Child Development Clinical Trial
Official title:
Effects of Placental Transfusion on Early Brain Development in Infants Born at Term: Follow-Up at 3 & 4 Years of Age
When immediate clamping of the umbilical cord (ICC) occurs at birth, 20 to 30% of the
fetal-placental blood volume is left behind in the placenta. Preliminary results from our
current study comparing effects of ICC versus placental transfusion from delayed cord
clamping (DCC) show that infants who have DCC have higher ferritin levels at 4 months of age
and more myelin in important regions of the brain. Our objective for this follow-up study is
to see if the effects of placental transfusion persist to three and four years of age. The
investigators plan to enroll only children who participated in the previous trial (Infant
Brain Study/NCT01620008) at birth for assessments at three and four years of age. Assessments
include MRIs and neurodevelopmental testing to examine cognitive, motor, visual, and
behavioral outcomes.
The proposed research addresses two central questions regarding the potential benefits of DCC
on brain myelin development in children who were born healthy at term: 1. Does DCC result in
increased brain myelin deposition at three and four years of age? and 2) Are DCC, iron
stores, and brain myelin content in infancy associated with improved cognitive, motor, and
socio-behavioral outcomes at three and four years of age?
The current obstetrical practice at birth in the United States is to cut and clamp umbilical
cord of the infant immediately after birth. When immediate clamping occurs, 20 to 30% of the
fetal-placental blood volume is left behind in the placenta. This blood contains enough
iron-rich red blood cells to meet the infant's iron needs for the first 4 to 6 months of
life. Delaying cord clamping has been shown to increase early iron stores without
contributing to adverse outcomes. The investigators hypothesize that iron sufficiency is
essential for long-term neurologic health. Iron deficiency in infancy adversely affects
cognitive, motor, socio-emotional, and behavioral development. Human and animal studies have
shown that inadequate iron stores in early infancy have an irreversible negative impact on
the developing brain with deficits persisting even after iron levels have been restored by
iron supplementation. Iron is an essential component of myelination which is critical for
normal brain development and function. Myelination, which peaks during the first year of
life, establishes and maintains efficient communication between the discrete regions of the
brain.
The gap is that the effect of increased iron stores from delayed cord clamping on myelination
and long-term neurodevelopment during childhood is unknown. Our hypothesis is that placental
transfusion affects myelination and early childhood neurodevelopment in the following ways:
1) placental transfusion (delayed cord clamping or cord milking) leads to increased blood
volume (BV) and red blood cell volume (RBCV) at birth; 2) increased RBCV results in more
available iron for early body iron stores; 3) increased body iron stores provide essential
iron supply for optimal brain myelination; 4) optimal myelination results in improved
cognitive, behavioral and socio-emotional performance.
The main objective of this study is to conduct a prospective cohort study following the
children enrolled in a previous randomized controlled trial (birth to 24 months) known as the
Infant Brain Study. The purpose is to measure the effects of cord clamping time on the
structure and function of the developing brain at three and four years of age. The
investigators will use a non-invasive neuroimaging technique to measure myelin acquisition
over time and conduct neurodevelopmental assessments and correlate the findings with early
iron stores and long-term developmental outcomes.
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