The human fetal brain is complex, highly plastic, and extremely vulnerable. Mild variation in utero can drastically impair life-long learning and neurological health. Despite growing appreciation for the relevance of this period to numerous developmental, psychiatric and neurological disorders, macroscale functional organization of the fetal brain remains a `black box' for neuroscience research. While there are phenomenal technologies for examining fetal brain anatomy, only very recently have we possessed non-invasive means of studying coordinated function in the living human fetal brain. This project is focused on understanding the emergence of whole brain functional circuitry beginning in fetal life, and identifying relationships between prenatal brain connectivity and preschoolers' attainment of key developmental milestones. Given that the womb is the first environment for the fetus, and is thus the place where biology and environment first interact, we will also examine the effects of prenatal stress exposure on human fetal brain functional connectivity. Sixty women will be recruited in weeks 25-32 of pregnancy and entered into a longitudinal functional magnetic resonance imaging (MRI) protocol. Brain resting-state functional connectivity (RSFC) MRI data will be obtained 3x longitudinally prior to and following birth, spanning ages 25 weeks gestational age to 12 weeks postnatal age. Discoveries about network emergence in this first step will provide a basis for subsequent evaluation of the relationship between brain maturation in utero and attainment of developmental milestones in childhood. To this end, self-regulatory behavior will then be measured in an existing sample of 110 preschoolers that underwent fetal brain RSFC imaging 4 years ago. In these participants, associations between maternal prenatal stress, fetal brain functional connectivity, and child neurobehavioral development will be examined. The primary aims of this project are to (i) break new ground in our understanding of the emergence of whole brain functional circuitry beginning in fetal life, (ii) identify variations in prenatal brain connectivity that may predispose 4-year-old children to delayed attainment of key developmental milestones that prognosticate life long health, and (iii) examine the influence of prenatal stress on emergent fetal brain functional connectivity. With its innovative focus on precursors, vulnerability, and consequences of fetal RSFC, this project is ideally suited to the NIMH BRAINS award aiming to support a productive early stage investigator in the implementation of high-impact, novel research. Initiation and achievement of these research aims will be the first step in a career focused on identifying neurobiological pathways through which early developmental risk may be conferred and also ultimately prevented.

Public Health Relevance

Many neuropsychiatric disorders likely originate during prenatal development. This work will lay critical foundations for establishing the normal functional developmental trajectories of the human fetal brain. This project will also evaluate causes and consequences of altered brain functional connectivity in utero to gain better mechanistic understanding of candidate disease pathways, rendering new opportunities for early detection, prevention, and treatment of disease.

Agency
National Institute of Health (NIH)
Institute
National Institute of Mental Health (NIMH)
Type
Research Project (R01)
Project #
7R01MH110793-04
Application #
9773448
Study Section
Special Emphasis Panel (ZMH1)
Program Officer
Zehr, Julia L
Project Start
2018-11-09
Project End
2021-04-30
Budget Start
2018-11-09
Budget End
2019-04-30
Support Year
4
Fiscal Year
2018
Total Cost
Indirect Cost
Name
New York University
Department
Psychiatry
Type
Schools of Medicine
DUNS #
121911077
City
New York
State
NY
Country
United States
Zip Code
10016
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Thomason, Moriah E (2018) Structured Spontaneity: Building Circuits in the Human Prenatal Brain. Trends Neurosci 41:1-3
Hect, Jasmine L; Daugherty, Ana M; Hermez, Klodia M et al. (2018) Developmental variation in regional brain iron and its relation to cognitive functions in childhood. Dev Cogn Neurosci 34:18-26
van den Heuvel, Marion I; Turk, Elise; Manning, Janessa H et al. (2018) Hubs in the human fetal brain network. Dev Cogn Neurosci 30:108-115
Thomason, Moriah E; Hect, Jasmine; Waller, Rebecca et al. (2018) Prenatal neural origins of infant motor development: Associations between fetal brain and infant motor development. Dev Psychopathol 30:763-772
Iadipaolo, Allesandra S; Marusak, Hilary A; Sala-Hamrick, Kelsey et al. (2017) Behavioral activation sensitivity and default mode network-subgenual cingulate cortex connectivity in youth. Behav Brain Res 333:135-141
Thomason, Moriah E; Scheinost, Dustin; Manning, Janessa H et al. (2017) Weak functional connectivity in the human fetal brain prior to preterm birth. Sci Rep 7:39286
Marusak, Hilary A; Hatfield, Joshua R B; Thomason, Moriah E et al. (2017) Reduced Ventral Tegmental Area-Hippocampal Connectivity in Children and Adolescents Exposed to Early Threat. Biol Psychiatry Cogn Neurosci Neuroimaging 2:130-137
Thomason, M E; Marusak, H A (2017) Within-subject neural reactivity to reward and threat is inverted in young adolescents. Psychol Med 47:1549-1560
Marusak, Hilary A; Zundel, Clara G; Brown, Suzanne et al. (2016) Convergent behavioral and corticolimbic connectivity evidence of a negativity bias in children and adolescents. Soc Cogn Affect Neurosci :

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