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Researchers are closer to working capillaries in 3D-printed organs – Engadget

July 11th, 2017 9:50 am

All of our blood vessels are lined with a type of cell called endothelial cells. To form vessels, individual endothelial cells begin to create empty holes in themselves, called vacuoles. They then connect with other endothelial cells that have done the same thing and the linked vacuoles form tubes, which ultimately become capillaries. Here, the researchers took endothelial cells and mixed them with either fibrin -- a protein involved in blood clotting -- or a semi-synthetic material called gelatin methacrylate (GelMA), which can be easily 3D-printed. When mixed with fibrin, the endothelial cells formed tubes fairly easily, but that wasn't the case with the GelMA. However, when the researchers added in another type of cell, a stem cell found in bone marrow, the endothelial cells were then able to form tubes in the GelMA.

"We've confirmed that these cells have the capacity to form capillary-like structures, both in a natural material called fibrin and in a semi-synthetic material called gelatin methacrylate, or GelMA," Gisele Calderon, the lead author of the study, said in a statement, "The GelMA finding is particularly interesting because it is something we can readily 3D print for future tissue-engineering applications."

The benefits of this method over others include cells that can be patient-specific, reducing the risk of immune system complications, and growth environments that are well suited for organ and vasculature growth -- they're reproducible, not likely to induce immune responses and help boost cell growth and vessel development. Along with making 3D-printed organs more viable, this method will also allow for the development of tissue that could make for more effective and efficient drug testing. In a statement, Jordan Miller, whose lab the work was done in, said, "Preclinical human testing of new drugs today is done with flat two-dimensional human tissue cultures. But it is well-known that cells often behave differently in three-dimensional tissues than they do in two-dimensional cultures. There's hope that testing drugs in more realistic three-dimensional cultures will lower overall drug development costs."

You can watch a video of the cells beginning to form tubes here and Calderon explaining her work in the video below.

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Researchers are closer to working capillaries in 3D-printed organs - Engadget

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