Every day, elderly people fall – be it at home or in care facilities. Lindera aims to reduce the risk of falling with the help of artificial intelligence.
Search for: gait training
Researchers have demonstrated that high-dose therapy gait training using robotic exoskeletons may aid early rehabilitation for acute stroke.
Robotic body-weight support devices can play a key role in helping people with neurological disorders to improve their walking.
Exoskeleton-assisted rehabilitation can be beneficial in treating stroke survivors.
Preliminary findings by Kessler researchers show that the use of a robotic exoskeleton during inpatient rehabilitation for acute stroke may improve function.
Experts at Kessler Foundation led the first pilot randomized controlled trial of robotic-exoskeleton assisted exercise rehabilitation effects on mobility, cognition, and brain connectivity in people with substantial MS-related disability.
Scientists in Dresden are expanding their digital health expertise in multiple sclerosis (MS) therapy and research with an ambitious scientific project - creating a "digital twin“ from data.
Researchers have shown that gait training using robotic exoskeletons improved motor function in adolescents and young adults with acquired brain injury.
Researchers have published the results of a trial of the ReWalk ReStore soft robotic exosuit for gait training in individuals undergoing post-stroke rehabilitation.
A deep learning powered single-strained electronic skin sensor can capture human motion from a distance.
The iStride device is strapped over the shoe of the good leg and generates a backwards motion, exaggerating the existing step, making it harder to walk while wearing the shoe.