Media ReleaseFrom: The University of New South Wales
- UNSW study finds metabolic changes in pregnancy allow expectant mothers to conserve more energy and extract more calories without needing to consume significantly more food.
- Findings suggest the need for reassessment of nutritional advice to increase energy intake in pregnancy that may increase the risk of excessive weight gain.
- Study published in the latest edition of The Australian and New Zealand Journal of Obstetrics and Gynaecology.
New UNSW research has challenged the adage of needing to eat for two’ during pregnancy, showing expectant mothers boost fat stores and extra lean mass, while increasing their energy output, all without needing to consume significantly more food.
The study, led by UNSW Professor Tony O’Sullivan, tracked the weight gain, energy spent (metabolised) and food intake of 26 women throughout their pregnancy at Sydney’s St George Hospital, using sophisticated mobile sensor technology.
On average, the women gained 10.8 kilograms during pregnancy, seven kilograms of which was additional fat mass, largely put on between the first and second trimester.
This laying down of fat stores occurred despite an almost 8% surge in daily energy demand and no significant change in food intake, suggesting dramatic metabolic changes occur that allow expectant mothers to conserve more energy as fat and to extract more calories from food.
Professor O’Sullivan said the findings, which support earlier studies involving smaller cohorts, contrasted with traditional advice that pregnant women should cumulatively increase their intake of calories.
“These findings suggest the need for reassessment of nutritional advice given to pregnant women, as current advice to increase energy intake may be increasing the risk of excessive gestational weight gain,” he said.
Fat stores are essential in pregnancy to buffer fluctuations in energy supply and demand driven by the growing foetus, as well as the significant energy demands of breastfeeding, particularly in the first six weeks following birth.
However, excessive weight gain in pregnancy is associated with complications including gestational diabetes and pre-eclampsia, as well as an increase in heart disease in offspring.
While the exact mechanisms remain poorly understood, Professor O’Sullivan said there were several hypotheses about the metabolic shift in pregnant women. One involved dramatic changes to their gut flora (bacteria).
In animal studies by other researchers, mice fed gut flora from women in their third-trimester of pregnancy put on more fat than mice fed first-trimester gut flora, despite both groups eating the exact same diet and exercising the same amount.
“Stool studies from women in the late stages of pregnancy also show evidence of reduced energy loss,” Professor O’Sullivan said.
“Pregnancy-related changes in gut microbiota could potentially allow pregnant women to absorb more calories from their diet for fat storage without changing the caloric or macronutrient intake.
“This physiological change has obvious benefits for energy storage during pregnancy and for lactation,” Professor Tony O’Sullivan.
Apart from microbial changes, a range of other metabolic shifts, including resistance to insulin and leptin, a hormone associated with the feeling of being full, are thought to play a role.
The study has been published in the latest edition of The Australian and New Zealand Journal of Obstetrics and Gynaecology.