Researchers at the Eindhoven University of Technology in the Netherlands received a Future and Emerging Technologies grant of the European Programme Horizon 2020 of almost 3 million euros to develop an artificial womb within the next decade.

The model, which is being developed, would provide babies with artificial respiration.

Notably, in case of premature birth, the artificial womb will be an adequate substitute for the protective environment of the maternal womb.

It will provide a natural environment for the baby completely to ease the transition to a new life.

Unlike current incubators, the artificial womb would be similar to biological conditions, with the baby surrounded by fluids and receiving oxygen and nutrients through an artificial placenta that will connect to their umbilical cord.

Premature birth is a major problem, affecting more than 1 in 10 babies globally.

Babies born this early may have more health problems or need to stay in the neonatal intensive care units (NICUs), which support their cardiorespiratory function and development to full term.

Despite advances in medicine, for extremely premature infants, NICUs are not an adequate substitute for the protective environment of the maternal womb.

Through this project, scientists envisioned a solution as an artificial womb, where the intrauterine environment can be protected extra-corporeally by transferring the extremely premature baby to a perinatal life support system.

This will help the foetal organs further develop until they reach maturity.

With the perinatal life support solution, the supply of oxygen and nutrients would be maintained through the foetal umbilical cord connected to an artificial placenta.

A liquid-based environment will support foetal cardiorespiratory physiology and will avoid the negative effects of air-based ventilation on the infant’s underdeveloped lungs.

The scientists aim to develop and validate the perinatal life support system using breakthrough simulation technology; herein, extremely premature infants and their birth are mimicked using a manikin, while advanced monitoring and computational modelling provide clinical guidance on foetal status and treatment.

In 2017, a team of scientists from Children’s Hospital of Philadelphia (CHOP) in the US successfully tested an artificial womb meant to carry premature births on a lamb fetus.

The technology provides a safety net to give a premature child every chance it can have of survival.

A gynaecologist at MMC and part-time professor at TU/e, Guid Oei said, “an artificial womb serves as a replacement for an incubator and artificial respiration.”

“It is much more natural because it resembles the conditions in an actual womb more closely.”

“Our goal with the artificial womb is to help extremely premature babies get through the critical period of 24 to 28 weeks.”

“During the next five years, we will conduct further research and test these technologies in a European collaboration, and continue to develop them until we manage to realize the first prototype of an artificial womb. That is a wonderful challenge.”

 

 

Source: TechExplorist



Source link