Press release provided by the UCL Centre for Longitudinal Studies
Children conceived through medically assisted reproduction are more likely to be born premature and are at greater risk of being born small than naturally conceived babies, according to new research published today by the UCL Centre for Longitudinal Studies in collaboration with the University of Utah.
However, of almost 250,000 U.S. families finds that differences in birth weight and pregnancy term between medically assisted reproduction (MAR)—including techniques such as IVF treatment, artificial insemination, and fertility-enhancing drugs—and naturally conceived children become insignificant once family circumstances are considered.
"Rather than the infertility treatment itself, our new findings highlight the importance of parents’ underlying fertility problems and health conditions, and infants’ birth characteristics, such as their birth order and whether they are a twin, on birth weight and pregnancy term," explained co-author Alina Pelikh, PhD, a research fellow at the UCL Centre for Longitudinal Studies.
The researchers analyzed data on 248,000 babies born in Utah between 2009-2017 whose anonymized birth records are part of the . They examined information to look at the effects of different types of infertility treatments on pregnancy term and children’s birth weight. The researchers analyzed rich data on mothers’ health, including pre-pregnancy body mass index (BMI) and blood pressure, along with parents’ age and education level, before examining information on infant birth order and multiple births.
Around 5% of infants were conceived using MAR, with fertility-enhancing drugs used by 60%, assisted reproduction (including IVF) by 26%, and artificial insemination by 14%.
The study found that children who were conceived through MAR were 10% more likely to be born premature and had 9% greater odds of being born small than naturally conceived infants. More invasive treatments—such as assisted reproduction and artificial insemination—were more strongly associated with adverse birth outcomes, whereas infants conceived using fertility-enhancing drugs were more similar to those who were naturally conceived.
"This study was possible because of the Utah Population Database and the secure access it provides to anonymized data," said co-author Ken Smith, PhD, distinguished professor of Family Studies and Population Science at the University of Utah. "This has allowed us to study births throughout the state to understand possible effects on newborns associated with mothers who conceived naturally or through medically assisted methods. By comparing births from the same mother, we were able to better isolate the impact on these births of medically assisted technologies."
Once the researchers considered mothers’ health, parents’ socioeconomic background, and infants’ birth characteristics, the differences in adverse birth outcomes were significantly reduced for all types of treatments.
The research then focused on a subgroup of mothers who had given birth to both MAR and naturally conceived children over the eight-year period. After accounting for mother’s age at birth, pre-pregnancy BMI, and infants’ birth characteristics, the differences in pregnancy term and children’s birth weight between siblings disappeared, suggesting that family circumstances and unobserved parental characteristics, such as genetic traits, are important factors in explaining the association between MAR and children’s adverse birth outcomes.
"We found limited evidence of the effects of medically assisted reproduction treatments on pregnancy term and birth weight through comparing siblings’ birth outcomes, which is in line with existing studies from the Nordic countries," Pelikh added.
"Obtaining similar results in highly diverse contexts—in terms of demographics, fertility rates and access to the medically assisted reproduction treatments—strengthens the argument that adverse birth outcomes among medically assisted reproduction conceived infants are unlikely to be driven by the reproductive technology itself," said co-author Alice Goisis, PhD, an associate professor at the UCL Centre for Longitudinal Studies.
"This new evidence can go on to enrich existing health guidance about the risks and benefits of infertility treatments, hopefully raising awareness among families who are thinking about using medically assisted reproduction to help them conceive."
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‘,’ by Alina Pelikh, Ken R. Smith, Mikko Myrskylä, and Alice Goisis will be published in Obstetrics & Gynecology on January 6, 2022.
This work was supported by European Research Council, Strategic Research Council. Use of the UPDB is partially supported through the National Cancer Institute, University of Utah, and from the University of Utah’s program in Personalized ÐÇ¿Õ´«Ã½ and Clinical and Translational Science Institute.