Giving birth changes females’ bones in a way that was not previously known, new research suggests.
Analysis of monkeys, sheds new light on how giving birth can permanently change the body.
Specifically, the researchers found that calcium, magnesium and phosphorus concentrations are lower in females who have given birth.
These changes are linked to giving birth itself and to breastfeeding.
Paola Cerrito, who led the research as a doctoral student in New York University’s (NYU) Department of Anthropology and College of Dentistry, said: “Our findings provide additional evidence of the profound impact that reproduction has on the female organism, further demonstrating that the skeleton is not a static organ, but a dynamic one that changes with life events.”
The researchers caution that while other studies show calcium and phosphorus are necessary for optimal bone strength, the new findings do not address overall health implications for either primates or humans.
Instead, they say the work highlights the dynamic nature of our bones.
“A bone is not a static and dead portion of the skeleton,” added NYU anthropologist Shara Bailey, one of the study’s authors.
“It continuously adjusts and responds to physiological processes.”
Researchers say that while it has been long-established that menopause can have an effect on females’ bones, it has been less clear on how preceding life-cycle events, such as reproduction, can influence skeletal composition.
To address this, they studied eight thigh bones.
Because this aspect of the skeleton changes over time and leaves biological markers of these changes, it is an ideal part of the body to examine, allowing scientists to monitor alterations throughout life.
The scientists used technology commonly used to gauge the chemical composition of tissue samples to calculate changes in concentrations of calcium, phosphorus, oxygen, magnesium and sodium in the primates’ bones.
The findings showed different concentrations of some of these elements in females who gave birth compared to males as well as females who did not give birth.
Specifically, in females who gave birth, calcium and phosphorus were lower in bone formed during reproductive events.
There was also a significant decline in magnesium concentration during these primates’ breastfeeding of infants, the study suggests.
Professor Cerrito said: “Our research shows that even before the cessation of fertility the skeleton responds dynamically to changes in reproductive status.
“Moreover, these findings reaffirm the significant impact giving birth has on a female organism – quite simply, evidence of reproduction is ‘written in the bones’ for life.”
The findings are published in the Plos One journal.
Why are you making commenting on The National only available to subscribers?
We know there are thousands of National readers who want to debate, argue and go back and forth in the comments section of our stories. We’ve got the most informed readers in Scotland, asking each other the big questions about the future of our country.
Unfortunately, though, these important debates are being spoiled by a vocal minority of trolls who aren’t really interested in the issues, try to derail the conversations, register under fake names, and post vile abuse.
So that’s why we’ve decided to make the ability to comment only available to our paying subscribers. That way, all the trolls who post abuse on our website will have to pay if they want to join the debate – and risk a permanent ban from the account that they subscribe with.
The conversation will go back to what it should be about – people who care passionately about the issues, but disagree constructively on what we should do about them. Let’s get that debate started!
Callum Baird, Editor of The National
Comments: Our rules
We want our comments to be a lively and valuable part of our community - a place where readers can debate and engage with the most important local issues. The ability to comment on our stories is a privilege, not a right, however, and that privilege may be withdrawn if it is abused or misused.
Please report any comments that break our rules.
Read the rules here