstract = "Clinical research emphasizes the implementation of rigorous and reproducible study designs that rely on between-group matching or controlling for sources of biological variation such as subject{\textquoteright}s sex and age. However, corrections for body size (i.e., height and weight) are mostly lacking in clinical neuroimaging designs. This study investigates the importance of body size parameters in their relationship with spinal cord (SC) and brain magnetic resonance imaging (MRI) metrics. Data were derived from a cosmopolitan population of 267 healthy human adults (age 30.1 ± 6.6 years old, 125 females). We show that body height correlates with brain gray matter (GM) volume, cortical GM volume, total cerebellar volume, brainstem volume, and cross-sectional area (CSA) of cervical SC white matter (CSA-WM; 0.44 ≤ r ≤ 0.62). Intracranial volume (ICV) correlates with body height (r = 0.46) and the brain volumes and CSA-WM (0.37 ≤ r ≤ 0.77). In comparison, age correlates with cortical GM volume, precentral GM volume, and cortical thickness (-0.21 ≥ r ≥ -0.27). Body weight correlates with magnetization transfer ratio in the SC WM, dorsal columns, and lateral corticospinal tracts (-0.20 ≥ r ≥ -0.23). Body weight further correlates with the mean diffusivity derived from diffusion tensor imaging (DTI) in SC WM (r = -0.20) and dorsal columns (-0.21), but only in males. CSA-WM correlates with brain volumes (0.39 ≤ r ≤ 0.64), and with precentral gyrus thickness and DTI-based fractional anisotropy in SC dorsal columns and SC lateral corticospinal tracts (-0.22 ≥ r ≥ -0.25). Linear mixture of age, sex, or sex and age, explained 2 ± 2\%, 24 ± 10\%, or 26 ± 10\%, of data variance in brain volumetry and SC CSA. The amount of explained variance increased to 33 ± 11\%, 41 ± 17\%, or 46 ± 17\%, when body height, ICV, or body height and ICV were added into the mixture model. In females, the explained variances halved suggesting another unidentified biological factor(s) determining females{\textquoteright} central nervous system (CNS) morphology. In conclusion, body size and ICV are significant biological variables. Along with sex and age, body size should therefore be included as a mandatory variable in the design of clinical neuroimaging studies examining SC and brain structure; and body size and ICV should be considered as covariates in statistical analyses. Normalization of different brain regions with ICV diminishes their correlations with body size, but simultaneously amplifies ICV-related variance (r = 0.72 ± 0.07) and suppresses volume variance of the different brain regions (r = 0.12 ± 0.19) in the normalized measurements.",

keywords = "body height and weight, brain, in vivo human neuroimaging, intracranial volume, spinal cord, structural magnetic resonance imaging",

author = "Ren{\'e} Labounek and Bondy, \{Monica T.\} and Paulson, \{Amy L.\} and Sandrine B{\'e}dard and Mihael Abramovic and Eva Alonso-Ortiz and Atcheson, \{Nicole T.\} and Barlow, \{Laura R.\} and Barry, \{Robert L.\} and Markus Barth and Marco Battiston and Christian B{\"u}chel and Budde, \{Matthew D.\} and Virginie Callot and Anna Combes and \{De Leener\}, Benjamin and Maxime Descoteaux and \{de Sousa\}, \{Paulo Loureiro\} and Marek Dost{\'a}l and Julien Doyon and Dvorak, \{Adam V.\} and Falk Eippert and Epperson, \{Karla R.\} and Epperson, \{Kevin S.\} and Patrick Freund and J{\"u}rgen Finsterbusch and Alexandru Foias and Michela Fratini and Issei Fukunaga and Wheeler-Kingshott, \{Claudia A.M.Gandini\} and Germani, \{Gian Carlo\} and Guillaume Gilbert and Federico Giove and Francesco Grussu and Akifumi Hagiwara and Henry, \{Pierre Gilles\} and Tom{\'a}{\v s} Hor{\'a}k and Masaaki Hori and Joers, \{James M.\} and Kouhei Kamiya and Haleh Karbasforoushan and Milo{\v s} Ke{\v r}kovsk{\'y} and Ali Khatibi and Kim, \{Joo Won\} and Nawal Kinany and Hagen Kitzler and Shannon Kolind and Yazhuo Kong and Petr Kudli{\v c}ka and Paul Kuntke and Kurniawan, \{Nyoman D.\} and Slawomir Kusmia and Lagan{\`a}, \{Maria Marcella\} and Cornelia Laule and Law, \{Christine S.W.\} and Tobias Leutritz and Yaou Liu and Sara Llufriu and Sean Mackey and Martin, \{Allan R.\} and Eloy Martinez-Heras and Loan Mattera and O{\textquoteright}Grady, \{Kristin P.\} and Nico Papinutto and Daniel Papp and Deborah Pareto and Parrish, \{Todd B.\} and Anna Pichiecchio and Ferran Prados and {\`A}lex Rovira and Ruitenberg, \{Marc J.\} and Samson, \{Rebecca S.\} and Giovanni Savini and Maryam Seif and Seifert, \{Alan C.\} and Smith, \{Alex K.\} and Smith, \{Seth A.\} and Smith, \{Zachary A.\} and Elisabeth Solana and Yuichi Suzuki and Tackley, \{George W.\} and Alexandra Tinnermann and Jan Valo{\v s}ek and \{Van De Ville\}, Dimitri and Yiannakas, \{Marios C.\} and Weber, \{Kenneth A.\} and Nikolaus Weiskopf and Wise, \{Richard G.\} and Wyss, \{Patrik O.\} and Junqian Xu and Julien Cohen-Adad and Christophe Lenglet and Igor Nestra{\v s}il",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors. Published under a Creative Commons Attribution 4.0 International (CC BY 4.0) license.",

