Research on sheep has provided an insight into how we can monitor foetus heart health.
Changes in heart rate, due to low oxygen conditions, experienced by the foetus during pregnancy, could be used to predict foetal heart health.
Previous research has shown that sustained low levels of oxygen (called chronic hypoxia) during pregnancy significantly impair the growth of the foetus, leading to a condition known as intrauterine growth restriction (IUGR).
Chronic hypoxia during pregnancy can also impair the development of key organs, imposing consequences for life-time health risks, such as an increased heart disease risk.
The new research has been published in The Journal of Physiology.
How sheep are informing research
The main causes of low oxygen during foetal development are complications with the placenta.
Researchers at the University of Cambridge and the University of Washington, led by Dino Giussani and Martin Frasch, modelled such conditions during pregnancy by placing pregnant sheep in an environment with lower than normal oxygenation, similar to experiencing high altitude.
They then looked at the foetal heart separated from any influences of the rest of the body, as a way to see if the heart shows any sign of ’remembering’ the effects of lower than normal oxygen that was experienced in the womb.
The way that they determined this was by looking at something called heart rate variability, which refers to changes in heart rate that normally occur in our hearts. Analysis of the patterns of these changes in heart rate were able to tell them if the hearts of the foetuses were impacted in the long term.
This health research may have important clinical implications.
Foetal heart health
If babies from complicated pregnancies are identified to have abnormal foetal heart rate patterns, then doctors could follow the development of these children more closely to better protect against any future risk of heart disease.
Martin Frasch, first author on the study said: “We are excited about these results and the ability it may give clinicians to assess in a new way the hearts of kids who don’t show symptoms, who may have underlying heart problems.
“A good example of this would be kids in Brazil whose mothers were infected with the Zika virus. While they may not have symptoms, they may still actually have important problems with their hearts that we should be addressing.”
