Featured News Image Featured News | Jul 1 2024 Wu Tsai Neurosciences Institute Molecular toolmakers share glimpses of the future of brain science At the 2024 Neuro-omics Symposium, early-stage research funded by Wu Tsai Neuro's Big Ideas in Neuroscience program revealed exciting progress at the intersection of genomics and AI Image Featured News | Jun 27 2024 Wu Tsai Neurosciences Institute The Worm Has Turned: DIY Lab Platform Evaluates New Molecules in Minutes New software developed by the NeuroPlant Big Ideas in Neuroscience initiative turns an ordinary flatbed scanner and collection of nematode worms into a DIY platform to sniff out beneficial and harmful plant-based molecules Image Featured News | Jun 20 2024 Wu Tsai Neurosciences Institute How a new kind of brain plasticity could help make sense of addiction This week, we talk with Michelle Monje and Rob Malenka about recent findings on the role of myelin plasticity in opioid addiction Image Featured News | Jun 7 2024 Wu Tsai Neurosciences Institute Koret Human Neurosciences Community Lab Announces Inaugural Pilot Grant Awards To advance neuroscience research using EEG and TMS technologies, the Koret Human Neurosciences Community Lab has awarded its inaugural Human Neuroscience Pilot Grants to ten innovative research projects. News Filter & Sort Sort by ThemeNeuroDiscovery NeuroHealth NeuroEngineering News TypeResearch news Featured News Press coverage Knight Initiative news Awards and honors Institute News Researcher profiles Podcast episodes Director's messages Sort by Newest to oldest Oldest to newest Image Research news | Jun 19 2015 Stanford News - Building a Brain - Step 1 Map the circuits If you wanted to reverse-engineer a piece of electronics, the first thing you'd investigate is how the various parts are connected. In the brain, that means tracing the paths of 100 billion neurons. Image Research news | Mar 17 2015 Stanford News Stanford neuroscientists find that noisy neurons are critical for learning A computer model of brain function helps explain a 20-year-old finding that the way a single noisy neuron fires in the brain can predict an animal's decisions. It turns out neurons without noise can't learn. The type of learning the group modeled reflects Image Research news | Jun 19 2014 Stanford News Seeing the inner workings of the brain made easier by new technique from Stanfor... Bio-X scientists have improved on their original technique for peering into the intact brain, making it more reliable and safer. The results could help scientists unravel the inner connections of how thoughts, memories or diseases arise. Pagination Previous page Page 26 Page 27 Page 28 Page 29 Current page 30 Next page
Image Featured News | Jul 1 2024 Wu Tsai Neurosciences Institute Molecular toolmakers share glimpses of the future of brain science At the 2024 Neuro-omics Symposium, early-stage research funded by Wu Tsai Neuro's Big Ideas in Neuroscience program revealed exciting progress at the intersection of genomics and AI
Image Featured News | Jun 27 2024 Wu Tsai Neurosciences Institute The Worm Has Turned: DIY Lab Platform Evaluates New Molecules in Minutes New software developed by the NeuroPlant Big Ideas in Neuroscience initiative turns an ordinary flatbed scanner and collection of nematode worms into a DIY platform to sniff out beneficial and harmful plant-based molecules
Image Featured News | Jun 20 2024 Wu Tsai Neurosciences Institute How a new kind of brain plasticity could help make sense of addiction This week, we talk with Michelle Monje and Rob Malenka about recent findings on the role of myelin plasticity in opioid addiction
Image Featured News | Jun 7 2024 Wu Tsai Neurosciences Institute Koret Human Neurosciences Community Lab Announces Inaugural Pilot Grant Awards To advance neuroscience research using EEG and TMS technologies, the Koret Human Neurosciences Community Lab has awarded its inaugural Human Neuroscience Pilot Grants to ten innovative research projects.
Image Research news | Jun 19 2015 Stanford News - Building a Brain - Step 1 Map the circuits If you wanted to reverse-engineer a piece of electronics, the first thing you'd investigate is how the various parts are connected. In the brain, that means tracing the paths of 100 billion neurons.
Image Research news | Mar 17 2015 Stanford News Stanford neuroscientists find that noisy neurons are critical for learning A computer model of brain function helps explain a 20-year-old finding that the way a single noisy neuron fires in the brain can predict an animal's decisions. It turns out neurons without noise can't learn. The type of learning the group modeled reflects
Image Research news | Jun 19 2014 Stanford News Seeing the inner workings of the brain made easier by new technique from Stanfor... Bio-X scientists have improved on their original technique for peering into the intact brain, making it more reliable and safer. The results could help scientists unravel the inner connections of how thoughts, memories or diseases arise.