Spinal cord gives bio-bots walking rhythm

Bio-bots are propelled by a ring of muscle on a hydrogel skeleton. Illinois researchers have been the first to innervate them with rat spinal cord segments, giving the “spinobots” a natural walking rhythm. Image courtesy of Collin Kaufman

Miniature biological robots are making greater strides than ever, thanks to the spinal cord directing their steps. University of Illinois at Urbana-Champaign researchers developed the tiny walking “spinobots,” powered by rat muscle and spinal cord tissue on a soft, 3D-printed hydrogel skeleton. While previous generations of biological robots, or bio-bots, could move forward by simple muscle contraction, the integration of the spinal cord gives them a more natural walking rhythm, said study leader Martha Gillette, a professor of Cell and Developmental Biology.

“These are the beginnings of a direction toward interactive biological devices that could have applications for neurocomputing and for restorative medicine,” Gillette said.

The researchers published their findings in the journal APL Bioengineering.

To make the spinobots, the researchers first printed the tiny skeleton: two posts for legs and a flexible “backbone,” only a few millimeters across. Then, they seeded it with muscle cells, which grew into muscle tissue. Finally, they integrated a segment of lumbar spinal cord from a rat.

Article courtesy of Liz Ahlberg Touchstone and the Illinois News Bureau.

Read the full story here.

April 28, 2020 All News