‘Mini Human Placenta’ May Help Prevent Reproductive Disorders

Scientists have successfully created ‘mini-placentas’ that can provide a window into early pregnancy and help transform our understanding of reproductive disorders such as still-birth and miscarriage.

Many pregnancies fail because the embryo does not implant correctly into the lining of the womb (uterus) and fails to form a placental attachment to the mother.

Yet, because of the complexities of studying this early period of our development, very little is understood about what is happening normally and what can go wrong.

Animals are too dissimilar to humans to provide a good model of placental development and implantation.

Organoids - often referred to as ‘mini-organs’ - enable insights into human biology and disease. At the University of Cambridge, scientists are using organoid cultures to grow everything from ‘mini-brains’ to ‘mini-livers’ to ‘mini-lungs’.

The team was able to grow organoids using cells from villi - tiny frond-like structures - taken from placental tissue.

These trophoblast organoids are able to survive long-term, are genetically stable and organise into villous-like structures that secrete essential proteins and hormones that would affect the mother's metabolism during the pregnancy.

"The placenta supplies all the oxygen and nutrients essential for growth of the fetus, and if it fails to develop properly the pregnancy can sadly end with a low birthweight baby or even a stillbirth," he said.

In addition, the organoids may shed light on other mysteries surrounding the relationships between the placenta, the uterus and the foetus.

The organoids may also be used for screening the safety of drugs to be used in early pregnancy, to understand how chromosomal abnormalities may perturb normal development, and possibly even provide stem cell therapies for failing pregnancies.