Multimedia Gallery - Muscle-powered bio-bots walk on command

Tiny "Bio-bots" are powered by muscle cells and controlled with electrical pulses

March 18, 2015

Muscle-powered bio-bots walk on command

Engineers at the University of Illinois (UI) at Urbana-Champaign developed "bio-bots," tiny biological machines powered by muscle cells and controlled with electrical pulses, giving researchers unprecedented command over their function.

The bio-bots--less than a centimeter in size and made of flexible, 3-D-printed hydrogels and living cells--were created by a team of engineers led by Rashid Bashir, the Abel Bliss Professor and head of the Department of Bioengineering at U of I. The bio-bots are powered by a strip of skeletal muscle cells that can be triggered by an electric pulse, giving researchers a simple way to control the bio-bots and allowing them to customize the bio-bots for specific applications.

The design--inspired by the muscle-tendon-bone complex found in nature--includes a backbone of 3-D printed hydrogel strong enough to give the bio-bot structure but flexible enough to bend like a joint. In addition to acting as feet for the bio-bot, two posts anchor a strip of muscle to the backbone, similar to how tendons attach muscle to bone. The bio-bot's speed is controlled by adjusting the frequency of the electric pulses. A higher frequency makes the muscle contract faster, speeding up the bio-bots progress.

Future work includes gaining greater control over the bio-bots motion, such as integrating neurons so the bio-bots can be steered in different directions with light or chemical gradients, and, on the engineering side, designing a hydrogel backbone that will allow the bio-bots to move in different directions based on different signals.

"The idea of doing forward engineering with these cell-based structures is very exciting," Bashir said. "Our goal is for these devices to be used as autonomous sensors. We want it to sense a specific chemical and move towards it, then release agents to neutralize the toxin, for example. Being in control of the actuation is a big step forward toward that goal."

The National Science Foundation supported this work through a Science and Technology Center (Emergent Behavior of Integrated Cellular Systems) grant (CBET 09-39511 and ), in collaboration with the Massachusetts Institute of Technology, the Georgia Institute of Technology and other partner institutions.

To learn more, see the UI news story Muscle-powered bio-bots walk on command. (Date of Image: June 2014)

Credit: Image created by Janet Sinn-Hanlon, DesignGroup@VetMed for Dr. Rashid Bashir, Department of Bioengineering, University of Illinois

Images and other media in the National Science Foundation Multimedia Gallery are available for use in print and electronic material by NSF employees, members of the media, university staff, teachers and the general public. All media in the gallery are intended for personal, educational and nonprofit/non-commercial use only.

Images credited to the National Science Foundation, a federal agency, are in the public domain. The images were created by employees of the United States Government as part of their official duties or prepared by contractors as "works for hire" for NSF. You may freely use NSF-credited images and, at your discretion, credit NSF with a "Courtesy: National Science Foundation" notation.

Additional information about general usage can be found in Conditions.

Also Available:
Download the high-resolution TIF version of the image. (29.1 MB)

Use your mouse to right-click (Mac users may need to Ctrl-click) the link above and choose the option that will save the file or target to your computer.