Johnny Matheny's prosthetic arm controlled by Thalmic Lab armband - Action News
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Kitchener-Waterloo

Johnny Matheny's prosthetic arm controlled by Thalmic Lab armband

Kitchener's Thalmic Labs has developed an armband sensor that may revolutionize the future of prosthetics by capturing electrical impulses generated by the brain and helping turn them into limb movement.

Wearable sensor technology measures nerve impulses to bridge mind-control and muscles

Johnny Matheny lost his arm to cancer, but using the the Myo armband from Kitchener's Thalmic Labs he's able to control a prosthetic arm with his brain. (Johns Hopkins University)

Kitchener's Thalmic Labs is helping bridge the gap between brain and musclemovement with a sensor armband that's been used to control an amputee's prosthetic arm and hand.

In 2008JohnnyMatheny,a bread sales and delivery driver in the U.S.,lost the lower part of his left arm to cancer.

Since that time he has been trying to improve the quality of life for prosthetic-wearers. The first step was a surgery called TMR.

"Targeted MuscleRe-enervation," explained Matheny to CBC Radio Kitchener-Waterloo'sThe Morning Edition. "Even though the nerve endings that control the lower part of my arm were cut off, they're still there and can be re-used,"he said. "They take them and re-implant them in muscles still left in the stump."

The Myo armband technology developed by Kitchener's Thalmic Labs is being used to give amputees control over their prosthetic limbs. (Hannah Yoon/The Canadian Press)
As the person thinks aboutmovingtheir missinglimb, a minuteelectrical impulse travels from the brain to the re-implanted nerves. Sensors in the armbands register the impulse, correlate it to the missing muscles, and trigger a motor in the prosthetic limb to move in a similar manner to the missing flesh and bone.

"They did five different re-enervations in my stump," Mathenyexplained, "and this allows me to where I'm able to work my hand, wrist and elbow."

"We started out using miles of electrical wires to connect the stump to my prosthetic," he said. "Then we moved up to wi-fi."

The next step was to replace single-use stickyelectricalsensors attached to his armstump with the wearable Myo armbandfrom Thalmic Labs, which communicates with the prosthetic limbvia BlueTooth. "It snuggles up against your muscles...just like a watch." Mathenysaid.

"It's very much more comfortable," he added. Typical prosthetic limbs use a suction or velcro to tether to thestump and prolonged wearing can cause skin irritation.

'Like an infant'

"When you first lose a limb, the mind still sends signals down," Matheny said. "After a while if it doesn't get a result, it just shuts downit doesn't send any more."

"Once you get through the surgery and re-open the pathways again, then it's a learning process just like you're an infant. You have to start all over again," he said.

"The more you do it, the faster itcomes back to you."

Military financing

Matheneyhas said that although his sons served in the military and returned unharmed, he is sympathetic to soldiers who've lost limbs and wants to help them regain as much of their former mobility as possible.

The MYO wearable band from Thalmic Labs controls electronic devices through the signals in the muscles of the forearm. (YouTube)
The U.S. Army financed the research and developmentof the prototype arm he uses.

"The Armed Forceshavealready done their part," Matheny said, "butnow the rest of it is going to be from individual donors, from corporations or whatever."

Mathenybelievesthe surgery,mechanical and electronic technologyhave all been proven towork.

The next step, beyond making the prosthetics convenient and move in alife-like way, he said, is to develop a coveringthat can be sensitive to touch.

"To feel, as near normal as you can get, with a plastic arm."