A miniaturised "brain-in-a-bottle" has been grown by stem cell scientists who hope it will lead to new treatments for neurological and mental diseases.
The tiny hollow "organoids", measuring three to four millimetres across, have a structure similar to that of an immature human brain, including defined regions. But the scientists insist they are still far from the science fiction fantasy of building a working artificial brain - or even replacement parts for damaged brains.
The goal was to produce a biological tool that can be used to investigate the workings of the brain, better understand brain diseases, and test out new drugs.
Other experts described the work as "audacious", "exciting" and "stunning". One predicted the future creation of a simple animal-like brain that could be linked to sense organs and had the ability to learn.
Scientists have previously grown other laboratory "models" of human organs from stem cells, including those replicating the liver, intestine, pituitary gland and eye. But none possess the daunting intricacy of the human brain, the most complex structure in the universe.
The key to the new research involved nourishing immature cells in a gel-like "matrix" that allowed the complex organoid structures to develop. These were then transferred to a spinning bioreactor which provided extra nutrients and oxygen, enabling them to grow much larger in size.
After two months of development the "mini-brains" had become globular spheres up to four millimetres in diameter. Each one surrounded a ventricle-like inner cavity and mimicked the layered structure of a human brain growing within a developing foetus. Among the identifiable regions were a cerebral cortex, forebrain, choroid plexus - the body that produces cerebro-spinal fluid - and even a rudimentary retina. Tests showed that they contained active neurons.
The raw material the scientists started with consisted of human stem cells - immature cells with the potential to develop along many different pathways. Both embryonic stem cells, originating from early-stage embryos, and artificially "reprogrammed" skin cells known as induced pluripotent stem cells (iPS) cells were employed.
In a further experiment to show the technique's potential, the researchers used cells taken from a patient with the brain disease microcephaly to create the mini-brains. They found that the organoids' growth was stunted, mimicking the disease which causes the brain to be much smaller than normal.
Professor Juergen Knoblich, from the Institute of Molecular Biotechnology in Vienna, who led the Austrian and British team, said: "We've been able to model one disease which is microcephaly. But ultimately we'd like to move to more common disorders like schizophrenia or autism. We are confident that we might be able to model some of these defects." He said the extreme complexity and inter-connectivity of the adult brain made him "pessimistic" about the possibility of replacing whole brain structures with laboratory-grown versions. Prof Knoblich added: "Our system is not optimised for generating an entire brain and that is also in no way our goal."