Bioengineers can already make 2D structures out of tissue -- but attempts to make organs or larger piece of meat usually lead to sludge.
Now, a team from the University of Pennsylvania and the Massachusetts Institute of Technology (MIT) found that 3D printing "templates" of sugar and growing meat over them can create living artificial "organs" with blood vessels.
So far, one of the major roadblocks to making the jump from 2D to 3D is keeping the cells within large structures from suffocating.
The new technique, detailed in journal Nature Materials, works by printing organs "inside out" so that the blood vessels are printed first, then flesh is grown around them.
"Sometimes the simplest solutions come from going back to basics," study researcher Dr Jordan Miller was quoted as saying by the Daily Mail.
"I got the first hint at this solution when I visited a Body Worlds exhibit, where you can see plastic casts of free-standing, whole organ vasculature," he said.
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This rapid casting technique hinged on the researchers developing a material that is rigid enough to exist as a 3D network of cylindrical filaments but which can also easily dissolve in water without toxic effects on cells.
After much testing, the researchers found the perfect mix of material properties in sugar.
"Since there's no single type of gel that's going to be optimal for every kind of engineered tissue, we also wanted to develop a sugar formula that would be broadly compatible with any cell type or water-based gel," Miller said.
The whole process is quick and inexpensive, allowing the researchers to switch with ease between computer simulations and physical models of multiple vascular configurations.
"This new platform technology, from the cell's perspective, makes tissue formation a gentle, quick journey," said lead researcher Dr Christopher Chen. (More)