A 4-week-old pig embryo which has been injected with human stem cells. (AAP)
Scientists have for the first time grown embryos that contain a combination of pig and human stem cells, in a step toward one day growing transplantable organs, a study has shown.
However, the research remains at a very early stage and proved more difficult than expected, the researchers reported in the peer-reviewed journal Cell.
"This is an important first step," lead investigator Juan Carlos Izpisua Belmonte, a professor in the Salk Institute of Biological Studies' Gene Expression Laboratory, said of the findings.
"The ultimate goal is to grow functional and transplantable tissue or organs, but we are far away from that."
The image shows the injection of human stem cells into a pig blastocyst. A laser beam, indicated by a green circle with a red cross inside, was used to perforate the outer membrane to allow easy access for the needle. (AAP)
Scientists implanted adult human stem cells - known as intermediate induced pluripotent stem cells - into pig embryos and allowed them to grow for four weeks.
They terminated the embryos before any human-animal mixture, known as a chimera after the cross-species figures of Greek mythology, could be born.
They found that the human cells began to form into muscle tissue in the pig embryos.
The effort involved some 1,500 pig embryos and took four years, far longer than initially estimated, due to the complicated nature of the experiments.
The notion of creating human-animal mixtures has stoked controversy and raised ethical questions, particularly since the experiments could theoretically lead to the creation of animals with human qualities, and possibly intelligence.
But Salk Institute staff scientist Jun Wu said the level of human contribution to the pig embryos was "low," and did not include precursors to brain cells.
Previous research has produced combinations of rats and mice, which are far more closely related.
Bruce Whitelaw, professor of animal biotechnology at the University of Edinburgh who was not involved in the study, described it as "exciting" because it "paves the way for significant advances."
According to Darren Griffin, professor of genetics at the University of Kent, the "work will also help us better understand evolution, development and disease" and may eventually lead to a remedy for organ shortages.
"In this study, the authors followed existing legal and ethical guidelines, allowing the embryos to develop to the maximum time allowed," he added.
"It is important that any further research is conducted with full transparency so as to allow public scrutiny and debate."
© AFP 2017