<p>A joint team of researchers from the US and the UK have for the first time created a synthetic human embryo-like structure from stem cells, without eggs and sperm.</p>.<p>The structures do not have a beating heart or a brain, but have cells which can later form the placenta, yolk sac and the embryo itself, <em>The Guardian</em> <a href="https://www.theguardian.com/science/2023/jun/14/synthetic-human-embryos-created-in-groundbreaking-advance">reported</a>.</p>.<p>The finding may pave the way for understanding of genetic diseases or the causes of miscarriages.</p>.<p>Professor Magdalena Zernicka-Goetz from the University of Cambridge, UK and also a professor of biology and biological engineering at California Institute of Technology (CalTech), US, developed the embryo model using stem cells - the body's master cells, which can develop into almost any cell type in the body.</p>.<p><strong><a href="https://www.deccanherald.com/science-and-environment/scientists-discover-a-virgin-birth-in-a-crocodile-1225716.html">Also read: Scientists discover a virgin birth in a crocodile</a></strong></p>.<p>"We can create human embryo-like models by the reprogramming of [embryonic stem] cells," said Zernicka-Goetz while presenting the research at the International Society for Stem Cell Research's annual meeting in Boston on Wednesday.</p>.<p>In August, last year, Zernicka-Goetz and her team, along with Israeli researchers, had described creating model embryo-like structures from mouse stem cells. Those "embryoids" showed the beginnings of a brain, heart and intestinal tract after about eight days of development.</p>.<p>Meanwhile, Zernicka-Goetz said that the embryos were cultivated at a stage just beyond the equivalent of 14 days of development for a natural embryo, the report said. The research is yet to be published in a journal.</p>.<p>Each structure of the model was grown from a single embryonic stem cell. It reached the beginning of a developmental milestone known as gastrulation -- when the embryo transforms from being a continuous sheet of cells to forming distinct cell lines and setting up the basic axes of the body.</p>.<p>At this stage, the embryo does not yet have a beating heart, gut or beginnings of a brain, but the model showed the presence of primordial cells that are the precursor cells of egg and sperm, the report.</p>.<p>"Our human model is the first three-lineage human embryo model that specifies amnion and germ cells, precursor cells of egg and sperm," Zernicka-Goetz was quoted as saying to <em>The Guardian</em>.</p>.<p>"It's beautiful and created entirely from embryonic stem cells."</p>.<p>The research also raises serious ethical and legal issues as the lab-grown entities fall outside current legislation.</p>.<p>"Unlike human embryos arising from In Vitro Fertilisation (IVF), where there is an established legal framework, there are currently no clear regulations governing stem cell-derived models of human embryos, James Briscoe, Associate Research Director at the Francis Crick Institute, said in a statement.</p>.<p>"There is an urgent need for regulations to provide a framework for the creation and use of stem cell-derived models of human embryos," he added.</p>
<p>A joint team of researchers from the US and the UK have for the first time created a synthetic human embryo-like structure from stem cells, without eggs and sperm.</p>.<p>The structures do not have a beating heart or a brain, but have cells which can later form the placenta, yolk sac and the embryo itself, <em>The Guardian</em> <a href="https://www.theguardian.com/science/2023/jun/14/synthetic-human-embryos-created-in-groundbreaking-advance">reported</a>.</p>.<p>The finding may pave the way for understanding of genetic diseases or the causes of miscarriages.</p>.<p>Professor Magdalena Zernicka-Goetz from the University of Cambridge, UK and also a professor of biology and biological engineering at California Institute of Technology (CalTech), US, developed the embryo model using stem cells - the body's master cells, which can develop into almost any cell type in the body.</p>.<p><strong><a href="https://www.deccanherald.com/science-and-environment/scientists-discover-a-virgin-birth-in-a-crocodile-1225716.html">Also read: Scientists discover a virgin birth in a crocodile</a></strong></p>.<p>"We can create human embryo-like models by the reprogramming of [embryonic stem] cells," said Zernicka-Goetz while presenting the research at the International Society for Stem Cell Research's annual meeting in Boston on Wednesday.</p>.<p>In August, last year, Zernicka-Goetz and her team, along with Israeli researchers, had described creating model embryo-like structures from mouse stem cells. Those "embryoids" showed the beginnings of a brain, heart and intestinal tract after about eight days of development.</p>.<p>Meanwhile, Zernicka-Goetz said that the embryos were cultivated at a stage just beyond the equivalent of 14 days of development for a natural embryo, the report said. The research is yet to be published in a journal.</p>.<p>Each structure of the model was grown from a single embryonic stem cell. It reached the beginning of a developmental milestone known as gastrulation -- when the embryo transforms from being a continuous sheet of cells to forming distinct cell lines and setting up the basic axes of the body.</p>.<p>At this stage, the embryo does not yet have a beating heart, gut or beginnings of a brain, but the model showed the presence of primordial cells that are the precursor cells of egg and sperm, the report.</p>.<p>"Our human model is the first three-lineage human embryo model that specifies amnion and germ cells, precursor cells of egg and sperm," Zernicka-Goetz was quoted as saying to <em>The Guardian</em>.</p>.<p>"It's beautiful and created entirely from embryonic stem cells."</p>.<p>The research also raises serious ethical and legal issues as the lab-grown entities fall outside current legislation.</p>.<p>"Unlike human embryos arising from In Vitro Fertilisation (IVF), where there is an established legal framework, there are currently no clear regulations governing stem cell-derived models of human embryos, James Briscoe, Associate Research Director at the Francis Crick Institute, said in a statement.</p>.<p>"There is an urgent need for regulations to provide a framework for the creation and use of stem cell-derived models of human embryos," he added.</p>