Background Traumatic cervical spinal cord injury (SCI) results in reduced sensorimotor
abilities that strongly impact on the achievement of daily living activities involving hand/arm …

Repeated use of brain-computer interfaces (BCIs) providing contingent sensory feedback of
brain activity was recently proposed as a rehabilitation approach to restore motor function …

Long-term disability is often associated with persistent impairment of an upper limb. In this
respect, neurological rehabilitation aims to lessen motor impairment and related disability …

Loss of arm and hand function is one of the most devastating consequences of cervical
spinal cord injury (SCI). Although some residual functional neurons often pass the site of …

Restoration of motor function is one of the highest priorities in individuals afflicted with spinal
cord injury (SCI). The application of brain-machine interfaces (BMIs) to neuroprostheses …

Objective Intracortical brain-machine interface (iBMI) is an assistive strategy to restore lost
sensorimotor function by bridging the disrupted neural pathways to reanimate paralyzed …

In the recent years, the increasing applications of brain–computer interface (BCI) in
rehabilitation programs have enhanced the chances of functional recovery for patients with …

Study design Feasibility and preliminary clinical efficacy analysis in a single-arm
interventional study. Objectives We developed a brain–computer interface-triggered …

Background Stroke is a leading cause of long-term disability. Cost-effective post-stroke
rehabilitation programs for upper limb are critically needed. Brain-Computer Interfaces …

Brain–computer interface (BCI) is an emerging tool that has a variety of practical
applications, including rehabilitation. BCIs are systems that extract and classify features in …