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A baby’s weight and neurodevelopment in the first 2 years of life could be influenced by maternal fat metabolism in the early stages of pregnancy, according to a study.

Patterns of fetal abdominal growth were associated with maternal lipid metabolites that tracked newborn growth, adiposity, and development into childhood and could be identified as early as the 5th month of pregnancy, according to researchers at the University of Oxford, working with colleagues at the University of California.

These fetal growth patterns were also associated with blood flow and nutrient transfer by the placenta, demonstrating a complex interaction between maternal and fetal nutrition early in pregnancy, with implications for postnatal weight and health in later life, they suggested.

Stephen Kennedy, MD, professor of reproductive medicine at the University of Oxford, who co-led the investigation, said it had “provided valuable new insights into the biological origins of childhood obesity, which is one of the most pressing public health issues facing governments around the world.”
 

International study

The prospective observational study, published in The Lancet Diabetes and Endocrinology, involved 3,598 pregnant women from six countries – Brazil, Kenya, Pakistan, South Africa, Thailand, and the United Kingdom – aged 18 and older and with a BMI of less than 35 kg/m2. The women were monitored using regular fetal ultrasound scans and metabolomic analysis of early pregnancy maternal blood and umbilical cord venous blood at the time of birth.

Their infants, who were singletons, and conceived naturally, were then followed for 2 years to assess their growth and development.

Fetal abdominal circumference growth was found to accelerate or decelerate within “a crucial 20-25 week gestational age window” that followed 4 trajectories of faltering growth, early accelerating growth, late accelerating growth, or median growth. These traits were matched by fetus-placenta blood flow patterns throughout pregnancy and different growth, adiposity, vision, and neurodevelopment outcomes in early childhood, researchers said.

Overall, 709 maternal metabolites had a positive effect for the faltering growth phenotype, and 54 for the early accelerating growth phenotype, whilst 31 had a negative effect for the faltering growth phenotype and 76 for the early accelerating growth phenotype.

The maternal metabolite signatures included 5-hydroxy-eicosatetraenoic acid and 11 phosphatidylcholines linked to oxylipin or saturated fatty acid sidechains. The fungicide, chlorothalonil, was “highly abundant” in the early accelerating growth phenotype group.
 

‘A unique insight’

Aris Papageorghiou, professor of Fetal Medicine at the University of Oxford, who co-led the research, said: “This study provides evidence of distinct patterns of fetal abdominal growth and placental transfer and how they relate to longer term health. The finding of an association with maternal lipid metabolism early in pregnancy also provides unique insights into how the mother’s health and diet influence her child’s adiposity.”

First author José Villar, MD, professor of perinatal medicine at Oxford, said: “The study complements our previous work that identified fetal head growth trajectories associated with different developmental, behavioral, visual, and growth outcomes at 2 years of age.” Taken together, “the growth of babies’ bodies and brain[s] track separately and early – while still within the womb,” he said.

According to Dr. Kennedy, the latest results “could contribute to earlier identification of infants at risk of obesity” and urged policymakers to “take notice of these findings in their efforts to prevent the oncoming epidemic of obesity, with all its likely adverse social and economic consequences.”

Funding for the study was provided by the Bill and Melinda Gates Foundation.

A version of this article first appeared on Medscape UK.

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A baby’s weight and neurodevelopment in the first 2 years of life could be influenced by maternal fat metabolism in the early stages of pregnancy, according to a study.

Patterns of fetal abdominal growth were associated with maternal lipid metabolites that tracked newborn growth, adiposity, and development into childhood and could be identified as early as the 5th month of pregnancy, according to researchers at the University of Oxford, working with colleagues at the University of California.

These fetal growth patterns were also associated with blood flow and nutrient transfer by the placenta, demonstrating a complex interaction between maternal and fetal nutrition early in pregnancy, with implications for postnatal weight and health in later life, they suggested.

Stephen Kennedy, MD, professor of reproductive medicine at the University of Oxford, who co-led the investigation, said it had “provided valuable new insights into the biological origins of childhood obesity, which is one of the most pressing public health issues facing governments around the world.”
 

International study

The prospective observational study, published in The Lancet Diabetes and Endocrinology, involved 3,598 pregnant women from six countries – Brazil, Kenya, Pakistan, South Africa, Thailand, and the United Kingdom – aged 18 and older and with a BMI of less than 35 kg/m2. The women were monitored using regular fetal ultrasound scans and metabolomic analysis of early pregnancy maternal blood and umbilical cord venous blood at the time of birth.

Their infants, who were singletons, and conceived naturally, were then followed for 2 years to assess their growth and development.

Fetal abdominal circumference growth was found to accelerate or decelerate within “a crucial 20-25 week gestational age window” that followed 4 trajectories of faltering growth, early accelerating growth, late accelerating growth, or median growth. These traits were matched by fetus-placenta blood flow patterns throughout pregnancy and different growth, adiposity, vision, and neurodevelopment outcomes in early childhood, researchers said.

