Individuals with lower-limb amputation often have gait deficits and diminished mobility
function. Biofeedback systems have the potential to improve gait rehabilitation outcomes …

The world is experiencing an unprecedented, enduring, and pervasive aging process. With
more people who need walking assistance, the demand for lower extremity gait …

Brain computer interface (BCI)-based training is promising for the treatment of stroke
patients with upper limb (UL) paralysis. However, most stroke patients receive …

Postural instability and fear of falling represent two major causes of decreased mobility and
quality of life in cerebrovascular and neurologic diseases. In recent years, rehabilitation …

Training with visual and auditory biofeedback, in patients with stroke, improved balance
ability and asymmetric posture. We developed a new biofeedback training device to prevent …

Walking impairment impacts nearly 66% of stroke survivors and is a rising cause of morbidity
worldwide. Despite conventional post-stroke rehabilitative care, the majority of stroke …

Post-stroke gait is slow, energetically costly, and unstable. Rehabilitation is necessary to
encourage, retrain, and assist proper gait mechanics in stroke survivors. Evidence indicates …

Background: Haptic feedback is an established method to provide sensory information
(tactile or kinesthetic) about the performance of an activity that an individual can not …

Aging, injury, or ailments can contribute to impaired balance control and increase the risk of
falling. Provision of light touch augments the sense of balance and can thus reduce the …

In recent years, advances in robotics and the constant growth of gait-related pathologies led
to the development of different assistive devices. Smart walkers provide natural and intuitive …