year = "2025",

month = may,

day = "7",

doi = "10.1162/imag\_a\_00559",

language = "English",

volume = "3",

journal = "Imaging Neuroscience",

issn = "2837-6056",

}

Labounek, R, Bondy, MT, Paulson, AL, Bédard, S, Abramovic, M, Alonso-Ortiz, E, Atcheson, NT, Barlow, LR, Barry, RL, Barth, M, Battiston, M, Büchel, C, Budde, MD, Callot, V, Combes, A, De Leener, B, Descoteaux, M, de Sousa, PL, Dostál, M, Doyon, J, Dvorak, AV, Eippert, F, Epperson, KR, Epperson, KS, Freund, P, Finsterbusch, J, Foias, A, Fratini, M, Fukunaga, I, Wheeler-Kingshott, CAMG, Germani, GC, Gilbert, G, Giove, F, Grussu, F, Hagiwara, A, Henry, PG, Horák, T, Hori, M, Joers, JM, Kamiya, K, Karbasforoushan, H, Keřkovský, M, Khatibi, A, Kim, JW, Kinany, N, Kitzler, H, Kolind, S, Kong, Y, Kudlička, P, Kuntke, P, Kurniawan, ND, Kusmia, S, Laganà, MM, Laule, C, Law, CSW, Leutritz, T, Liu, Y, Llufriu, S, Mackey, S, Martin, AR, Martinez-Heras, E, Mattera, L, O’Grady, KP, Papinutto, N, Papp, D, Pareto, D, Parrish, TB, Pichiecchio, A, Prados, F, Rovira, À, Ruitenberg, MJ, Samson, RS, Savini, G, Seif, M, Seifert, AC, Smith, AK, Smith, SA, Smith, ZA, Solana, E, Suzuki, Y, Tackley, GW, Tinnermann, A, Valošek, J, Van De Ville, D, Yiannakas, MC, Weber, KA, Weiskopf, N, Wise, RG, Wyss, PO, Xu, J, Cohen-Adad, J, Lenglet, C & Nestrašil, I 2025, 'Body size and intracranial volume interact with the structure of the central nervous system: A multi-center in vivo neuroimaging study', Imaging Neuroscience, vol. 3, imag_a_00559. https://doi.org/10.1162/imag_a_00559

TY - JOUR

T1 - Body size and intracranial volume interact with the structure of the central nervous system

T2 - A multi-center in vivo neuroimaging study

AU - Labounek, René

AU - Bondy, Monica T.

AU - Paulson, Amy L.

AU - Bédard, Sandrine

AU - Abramovic, Mihael

AU - Alonso-Ortiz, Eva

AU - Atcheson, Nicole T.

AU - Barlow, Laura R.

AU - Barry, Robert L.

AU - Barth, Markus

AU - Battiston, Marco

AU - Büchel, Christian

AU - Budde, Matthew D.

