Neonatal multi-modal cortical profiles predict 18-month developmental outcomes

Daphna Fenchel; Ralica Dimitrova; Emma C. Robinson; Dafnis Batalle; Andrew Chew; Shona Falconer; Vanessa Kyriakopoulou; Chiara Nosarti; Jana Hutter; Daan Christiaens; Maximilian Pietsch; Jakki Brandon; Emer J. Hughes; Joanna Allsop; Camilla O'Keeffe; Anthony N. Price; Lucilio Cordero-Grande; Andreas Schuh; Antonios Makropoulos; Jonathan Passerat-Palmbach; Jelena Bozek; Daniel Rueckert; Joseph V. Hajnal; Grainne McAlonan; A. David Edwards; Jonathan O'Muircheartaigh

doi:10.1016/j.dcn.2022.101103

Neonatal multi-modal cortical profiles predict 18-month developmental outcomes

Daphna Fenchel
, Ralica Dimitrova
, Emma C. Robinson
, Dafnis Batalle
, Andrew Chew
, Shona Falconer
, Vanessa Kyriakopoulou
, Chiara Nosarti
, Jana Hutter
, Daan Christiaens
, Maximilian Pietsch
, Jakki Brandon
, Emer J. Hughes
, Joanna Allsop
, Camilla O'Keeffe
, Anthony N. Price
, Lucilio Cordero-Grande
, Andreas Schuh
, Antonios Makropoulos
, Jonathan Passerat-Palmbach

Jelena Bozek, Daniel Rueckert, Joseph V. Hajnal, Grainne McAlonan, A. David Edwards, Jonathan O'Muircheartaigh

Informatics 31 - Chair of Artificial Intelligence in Healthcare and Medicine

King's College London
KU Leuven
Polytechnic University of Madrid
Imperial College London
University of Zagreb, Faculty of Electrical Engineering and Computing
King's College London and The South London and Maudsley NHS Foundation Trust

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

19 Scopus citations

Abstract

Developmental delays in infanthood often persist, turning into life-long difficulties, and coming at great cost for the individual and community. By examining the developing brain and its relation to developmental outcomes we can start to elucidate how the emergence of brain circuits is manifested in variability of infant motor, cognitive and behavioural capacities. In this study, we examined if cortical structural covariance at birth, indexing coordinated development, is related to later infant behaviour. We included 193 healthy term-born infants from the Developing Human Connectome Project (dHCP). An individual cortical connectivity matrix derived from morphological and microstructural features was computed for each subject (morphometric similarity networks, MSNs) and was used as input for the prediction of behavioural scores at 18 months using Connectome-Based Predictive Modeling (CPM). Neonatal MSNs successfully predicted social-emotional performance. Predictive edges were distributed between and within known functional cortical divisions with a specific important role for primary and posterior cortical regions. These results reveal that multi-modal neonatal cortical profiles showing coordinated maturation are related to developmental outcomes and that network organization at birth provides an early infrastructure for future functional skills.

Original language	English
Article number	101103
Journal	Developmental Cognitive Neuroscience
Volume	54
DOIs	https://doi.org/10.1016/j.dcn.2022.101103
State	Published - Apr 2022

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Brain development
Infant development
Morphometric similarity networks
Neonatal neuroimaging
Perinatal

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10.1016/j.dcn.2022.101103

Cite this

Fenchel, D., Dimitrova, R., Robinson, E. C., Batalle, D., Chew, A., Falconer, S., Kyriakopoulou, V., Nosarti, C., Hutter, J., Christiaens, D., Pietsch, M., Brandon, J., Hughes, E. J., Allsop, J., O'Keeffe, C., Price, A. N., Cordero-Grande, L., Schuh, A., Makropoulos, A., ... O'Muircheartaigh, J. (2022). Neonatal multi-modal cortical profiles predict 18-month developmental outcomes. Developmental Cognitive Neuroscience, 54, Article 101103. https://doi.org/10.1016/j.dcn.2022.101103

@article{d67c2c9ebeb14a079eec59aedf143430,

title = "Neonatal multi-modal cortical profiles predict 18-month developmental outcomes",

abstract = "Developmental delays in infanthood often persist, turning into life-long difficulties, and coming at great cost for the individual and community. By examining the developing brain and its relation to developmental outcomes we can start to elucidate how the emergence of brain circuits is manifested in variability of infant motor, cognitive and behavioural capacities. In this study, we examined if cortical structural covariance at birth, indexing coordinated development, is related to later infant behaviour. We included 193 healthy term-born infants from the Developing Human Connectome Project (dHCP). An individual cortical connectivity matrix derived from morphological and microstructural features was computed for each subject (morphometric similarity networks, MSNs) and was used as input for the prediction of behavioural scores at 18 months using Connectome-Based Predictive Modeling (CPM). Neonatal MSNs successfully predicted social-emotional performance. Predictive edges were distributed between and within known functional cortical divisions with a specific important role for primary and posterior cortical regions. These results reveal that multi-modal neonatal cortical profiles showing coordinated maturation are related to developmental outcomes and that network organization at birth provides an early infrastructure for future functional skills.",

keywords = "Brain development, Infant development, Morphometric similarity networks, Neonatal neuroimaging, Perinatal",

