Brain organoid biocomputers are now commercially available. Here's how living human neurons are being wired to silicon chips ...
We developed a thin, flexible microelectrode array that can be slid through a small slit in the skull onto the brain surface. We showed that this minimally invasive system records and stimulates ...
Breakthrough recorded neural activity with high clarity and remained safely functional for 18 months without a drop in ...
(A) Approximate brain size of human and macaque, which is a widely used experimental nonhuman primate. (B) Imaging methods for the detections of brain structure and function. (C) Different types of ...
Neural electrodes have extensive applications in fields including neural signal monitoring, brain-machine interfaces(BMI), and the treatment of neurodegenerative disease 1,2. Serving as interfaces ...
Megan covers the intersection of science and society. How is biomedical research funded? Who benefits? And how do new technologies reflect and shape our values? You can reach Megan on Signal at ...
Pea-sized brain blobs are a chatty bunch. Packed with neurons that spark with electrical activity, brain organoids—or “mini brains”—are a now popular way to study the human brain. Some organoids model ...
An analysis of the largest publicly available collection of scanning electron microscopy images of explanted multielectrode arrays reveals that electrolytic lesioning causes no significant additional ...
A novel electrode platform detects dopamine from single living brain organoids in real time, enabling non-destructive monitoring of neuronal function at concentrations as low as 7.51 nM. (Nanowerk ...
These are exciting times at the intersection of artificial intelligence (AI) and neuroscience. The trend in brain-computer interfaces (BCIs) is toward flexible and less invasive devices that can ...
JMIR Publications today released a feature story on the emerging field of biocomputing in its News and Perspectives section. Authored by science journalist Simon Spichak, MSc, "Biocomputing: Beyond ...