New research from the University of St Andrews, the University of Copenhagen and Drexel University has developed AI ...

Scientists have developed a computer-based model that may explain how nerve cells become damaged in ALS, and how best to time ...

Last week, Google Research held an online workshop on the conceptual understanding of deep learning. The workshop, which featured presentations by award-winning computer scientists and neuroscientists ...

In a world first, a cross-institutional research collaboration has used a two-photon microscope (*1) with a combination of calcium imaging (*2) and holographic stimulation (*3) to reveal that the ...

Creating a virtual brain may sound like a science-fiction nightmare, but for neuroscientists in Japan and at Seattle’s Allen Institute, it’s a big step toward a long-held dream. They say their ...

Computational neuroscientists taught an artificial neural network to imitate a biological neuron. The result offers a new way to think about the complexity of single brain cells. Our mushy brains seem ...

Neuroscientists discover a pathway to restore mobility, leveraging deep brain stimulation to activate key neurons and enable walking recovery for individuals with spinal cord injuries. Study: ...

Furthermore, in the AD mouse model, this increased turnover was comparable to the turnover levels in the WT mice seen before stimulation. This indicates that low-intensity rTMS can potentially restore ...

A new drug-free, minimally invasive intervention targets the root cause of progressive loss of neural function in spinal muscle atrophy (SMA), an inherited neuromuscular disease. An intervention, ...

Researchers in Australia study effects of transcranial magnetic stimulation in mouse models of debilitating illness. 2-photon microscopy captures axonal segments in a living brain. Click for info.