A new method makes it easier to research risk factors during pregnancy
The research method enables us to avoid ethical challenges in studies on mothers and children.
Observational studies of how the mother's lifestyle affects an unborn child can be challenging. Illustration image: Colourbox.com
Imagine that you are going to conduct research on how different factors affect a child in the womb.
Bad habits such as smoking, drinking alcohol or poor eating habits are factors that may affect the child. However, it would be completely out of the question for a researcher to ask a pregnant woman to expose herself to something that might be unhealthy. Therefore, we must find other ways to look into what we can here call external influences or environmental factors.
Used genes to look at causal relationships
An external influence during pregnancy could be something like a person’s diet or a disease. In a new study, the focus was on maternal levels of folate and B12, two variants of Vitamin B.
The researchers wanted to find out if there is a causal relationship between maternal levels of folate or B12 and the child’s birthweight. Using a new method, they have confirmed that a higher level of maternal folate increases the child’s birthweight. They also found that B12 does not affect the child’s weight. The method they used was to take a closer look at genes.
The study was conducted by postdoctoral fellow Gunn-Helen Øiseth Moen at the Institute of Clinical Medicine, in collaboration with researchers at the University of Queensland, the University of Exeter and the University of Bristol.
Previous methods have been inaccurate
Previously, it was common to use so-called observational studies for this type of research.
The challenge of observing is that the participants themselves have to report to the researchers, meaning that errors can quickly occur.
In addition, confounding variables can cause problems.
In other words, the effect the researcher is interested in is mixed together with the effect of other variables that the study does not take into account.
The reason may be that they are either not known or not measured accurately enough.
One example is that research participants tend to report slightly healthier eating habits than they actually have.
Another example may be that it is not the mother’s eating habits that determine the child’s birthweight, but that another factor affects both eating habits and other habits such as smoking, drinking alcohol and physical activity.
Therefore, it can be difficult for researchers to analyse which factor has a direct causal effect.
Used data from genetic studies
In this study, the researchers used data from genetic studies that focused on folate, Vitamin B12 and birthweight. Postdoctoral fellow Gunn-Helen Øiseth Moen explains:
“We have used genetic variants we know are linked to maternal B12 and folate values, and investigated whether these are of significance in relation to the child’s birthweight.”
The researchers found gene variants that show such a causal relationship. The variants were used in a statistical method called Mendelian Randomization.
The name refers to Mendel’s second law, which states that different genes are inherited independently of one another into reproductive cells. Therefore, we can look at gene variants as being randomly distributed – i.e. randomised – between individuals.
Contributing to better recommendations
Moen believes this contribution to the research may be important because it allows us to look at the causal relationships between other external influences during pregnancy and the health of the child. Both at birth and later in life.
“There is no need to expose pregnant women to potentially adverse influences”, she says. In the long term, it may contribute to more evidence-based recommendations, that are not based on observational studies that may include sources of error.
Read more about Gunn-Helen Moen’s research
Genetic link between lower birthweight and risk of disease (in Norwegian)