![]() ![]() The Tecla-e is designed to give people with full-body mobility issues complete access to mainstream smart technology (Credit: Tecla)Ĭanadian company Komodo OpenLab, which produces the $499 Tecla devices, says its latest product is affordable compared to traditional, similar assistive devices. The Tecla-e uses a Wi-Fi-connection to work, and requires an iOS or Android app to configure and remotely control a range of smart technology. Using controls designed for wheelchair driving and ability switches that offer alternative ways of interacting with computers, the Tecla-e means people with limited mobility can pair with up to eight Bluetooth devices at a time, and switch between them easily.Ĭompatible devices include smartphones, computers, smart TVs and Alexa-enabled voice assistants. Tecla-e, the newest version of Tecla, is an assistive device that connects to the cloud and gives its quadriplegic users full access to smart devices including laptops, mobile phones, tablets and smart home technology, such as lighting and thermostats. Tecla-e: Smartphone app allowing quadriplegic users to get online This is in direction of giving better quality of life.” “This is proof we can extend the mobility of patients in an exoskeleton. He added: “We have solved the problem and shown the principle is correct. He does not have the quick and precise movements not to fall.” Professor Alim Louis Benabid, the author of the study, said: “This is far from autonomous walking. Scientists from the University of Grenoble and French biomedical research centre Clinatec told BBC News that walking in the exoskeleton suit is far from perfect, and it can only currently be used inside a lab.īut it’s nonetheless a significant improvement on similar technology that allows patients to control a single limb with their thoughts. This allowed him to move his arms and legs, and even walk for the first time since he was paralysed after falling from a height of 15 metres in a nightclub in 2015. Two surgically-placed implants inside his head were used to read his brain activity and transfer them to a nearby computer, which turned them into instructions for controlling the exoskeleton. Here we take a look at a handful of the most innovative and unique devices of this kind, and how successful they have been.Īssistive devices for quadriplegia Mind-reading exoskeletonĪ tetraplegic man was able to move all four of his paralysed limbs with the help of an exoskeleton suit controlled by his thoughts.ĭetails of this were published as part of a French report in neurology journal The Lancet in October 2019. Improving quality of life for people with severe paralysis and lasting spinal cord injuries is one of healthcare’s biggest challenges – but scientists have still been able to use modern technology to produce assistive devices for quadriplegia.įrom mind-controlled exoskeletons to technology that is controlled using eye-movement, no stone has been left unturned in the search for a definitive piece of technology to help quadriplegics perform day-to-day tasks.Īnd as with many industries right now, AI-powered solutions are playing a central role in a lot of these medical technologies. Unlike some assistive devices, eye-tracking technology requires no muscle movement at all (Credit: Tobii Dynavox) A number of advanced technologies have been used by scientists to help people with limited mobility to become more independent ![]()
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