Researchers refute scientific claims that human fetuses harbor live bacteria

Scientific claims that babies harbor live bacteria while still in the womb are inaccurate, and may have impeded research progress, according to University College Cork (UCC) researchers at APC Microbiome Ireland, a world-leading Science Foundation Ireland (SFI) Research Centre, which led a perspective published today (16.00 hrs GMT 25^TH January) in the prestigious journal Nature.

Prior claims that the human placenta and amniotic fluid are normally colonized by bacteria would, if true, have serious implications for clinical medicine and pediatrics and would undermine established principles in immunology and reproductive biology.

To examine these claims, UCC & APC Principal Investigator Prof. Jens Walter assembled a trans-disciplinary team of 46 leading experts in reproductive biology, microbiome science, and immunology from around the world to evaluate the evidence for microbes in human fetuses.

A healthy human fetus is sterile

The team unanimously refuted the concept of a fetal microbiome and concluded that the detection of microbiomes in fetal tissues was due to contamination of samples drawn from the womb. Contamination occurred during vaginal delivery, clinical procedures or during laboratory analysis.

In the report in Nature, the international experts encourage researchers to focus their studies on the microbiomes of mothers and their newborn infants and on the microbial metabolites crossing the placenta which prepare the fetus for post-natal life in a microbial world.

This consensus provides guidance for the field to move forward, to concentrate research efforts where they will be most effective. Knowing that the fetus is in a sterile environment, confirms that colonization by bacteria happens during birth and in early post-natal life, which is where therapeutic research on modulation of the microbiome should be focused".

Prof. Jens Walter, UCC & APC Principal Investigator

The expert international authors also provide guidance on how scientists in the future can avoid pitfalls of contamination in the analysis of other samples where microbes are expected to be absent or present at low levels, such as internal organs and tissues within the human body.