People with post-stroke motor aphasia know what they would like to say but cannot express
it through motor pathways due to disruption of cortical circuits. We present a theoretical …

Brain-computer interfaces (BCIs) provide communication that is independent of muscle
control, and can be especially important for individuals with severe neuromuscular disease …

Objectives Brain–computer interface (BCI) technology aims at helping end-users with severe
motor paralysis to communicate with their environment without using the natural output …

Brain–computer interfaces (BCIs) enable paralyzed patients to communicate; however, up to
date, no creative expression was possible. The current study investigated the accuracy and …

Aphasia, the impairment to understand or produce language, is a frequent disorder after
stroke with devastating effects. Conventional speech and language therapy include each …

Objective Brain-computer interfaces (BCIs) provide a non-muscular communication channel
for patients with late-stage motoneuron disease (eg, amyotrophic lateral sclerosis (ALS)) or …

OBJECTIVE: Brain–computer interface (BCI) technology can provide severely disabled
people with non-muscular communication. For those most severely disabled, limitations in …

Introduction Up to 80% of post-stroke patients present upper-limb motor impairment (ULMI),
causing functional limitations in daily activities and loss of independence. UMLI is seldom …

Abstract Language impairment, or aphasia, is a disabling symptom that affects at least one
third of individuals after stroke. Some affected individuals will spontaneously recover partial …

Objectives Amyotrophic lateral sclerosis (ALS), a progressive neurodegenerative disease,
restricts patients' communication capacity a few years after onset. A proof-of-concept of brain …