New Artificial wrist joint restores movements range to forearm amputees

Published On 2018-12-06 13:40 GMT   |   Update On 2018-12-06 13:40 GMT

A group of researchers led by Max Ortiz Catalan, Associate Professor at Chalmers University of Technology, Sweden, have developed a new artificial joint restores important wrist-like movements to forearm amputees, thereby dramatically improving their quality of life. The results of the study have been published in the journal IEEE Transactions on Neural Systems & Rehabilitation Engineering.


Biomedical Engineers Irene Boni and Jason Millenaar were at Chalmers as visiting international students. They worked with Dr Ortiz Catalan at his Biomechatronics and Neurorehabilitation Lab at Chalmers, and with Integrum AB on this project.


Most of us probably take it for granted, but this is an essential movement that we use every day. Consider using a door handle, a screwdriver, a knob on a cooker, or simply turning over a piece of paper. But for patients missing a hand, one of the biggest challenges to regaining a high level of function is the inability to rotate one's wrist, or to 'pronate' and 'supinate'. When you lay your hand flat on a table, palm down, it is fully pronated. Turn your wrist 180 degrees, so the hand is palm up, and it is fully supinated.


"A person with forearm amputation can use a motorized wrist rotator controlled by electric signals from the remaining muscles. However, those same signals are also used to control the prosthetic hand," explains Max Ortiz Catalan, Associate Professor at the Department for Electrical Engineering at Chalmers.


"This results in a very cumbersome and unnatural control scheme, in which patients can only activate either the prosthetic wrist or the hand at one time and have to switch back and forth. Furthermore, patients get no sensory feedback, so they have no sensation of the hand's position or movement."


The new artificial joint works instead with an osseointegrated implant system developed by the Sweden-based company, Integrum AB - one of the partners in this project. An implant is placed into each of the two bones of the forearm - the ulna and radius - and then a wrist-like artificial joint acts as an interface between these two implants and the prosthetic hand. Together, this allows for much more naturalistic movements, with intuitive natural control and sensory feedback.


See a video of the joint in action here.

Patients who have lost their hand and wrist often still preserve enough musculature to allow them to rotate the radius over the ulnar - the crucial movement in wrist rotation. A conventional socket prosthesis, which is attached to the body by compressing the stump, locks the bones in place, preventing any potential wrist rotation, and thus wastes this useful movement.


"Depending on the level of amputation, you could still have most of the biological actuators and sensors left for wrist rotation. These allow you to feel, for example, when you are turning a key to start a car. You don't look behind the wheel to see how far to turn - you just feel it. Our new innovation means you don't have to sacrifice this useful movement because of a poor technological solution, such as a socket prosthesis. You can continue to do it in a natural way," says Max Ortiz Catalan.


"In tests designed to measure manual dexterity, we have shown that a patient fitted with our artificial joint scored far higher compared to when using conventional socket technology," explains Jason Millenaar.


"Our new device offers a much more natural range of movement, minimizing the need for compensatory movements of the shoulder or torso, which could dramatically improve the day to day lives of many forearm amputees," says Irene Boni.

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Article Source : With inputs from IEEE Transactions on Neural Systems and Rehabilitation Engineering

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