Neonatal brain connectivity outliers identify over forty percent of IQ outliers at 4 years of age

Neonatal brain connectivity outliers identify over forty percent of IQ outliers at 4 years of age

Abstract Background Defining reliable brain markers for the prediction of abnormal behavioral outcomes remains an urgent but extremely challenging task in neuroscience research. This is particularly important for infant studies given the most dramatic brain and behavioral growth during infancy. Meth...

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Main Authors: Wei Gao, Yuanyuan Chen, Emil Cornea, Barbara D. Goldman, John H. Gilmore
Format: Article
Language:English
Published: Wiley 2020-12-01
Series:Brain and Behavior
Online Access:https://doi.org/10.1002/brb3.1846
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spelling doaj-47cf18e36073422f937bf4ed4fef804a2021-03-10T17:10:35ZengWileyBrain and Behavior2162-32792020-12-011012n/an/a10.1002/brb3.1846Neonatal brain connectivity outliers identify over forty percent of IQ outliers at 4 years of ageWei Gao0Yuanyuan Chen1Emil Cornea2Barbara D. Goldman3John H. Gilmore4Department of Biomedical Sciences and Imaging Biomedical Imaging Research Institute (BIRI) Cedars‐Sinai Medical Center Los Angeles CA USADepartment of Biomedical Sciences and Imaging Biomedical Imaging Research Institute (BIRI) Cedars‐Sinai Medical Center Los Angeles CA USADepartment of Psychiatry University of North Carolina Chapel Hill Chapel Hill NC USADepartment of Psychology and Neuroscience FPG Child Development Institute University of North Carolina Chapel Hill Chapel Hill NC USADepartment of Psychiatry University of North Carolina Chapel Hill Chapel Hill NC USAAbstract Background Defining reliable brain markers for the prediction of abnormal behavioral outcomes remains an urgent but extremely challenging task in neuroscience research. This is particularly important for infant studies given the most dramatic brain and behavioral growth during infancy. Methods In this study, we proposed a novel prediction scheme through abstracting individual newborn's whole‐brain functional connectivity pattern to three outlier measures (Triple O) and tested the hypothesis that neonates identified as “brain outliers” based on Triple O were more likely to develop as IQ outliers at 4 years of age. Without need for training with behavioral data, Triple O represents a novel proof‐of‐concept approach to predict later IQ outcomes based on neonatal brain data. Results Triple O correctly identified 42.1% true IQ outliers among a mixed cohort of 175 newborns with different term, twin, and maternal disorder statuses. Triple O also reached a high level of specificity (96.2%) and overall accuracy (90.3%). Further incorporating a demographic information indicator, the enhanced Triple O+ could further differentiate between high and low 4YR IQ outliers. Validation tests against seven independent reference samples revealed highly consistent results and a minimum sample size of ~50 for robust performance. Conclusions Considering that postnatal brain growth and various environmental factors likely also contribute to 4YR IQ, the fact that Triple O, based purely on neonatal functional connectivity data, could identify >40% of 4YR IQ outliers is striking. Together with the very high level of specificity, each outlier predicted by Triple O represents a meaningful risk but future efforts are needed to explore ways to identify the rest of outliers. Overall, with no need for training, a high level of robustness, and a minimal requirement on sample size, the proposed Triple O approach demonstrates great potential to predict later outlying IQ performances using neonatal functional connectivity data.https://doi.org/10.1002/brb3.1846
collection DOAJ
language English
format Article
sources DOAJ
author Wei Gao
Yuanyuan Chen
Emil Cornea
Barbara D. Goldman
John H. Gilmore
spellingShingle Wei Gao
Yuanyuan Chen
Emil Cornea
Barbara D. Goldman
John H. Gilmore
Neonatal brain connectivity outliers identify over forty percent of IQ outliers at 4 years of age
Brain and Behavior
author_facet Wei Gao
Yuanyuan Chen
Emil Cornea
Barbara D. Goldman
John H. Gilmore
author_sort Wei Gao
title Neonatal brain connectivity outliers identify over forty percent of IQ outliers at 4 years of age
title_short Neonatal brain connectivity outliers identify over forty percent of IQ outliers at 4 years of age
title_full Neonatal brain connectivity outliers identify over forty percent of IQ outliers at 4 years of age
title_fullStr Neonatal brain connectivity outliers identify over forty percent of IQ outliers at 4 years of age
title_full_unstemmed Neonatal brain connectivity outliers identify over forty percent of IQ outliers at 4 years of age
title_sort neonatal brain connectivity outliers identify over forty percent of iq outliers at 4 years of age
publisher Wiley
series Brain and Behavior
issn 2162-3279
publishDate 2020-12-01
description Abstract Background Defining reliable brain markers for the prediction of abnormal behavioral outcomes remains an urgent but extremely challenging task in neuroscience research. This is particularly important for infant studies given the most dramatic brain and behavioral growth during infancy. Methods In this study, we proposed a novel prediction scheme through abstracting individual newborn's whole‐brain functional connectivity pattern to three outlier measures (Triple O) and tested the hypothesis that neonates identified as “brain outliers” based on Triple O were more likely to develop as IQ outliers at 4 years of age. Without need for training with behavioral data, Triple O represents a novel proof‐of‐concept approach to predict later IQ outcomes based on neonatal brain data. Results Triple O correctly identified 42.1% true IQ outliers among a mixed cohort of 175 newborns with different term, twin, and maternal disorder statuses. Triple O also reached a high level of specificity (96.2%) and overall accuracy (90.3%). Further incorporating a demographic information indicator, the enhanced Triple O+ could further differentiate between high and low 4YR IQ outliers. Validation tests against seven independent reference samples revealed highly consistent results and a minimum sample size of ~50 for robust performance. Conclusions Considering that postnatal brain growth and various environmental factors likely also contribute to 4YR IQ, the fact that Triple O, based purely on neonatal functional connectivity data, could identify >40% of 4YR IQ outliers is striking. Together with the very high level of specificity, each outlier predicted by Triple O represents a meaningful risk but future efforts are needed to explore ways to identify the rest of outliers. Overall, with no need for training, a high level of robustness, and a minimal requirement on sample size, the proposed Triple O approach demonstrates great potential to predict later outlying IQ performances using neonatal functional connectivity data.
url https://doi.org/10.1002/brb3.1846
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