National Biomechanics Day at SEAS – Harvard School of Engineering and Applied Sciences

What do your muscles do when you lift a heavy object? What happens in your brain when you go for a run? How do visual effects studios digitally capture human movement for use in a video game or movie?

Local high school students learned firsthand about all those concepts at the National Biomechanics Day hosted by the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) at the Science and Engineering Complex. The program was organized by researchers in the Harvard Biodesign Lab, led by Conor J. Walsh, Paul A. Maeder Professor of Engineering and Applied Sciences at SEAS.

I was really proud of our team that they were able to have the initiative to organize a jam-packed agenda that went over lots of different topics, Walsh said.

Krithika Swaminathan, a Ph.D. student in Walshs lab, was the lead organizer for the event, which was supported by a grant through the Women in Biomechanics Initiative. Despite some early concerns about turnout, more than twice as many students signed up as there were spaces available, with a final attendance of 27, more than half of whom identified as female or non-binary.

We have quite a lot of cool measurement tools and really interesting ways of understanding human movement, so we thought it would be great to allow students in the area to come and experience what that looks like, Swaminathan said. A lot of us didnt know much about these subjects before college or even graduate school, so it was something we felt would be nice to share with high schoolers.

The event began with presentations by the Biodesign Lab team and Paul Devita, founder and director of the Biomechanics Initiative. After that, students got to experience hands-on biomechanics research, as they built their own inflatable wrist braces.

If you have these inflatable pouches arranged in a smart way, you can dictate the way in which the bodys joints move, Swaminathan said. Despite the simplicity of the device, students were able to gain hands-on experience with a common actuation mechanism of soft wearable devices, the associated challenges, and the resultant changes in their biomechanics while wearing the inflated brace.

From there, the event shifted to the SECs new Motion Capture Lab, where students got a chance to experience how motion capture works, test their muscle torque and activation through tools such as a dynamometer, experience electromyography and functional electrical stimulation of the muscles, learn about exosuits and robotic gloves developed to help in rehabilitation from a stroke or spinal cord injury, and learn about lower-cost tools that can make biomechanics research more accessible.

We were showing them different ways you can use your phone or other wearable sensing mechanisms to determine range of motion and other clinically relevant metrics, Swaminathan said.

Originally posted here:

National Biomechanics Day at SEAS - Harvard School of Engineering and Applied Sciences