Brain-machine interfaces… coming soon to a cerebrum near you

It might seem like something out of Star Trek, but people controlling so-called ‘smartbrains’ with their own thoughts could happen sooner than you think.

A smartbrain is a more common term for what biomedical engineers refer to as a brain–machine interface (BMI) – that is, a direct communication pathway between electrical activity in the brain and an external device such as a computer or a robotic limb.

UNSW biomedical engineering expert Associate Professor Mohit Shivdasani, opens in a new window says rather than being a thing of science fiction, brain-machine interfaces could become commonplace within 20 years as developments in the field continue to accelerate.

“We have computers all around us. They are in our pockets and travelling everywhere we go, but to think of integrating that directly with the brain to use the technology… it’s pretty amazing,” A/Prof. Shivdasani said on the UNSW ‘Engineering the Future of Biomedical Technologies’, opens in a new window podcast episode.

“We have seen evidence of brain-computer interfaces since 2006 at Brown University when they implanted electrodes in the motor cortex of two paralysed individuals, the part of the brain responsible for encoding thoughts and actions of movement.

“They showed that one particular person was able to control a robotic arm just by thinking about it, while another person was able to move a cursor on a computer screen and read his email.

“There is no commercial brain-machine interface that a person can use outside of a laboratory setting, but we’re very close. As technology moves forward, chips get better and smarter, they will be incorporated into medical devices.

“So we're not far off from seeing someone walking around with a brain-machine interface outside of a lab.”

Prof. Shivdasani’s own work focuses on improving bionic eyes for vision restoration in blind humans as well as developing other devices for chronic pain and inflammatory bowel disease.

And he knows that widespread implementation of brain-machine interfaces could offer dramatic benefits for people with a range of issues that currently affect their quality of life.

“There are situations where the brain can send signals, but those signals can't get to limbs for the person to be able to then walk for themselves. So what a brain-machine interface would do is read those thoughts and convert those thoughts to an action,” he said.

“So either to power an exoskeleton or let a patient drive their own wheelchair, for example.”

Importantly though, we also need to be aware of what patients want to be able to do with their devices.

“I've had a lot of chats with blind patients. When you ask them what they want from a bionic eye they'll say: ‘I want to see my family’.

“But I remember one conversation with a lady, and she said: ‘I would love to be able to see the Target sign again, because when I go into the shopping centre, I want to be able to find Target really easily’.

“As an engineer, I would never have thought about that, but that could be so important.”