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Smart Textiles

User-friendly Myoshirt adds muscle

Cable in the fabric acts as an artificial tendon.

13th July 2022

Innovation in Textiles
 |  Zürich, Switzerland

Sports/​Outdoor, Medical/Hygiene

Researchers at ETH Zurich have developed a wearable textile exomuscle that serves as an extra layer of muscles and will use it to increase the upper body strength and endurance of people with restricted mobility.

Michael Hagmann was diagnosed with a rare form of muscular dystrophy known as Bethlem myopathy back in 2016 and his arms are simply getting weaker. To compensate for the lack of muscle strength in his arms, he adjusts his movements in a way that results in poor posture and strain.

Marie Georgarakis, a former doctoral student at ETH Zurich’s Sensory Motor Systems Lab, is familiar with the problem.

 “Although hospitals have numerous good therapy devices, they are often very expensive and unwieldy and there are few technical aids that patients can use directly in their everyday lives and draw on for assistance in performing exercises at home,” she says. “We want to close this gap.”

This led to the creation of the Myoshirt – a soft, wearable exomuscle for the upper body. It is a kind of vest with cuffs for the upper arms accompanied by a small box containing all the technology that is not used directly on the body. Working via sensors embedded in the fabric, a smart algorithm detects the wearer’s intentional movements and the amount of force required. A motor then shortens a cable in the fabric running parallel to the wearer’s muscles – a sort of artificial tendon – and in this way supports the desired movement. This assistance is always in tune with the user’s movements and can be tailored to their individual preferences.

© ETH Zurich

The researchers have recently tested this prototype for the first time in a study featuring 12 participants – ten people without any physical impairments, Michael Hagmann and one person with a spinal cord injury – and the results were promising.

All participants were able to lift their arms and/or objects for much longer thanks to the exomuscle. Endurance increased by about a third in the healthy subjects and by roughly 60% for Hagmann, while the participant with a spinal cord injury was even able to perform the exercises for three times as long as before. The exomuscle made it less taxing on their muscles, with the overwhelming majority of the participants finding the device intuitive to use.

Nevertheless, it takes time for a product to be market-”‹ready.

“In the next phase, we want to test our prototype outside the lab in the natural environment of future wearers and use the results to further improve it,” says Michele Xiloyannis, who also works at the Sensory Motor Systems Lab at ETH Zurich and is conducting research for the Myoshirt project.

To enable the device to be worn unobtrusively and comfortably under a person’s clothing, it has to be reduced even more in size and weight – the actuator and control box currently weigh 4 kg. The researchers want to minimise the product’s size by focusing on a single core function – supporting the user’s shoulders when lifting their arms. They are also working closely with ETH spin-”‹off MyoSwiss AG, which manufactures and markets a soft exoskeleton.

“What I particularly like is how the researchers are iteratively developing their ideas in collaboration with potential users,” says Hagmann, who has already assisted with the testing of various technical aids at ETH – from prototype through to finished product.

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