Treating epilepsy with deep brain stimulation
The Emory Brain Health Center has treated the nation's first patient with deep brain stimulation for medically refractory, or drug-resistant, epilepsy since commercialization of the procedure was approved last year.
Seeing through a robot's eyes helps those with motor impairments
An interface system that uses augmented reality technology could help individuals with profound motor impairments operate a humanoid robot to feed themselves and perform routine personal care tasks such as scratching an itch and applying skin lotion. The web-based interface displays a "robot's eye view" of surroundings to help users interact with the world through the machine.
Brain-computer interface advances prosthetics, therapies
Advances in connecting neural stimulation to physical control of the body are transforming the development of prosthetics and therapeutic training for people with disabilities, according to new research.
Robot teaches itself how to dress people
More than 1 million Americans require daily physical assistance to get dressed because of injury, disease and advanced age. Robots could potentially help, but cloth and the human body are complex.
AI to help stroke victims
The U.S. Food and Drug Administration has granted a De Novo request for the first-ever Computer-Aided Triage and Notification Platform to identify Large Vessel Occlusion strokes in CTA imaging.
Robotic cleaning technique could automate neuroscience research
For scientists listening in on the faint whispers of brain neurons, a first-ever robotic technique for cleaning the tiny devices that record the signals could facilitate a new level of automation in neuroscience research.
Wearable sensing technology for heart failure patients
Scientists are working to address heart failure issues by building wearable and weighing-scale-based ballistocardiogram technology for monitoring heart failure patients at home.
Ultra-thin hollow nanocages reduce platinum use in fuel cell electrode
A new fabrication technique that produces platinum hollow nanocages with ultra-thin walls could dramatically reduce the amount of the costly metal needed to provide catalytic activity in such applications as fuel cells.