Hindering studies involving fetal tissue will impede the development of the alternatives intended to replace it, while slowing the search for new medicines.
A culture flask containing human brain organoids.Credit: Science History Images/Alamy
When the US National Institutes of Health (NIH), the world’s largest funder of biomedical research, announced on 22 January that it would stop funding most research involving human fetal tissue, many scientists were dismayed by both the timing and the reasoning.
NIH ends support for most human fetal-tissue research – dismaying some scientists
“This decision is about advancing science by investing in breakthrough technologies more capable of modeling human health and disease,” NIH director Jayanta Bhattacharya said in a statement (see go.nature.com/4by2ekk). Those technologies, the statement added, include computer modelling, organ-on-a-chip systems and complex 3D cell cultures called organoids.
But developmental biologists say that these tools are not yet able to model human health and disease accurately1. That is also the view of the International Society for Stem Cell Research (ISSCR) in Evanston, Illinois. In response to the NIH decision, the ISSCR said: “Research with human fetal tissue (HFT) and HFT-derived cell lines has been integral to biomedical progress for nearly a century” (see go.nature.com/4tes8mn).
It added: “This research has contributed to fundamental advances in understanding human development, infertility, infectious diseases, and chronic and neurodegenerative conditions.” The ISSCR is urging the NIH to reconsider its decision. Fetal tissue is essential to studying diseases, and as a benchmark for evaluating technologies such as organoids. The NIH must think again. Hindering this research will slow the development of replacement technologies.
The NIH decision prohibits the awarding of federal funding to studies for which fetal tissue has been obtained from elective abortions, although the agency will continue to fund research on tissue from miscarriages and stillbirths. However, scientists say that most work is done with tissue from elective abortions, in part because such tissues often provide a more accurate and representative source of information about healthy development than do those from miscarriages and stillbirths.
Technologies for studying human fetal tissue are improving rapidly. Techniques that enable researchers to measure gene activity in individual cells have enabled unprecedented projects to map the cells in an entire tissue. Large research consortia have been cataloguing cells in organs by creating ‘cell atlases’ of both adult and fetal tissues2. Those atlases, however, are not yet complete. The human brain, for example, contains some 86 billion nerve cells, and mapping them remains a formidable task.
The truth about fetal tissue research
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