AU - Callot, Virginie

AU - Combes, Anna

AU - De Leener, Benjamin

AU - Descoteaux, Maxime

AU - de Sousa, Paulo Loureiro

AU - Dostál, Marek

AU - Doyon, Julien

AU - Dvorak, Adam V.

AU - Eippert, Falk

AU - Epperson, Karla R.

AU - Epperson, Kevin S.

AU - Freund, Patrick

AU - Finsterbusch, Jürgen

AU - Foias, Alexandru

AU - Fratini, Michela

AU - Fukunaga, Issei

AU - Wheeler-Kingshott, Claudia A.M.Gandini

AU - Germani, Gian Carlo

AU - Gilbert, Guillaume

AU - Giove, Federico

AU - Grussu, Francesco

AU - Hagiwara, Akifumi

AU - Henry, Pierre Gilles

AU - Horák, Tomáš

AU - Hori, Masaaki

AU - Joers, James M.

AU - Kamiya, Kouhei

AU - Karbasforoushan, Haleh

AU - Keřkovský, Miloš

AU - Khatibi, Ali

AU - Kim, Joo Won

AU - Kinany, Nawal

AU - Kitzler, Hagen

AU - Kolind, Shannon

AU - Kong, Yazhuo

AU - Kudlička, Petr

AU - Kuntke, Paul

AU - Kurniawan, Nyoman D.

AU - Kusmia, Slawomir

AU - Laganà, Maria Marcella

AU - Laule, Cornelia

AU - Law, Christine S.W.

AU - Leutritz, Tobias

AU - Liu, Yaou

AU - Llufriu, Sara

AU - Mackey, Sean

AU - Martin, Allan R.

AU - Martinez-Heras, Eloy

AU - Mattera, Loan

AU - O’Grady, Kristin P.

AU - Papinutto, Nico

AU - Papp, Daniel

AU - Pareto, Deborah

AU - Parrish, Todd B.

AU - Pichiecchio, Anna

AU - Prados, Ferran

AU - Rovira, Àlex

AU - Ruitenberg, Marc J.

AU - Samson, Rebecca S.

AU - Savini, Giovanni

AU - Seif, Maryam

AU - Seifert, Alan C.

AU - Smith, Alex K.

AU - Smith, Seth A.

AU - Smith, Zachary A.

AU - Solana, Elisabeth

AU - Suzuki, Yuichi

AU - Tackley, George W.

AU - Tinnermann, Alexandra

AU - Valošek, Jan

AU - Van De Ville, Dimitri

AU - Yiannakas, Marios C.

AU - Weber, Kenneth A.

AU - Weiskopf, Nikolaus

AU - Wise, Richard G.

AU - Wyss, Patrik O.

AU - Xu, Junqian

AU - Cohen-Adad, Julien

AU - Lenglet, Christophe

AU - Nestrašil, Igor

PY - 2025/5/7

Y1 - 2025/5/7

N2 - Clinical research emphasizes the implementation of rigorous and reproducible study designs that rely on between-group matching or controlling for sources of biological variation such as subject’s sex and age. However, corrections for body size (i.e., height and weight) are mostly lacking in clinical neuroimaging designs. This study investigates the importance of body size parameters in their relationship with spinal cord (SC) and brain magnetic resonance imaging (MRI) metrics. Data were derived from a cosmopolitan population of 267 healthy human adults (age 30.1 ± 6.6 years old, 125 females). We show that body height correlates with brain gray matter (GM) volume, cortical GM volume, total cerebellar volume, brainstem volume, and cross-sectional area (CSA) of cervical SC white matter (CSA-WM; 0.44 ≤ r ≤ 0.62). Intracranial volume (ICV) correlates with body height (r = 0.46) and the brain volumes and CSA-WM (0.37 ≤ r ≤ 0.77). In comparison, age correlates with cortical GM volume, precentral GM volume, and cortical thickness (-0.21 ≥ r ≥ -0.27). Body weight correlates with magnetization transfer ratio in the SC WM, dorsal columns, and lateral corticospinal tracts (-0.20 ≥ r ≥ -0.23). Body weight further correlates with the mean diffusivity derived from diffusion tensor imaging (DTI) in SC WM (r = -0.20) and dorsal columns (-0.21), but only in males. CSA-WM correlates with brain volumes (0.39 ≤ r ≤ 0.64), and with precentral gyrus thickness and DTI-based fractional anisotropy in SC dorsal columns and SC lateral corticospinal tracts (-0.22 ≥ r ≥ -0.25). Linear mixture of age, sex, or sex and age, explained 2 ± 2%, 24 ± 10%, or 26 ± 10%, of data variance in brain volumetry and SC CSA. The amount of explained variance increased to 33 ± 11%, 41 ± 17%, or 46 ± 17%, when body height, ICV, or body height and ICV were added into the mixture model. In females, the explained variances halved suggesting another unidentified biological factor(s) determining females’ central nervous system (CNS) morphology. In conclusion, body size and ICV are significant biological variables. Along with sex and age, body size should therefore be included as a mandatory variable in the design of clinical neuroimaging studies examining SC and brain structure; and body size and ICV should be considered as covariates in statistical analyses. Normalization of different brain regions with ICV diminishes their correlations with body size, but simultaneously amplifies ICV-related variance (r = 0.72 ± 0.07) and suppresses volume variance of the different brain regions (r = 0.12 ± 0.19) in the normalized measurements.

