Determining the priorities of individuals with spinal cord injury (SCI) can assist in choosing
research priorities that will ultimately improve their quality of life. This systematic review …

Advances in our understanding of brain function, along with the development of neural
interfaces that allow for the monitoring and activation of neurons, have paved the way for …

Soft wearable robots are good alternatives to rigid-frame exoskeletons because they are
compact and lightweight. This article describes a soft wearable hand robot called the Exo …

Abstract This article presents Exo-Glove Poly (EGP) II, a soft wearable robot for the hand
with a glove that is completely constructed of polymer materials and that operates through …

Neuromodulation of spinal networks can improve motor control after spinal cord injury (SCI).
The objectives of this study were to (1) determine whether individuals with chronic paralysis …

This letter presents a fully fabric-based bidirectional soft robotic glove designed to assist
hand impaired patients in rehabilitation exercises and performing activities of daily living …

Paralyzed muscles can be reanimated following spinal cord injury (SCI) using a brain-
computer interface (BCI) to enhance motor function alone. Importantly, the sense of touch is …

Brain–computer interface (BCI) neurotechnology has the potential to reduce disability
associated with paralysis by translating neural activity into control of assistive devices …

This paper presents a new portable exoskeleton glove developed for assistance in activities
of daily living (ADL). The proposed glove is soft, adjustable, allows unconstrained motion of …

Spinal cord injury often impacts a person's ability to perform critical activities of daily living
and can have a negative impact on their quality of life. Assistive technology aims to bridge …