author = "Daphna Fenchel and Ralica Dimitrova and Robinson, \{Emma C.\} and Dafnis Batalle and Andrew Chew and Shona Falconer and Vanessa Kyriakopoulou and Chiara Nosarti and Jana Hutter and Daan Christiaens and Maximilian Pietsch and Jakki Brandon and Hughes, \{Emer J.\} and Joanna Allsop and Camilla O'Keeffe and Price, \{Anthony N.\} and Lucilio Cordero-Grande and Andreas Schuh and Antonios Makropoulos and Jonathan Passerat-Palmbach and Jelena Bozek and Daniel Rueckert and Hajnal, \{Joseph V.\} and Grainne McAlonan and Edwards, \{A. David\} and Jonathan O'Muircheartaigh",

note = "Publisher Copyright: {\textcopyright} 2022",

year = "2022",

month = apr,

doi = "10.1016/j.dcn.2022.101103",

language = "English",

volume = "54",

journal = "Developmental Cognitive Neuroscience",

issn = "1878-9293",

publisher = "Elsevier Ltd.",

}

Fenchel, D, Dimitrova, R, Robinson, EC, Batalle, D, Chew, A, Falconer, S, Kyriakopoulou, V, Nosarti, C, Hutter, J, Christiaens, D, Pietsch, M, Brandon, J, Hughes, EJ, Allsop, J, O'Keeffe, C, Price, AN, Cordero-Grande, L, Schuh, A, Makropoulos, A, Passerat-Palmbach, J, Bozek, J, Rueckert, D, Hajnal, JV, McAlonan, G, Edwards, AD & O'Muircheartaigh, J 2022, 'Neonatal multi-modal cortical profiles predict 18-month developmental outcomes', Developmental Cognitive Neuroscience, vol. 54, 101103. https://doi.org/10.1016/j.dcn.2022.101103

TY - JOUR

T1 - Neonatal multi-modal cortical profiles predict 18-month developmental outcomes

AU - Fenchel, Daphna

AU - Dimitrova, Ralica

AU - Robinson, Emma C.

AU - Batalle, Dafnis

AU - Chew, Andrew

AU - Falconer, Shona

AU - Kyriakopoulou, Vanessa

AU - Nosarti, Chiara

AU - Hutter, Jana

AU - Christiaens, Daan

AU - Pietsch, Maximilian

AU - Brandon, Jakki

AU - Hughes, Emer J.

AU - Allsop, Joanna

AU - O'Keeffe, Camilla

AU - Price, Anthony N.

AU - Cordero-Grande, Lucilio

AU - Schuh, Andreas

AU - Makropoulos, Antonios

AU - Passerat-Palmbach, Jonathan

AU - Bozek, Jelena

AU - Rueckert, Daniel

AU - Hajnal, Joseph V.

AU - McAlonan, Grainne

AU - Edwards, A. David

AU - O'Muircheartaigh, Jonathan

PY - 2022/4

Y1 - 2022/4

N2 - Developmental delays in infanthood often persist, turning into life-long difficulties, and coming at great cost for the individual and community. By examining the developing brain and its relation to developmental outcomes we can start to elucidate how the emergence of brain circuits is manifested in variability of infant motor, cognitive and behavioural capacities. In this study, we examined if cortical structural covariance at birth, indexing coordinated development, is related to later infant behaviour. We included 193 healthy term-born infants from the Developing Human Connectome Project (dHCP). An individual cortical connectivity matrix derived from morphological and microstructural features was computed for each subject (morphometric similarity networks, MSNs) and was used as input for the prediction of behavioural scores at 18 months using Connectome-Based Predictive Modeling (CPM). Neonatal MSNs successfully predicted social-emotional performance. Predictive edges were distributed between and within known functional cortical divisions with a specific important role for primary and posterior cortical regions. These results reveal that multi-modal neonatal cortical profiles showing coordinated maturation are related to developmental outcomes and that network organization at birth provides an early infrastructure for future functional skills.

AB - Developmental delays in infanthood often persist, turning into life-long difficulties, and coming at great cost for the individual and community. By examining the developing brain and its relation to developmental outcomes we can start to elucidate how the emergence of brain circuits is manifested in variability of infant motor, cognitive and behavioural capacities. In this study, we examined if cortical structural covariance at birth, indexing coordinated development, is related to later infant behaviour. We included 193 healthy term-born infants from the Developing Human Connectome Project (dHCP). An individual cortical connectivity matrix derived from morphological and microstructural features was computed for each subject (morphometric similarity networks, MSNs) and was used as input for the prediction of behavioural scores at 18 months using Connectome-Based Predictive Modeling (CPM). Neonatal MSNs successfully predicted social-emotional performance. Predictive edges were distributed between and within known functional cortical divisions with a specific important role for primary and posterior cortical regions. These results reveal that multi-modal neonatal cortical profiles showing coordinated maturation are related to developmental outcomes and that network organization at birth provides an early infrastructure for future functional skills.

KW - Brain development

KW - Infant development

KW - Morphometric similarity networks

KW - Neonatal neuroimaging

KW - Perinatal

UR - https://www.scopus.com/pages/publications/85127180692

U2 - 10.1016/j.dcn.2022.101103

DO - 10.1016/j.dcn.2022.101103

M3 - Article

C2 - 35364447

AN - SCOPUS:85127180692

SN - 1878-9293

VL - 54

JO - Developmental Cognitive Neuroscience

JF - Developmental Cognitive Neuroscience

M1 - 101103

ER -

Neonatal multi-modal cortical profiles predict 18-month developmental outcomes

Abstract

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Keywords

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