Overall, 709 maternal metabolites had a positive effect for the faltering growth phenotype, and 54 for the early accelerating growth phenotype, whilst 31 had a negative effect for the faltering growth phenotype and 76 for the early accelerating growth phenotype.

The maternal metabolite signatures included 5-hydroxy-eicosatetraenoic acid and 11 phosphatidylcholines linked to oxylipin or saturated fatty acid sidechains. The fungicide, chlorothalonil, was “highly abundant” in the early accelerating growth phenotype group.
 

‘A unique insight’

Aris Papageorghiou, professor of Fetal Medicine at the University of Oxford, who co-led the research, said: “This study provides evidence of distinct patterns of fetal abdominal growth and placental transfer and how they relate to longer term health. The finding of an association with maternal lipid metabolism early in pregnancy also provides unique insights into how the mother’s health and diet influence her child’s adiposity.”

First author José Villar, MD, professor of perinatal medicine at Oxford, said: “The study complements our previous work that identified fetal head growth trajectories associated with different developmental, behavioral, visual, and growth outcomes at 2 years of age.” Taken together, “the growth of babies’ bodies and brain[s] track separately and early – while still within the womb,” he said.

According to Dr. Kennedy, the latest results “could contribute to earlier identification of infants at risk of obesity” and urged policymakers to “take notice of these findings in their efforts to prevent the oncoming epidemic of obesity, with all its likely adverse social and economic consequences.”

Funding for the study was provided by the Bill and Melinda Gates Foundation.

A version of this article first appeared on Medscape UK.

A baby’s weight and neurodevelopment in the first 2 years of life could be influenced by maternal fat metabolism in the early stages of pregnancy, according to a study.

Patterns of fetal abdominal growth were associated with maternal lipid metabolites that tracked newborn growth, adiposity, and development into childhood and could be identified as early as the 5th month of pregnancy, according to researchers at the University of Oxford, working with colleagues at the University of California.

These fetal growth patterns were also associated with blood flow and nutrient transfer by the placenta, demonstrating a complex interaction between maternal and fetal nutrition early in pregnancy, with implications for postnatal weight and health in later life, they suggested.

Stephen Kennedy, MD, professor of reproductive medicine at the University of Oxford, who co-led the investigation, said it had “provided valuable new insights into the biological origins of childhood obesity, which is one of the most pressing public health issues facing governments around the world.”
 

International study

The prospective observational study, published in The Lancet Diabetes and Endocrinology, involved 3,598 pregnant women from six countries – Brazil, Kenya, Pakistan, South Africa, Thailand, and the United Kingdom – aged 18 and older and with a BMI of less than 35 kg/m2. The women were monitored using regular fetal ultrasound scans and metabolomic analysis of early pregnancy maternal blood and umbilical cord venous blood at the time of birth.

Their infants, who were singletons, and conceived naturally, were then followed for 2 years to assess their growth and development.

Fetal abdominal circumference growth was found to accelerate or decelerate within “a crucial 20-25 week gestational age window” that followed 4 trajectories of faltering growth, early accelerating growth, late accelerating growth, or median growth. These traits were matched by fetus-placenta blood flow patterns throughout pregnancy and different growth, adiposity, vision, and neurodevelopment outcomes in early childhood, researchers said.

Overall, 709 maternal metabolites had a positive effect for the faltering growth phenotype, and 54 for the early accelerating growth phenotype, whilst 31 had a negative effect for the faltering growth phenotype and 76 for the early accelerating growth phenotype.

The maternal metabolite signatures included 5-hydroxy-eicosatetraenoic acid and 11 phosphatidylcholines linked to oxylipin or saturated fatty acid sidechains. The fungicide, chlorothalonil, was “highly abundant” in the early accelerating growth phenotype group.
 

‘A unique insight’

Aris Papageorghiou, professor of Fetal Medicine at the University of Oxford, who co-led the research, said: “This study provides evidence of distinct patterns of fetal abdominal growth and placental transfer and how they relate to longer term health. The finding of an association with maternal lipid metabolism early in pregnancy also provides unique insights into how the mother’s health and diet influence her child’s adiposity.”

First author José Villar, MD, professor of perinatal medicine at Oxford, said: “The study complements our previous work that identified fetal head growth trajectories associated with different developmental, behavioral, visual, and growth outcomes at 2 years of age.” Taken together, “the growth of babies’ bodies and brain[s] track separately and early – while still within the womb,” he said.

According to Dr. Kennedy, the latest results “could contribute to earlier identification of infants at risk of obesity” and urged policymakers to “take notice of these findings in their efforts to prevent the oncoming epidemic of obesity, with all its likely adverse social and economic consequences.”

Funding for the study was provided by the Bill and Melinda Gates Foundation.

A version of this article first appeared on Medscape UK.

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