AB - Clinical research emphasizes the implementation of rigorous and reproducible study designs that rely on between-group matching or controlling for sources of biological variation such as subject’s sex and age. However, corrections for body size (i.e., height and weight) are mostly lacking in clinical neuroimaging designs. This study investigates the importance of body size parameters in their relationship with spinal cord (SC) and brain magnetic resonance imaging (MRI) metrics. Data were derived from a cosmopolitan population of 267 healthy human adults (age 30.1 ± 6.6 years old, 125 females). We show that body height correlates with brain gray matter (GM) volume, cortical GM volume, total cerebellar volume, brainstem volume, and cross-sectional area (CSA) of cervical SC white matter (CSA-WM; 0.44 ≤ r ≤ 0.62). Intracranial volume (ICV) correlates with body height (r = 0.46) and the brain volumes and CSA-WM (0.37 ≤ r ≤ 0.77). In comparison, age correlates with cortical GM volume, precentral GM volume, and cortical thickness (-0.21 ≥ r ≥ -0.27). Body weight correlates with magnetization transfer ratio in the SC WM, dorsal columns, and lateral corticospinal tracts (-0.20 ≥ r ≥ -0.23). Body weight further correlates with the mean diffusivity derived from diffusion tensor imaging (DTI) in SC WM (r = -0.20) and dorsal columns (-0.21), but only in males. CSA-WM correlates with brain volumes (0.39 ≤ r ≤ 0.64), and with precentral gyrus thickness and DTI-based fractional anisotropy in SC dorsal columns and SC lateral corticospinal tracts (-0.22 ≥ r ≥ -0.25). Linear mixture of age, sex, or sex and age, explained 2 ± 2%, 24 ± 10%, or 26 ± 10%, of data variance in brain volumetry and SC CSA. The amount of explained variance increased to 33 ± 11%, 41 ± 17%, or 46 ± 17%, when body height, ICV, or body height and ICV were added into the mixture model. In females, the explained variances halved suggesting another unidentified biological factor(s) determining females’ central nervous system (CNS) morphology. In conclusion, body size and ICV are significant biological variables. Along with sex and age, body size should therefore be included as a mandatory variable in the design of clinical neuroimaging studies examining SC and brain structure; and body size and ICV should be considered as covariates in statistical analyses. Normalization of different brain regions with ICV diminishes their correlations with body size, but simultaneously amplifies ICV-related variance (r = 0.72 ± 0.07) and suppresses volume variance of the different brain regions (r = 0.12 ± 0.19) in the normalized measurements.

KW - body height and weight

KW - brain

KW - in vivo human neuroimaging

KW - intracranial volume

KW - spinal cord

KW - structural magnetic resonance imaging

UR - https://www.scopus.com/pages/publications/105010535791

U2 - 10.1162/imag_a_00559

DO - 10.1162/imag_a_00559

M3 - Article

C2 - 40800833

AN - SCOPUS:105010535791

SN - 2837-6056

VL - 3

JO - Imaging Neuroscience

JF - Imaging Neuroscience

M1 - imag_a_00559

ER -

Body size and intracranial volume interact with the structure of the central nervous system: A multi-center in vivo neuroimaging study

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