21 research outputs found
A pilot study using tactile cueing for gait rehabilitation following stroke
Recovery of walking function is a vital goal of post-stroke rehabilitation. Cueing using audio metronomes has been shown to improve gait, but can be impractical when interacting with others, particularly outdoors where awareness of vehicles and bicycles is essential. Audio is also unsuitable in environments with high background noise, or for those with a hearing impairment. If successful, lightweight portable tactile cueing has the potential to take the benefits of cueing out of the laboratory and into everyday life. The Haptic Bracelets are lightweight wireless devices containing a computer, accelerometers and low-latency vibrotactiles with a wide dynamic range. In this paper we review gait rehabilitation problems and existing solutions, and present an early pilot in which the Haptic Bracelets were applied to post-stroke gait rehabilitation. Tactile cueing during walking was well received in the pilot, and analysis of motion capture data showed immediate improvements in gait
A Gait Rehabilitation pilot study using tactile cueing following Hemiparetic Stroke
Recovery of walking function is a major goal of post-stroke rehabilitation. Audio metronomic cueing has been shown to improve gait, but can be impractical and inconvenient to use in a community setting, for example outdoors where awareness of traffic is needed, as well as being unsuitable in environments with high background noise, or for those with a hearing impairment. Silent lightweight portable tactile cueing, if similarly successful, has the potential to take the benefits out of the lab and into everyday life. The Haptic Bracelets, designed and built at the Open University originally for musical purposes, are self- contained lightweight wireless devices containing a computer, Wi-Fi chip, accelerometers and low-latency vibrotactiles with a wide dynamic range. In this paper we outline gait rehabilitation problems and existing solutions, and present an early pilot in which the Haptic Bracelets were applied to post-stroke gait rehabilitation
Advanced technology for gait rehabilitation --- An overview
Most gait training systems are designed for acute and subacute neurological inpatients. Many systems are used for
relearning gait movements (nonfunctional training) or gait cycle training (functional gait training). Each system presents
its own advantages and disadvantages in terms of functional outcomes. However, training gait cycle movements is not
sufficient for the rehabilitation of ambulation. There is a need for new solutions to overcome the limitations of existing
systems in order to ensure individually tailored training conditions for each of the potential users, no matter the complexity
of his or her condition. There is also a need for a new, integrative approach in gait rehabilitation, one that encompasses
and addresses all aspects of physical as well as psychological aspects of ambulation in real-life multitasking
situations. In this respect, a multidisciplinary multinational team performed an overview of the current technology for
gait rehabilitation and reviewed the principles of ambulation training
Supplemental material for Myelin status is associated with change in functional mobility following slope walking in people with multiple sclerosis
<p>Supplemental material for Myelin status is associated with change in functional mobility following slope walking in people with multiple sclerosis by EM King, MJ Sabatier, M Hoque, TM Kesar, D Backus and MR Borich in Multiple Sclerosis Journal – Experimental, Translational and Clinical</p