Featured News Image Knight Initiative news | Mar 23 2026 Knight Initiative for Brain Resilience New ideas in aging and resilience research launched by Rosenkranz Foundation and... The Rosenkranz Aging and Rejuvenation Seed Grant Program announced eight innovative new research projects with additional support from the Knight Initiative for Brain Resilience Image Wu Tsai Neuro News | Mar 23 2026 Wu Tsai Neurosciences Institute Announcing the 2026 Neurosciences Postdoctoral Scholars Ten innovative postdoctoral scholars will pursue creative approaches to advance neuroscience and brain resilience research Image Research news | Mar 19 2026 Knight Initiative for Brain Resilience Study of pythons’ extreme diet reveals new hunger-curbing molecule The snakes’ unique feeding behavior offers new clues about the gut-brain axis—and hints of a potential weight-loss drug with fewer side effects than GLP-1 drugs Image Research news | Mar 12 2026 Knight Initiative for Brain Resilience Watching a lifetime in motion reveals the architecture of aging Knight Initiative scientists tracked every moment of the life of the African turquoise killifish, showing that behavior alone can forecast whether an animal will live a long or short life News Filter & Sort Sort by Theme (-) NeuroDiscovery NeuroHealth NeuroEngineering News TypeResearch news Press coverage Wu Tsai Neuro News Podcast episodes Awards and honors Researcher profiles News Features Knight Initiative news Director's messages Sort by Newest to oldest Oldest to newest Image Research news | Dec 1 2016 Stanford News Portions of the brain fall asleep and wake back up all the time, Stanford resear... New research finds that small regions of the brain cycle in and out of sleep, even when awake. The cycles shift toward “awake” when that part of the brain pays attention to a task. Image Research news | Aug 17 2016 Wu Tsai Neurosciences Institute 5 Questions: Robert Malenka on Ecstasy research In a Q&A, the neuroscientist discusses the reasons for continued basic and clinical research on an illegal drug scientists call 3,4-methylenedioxymethamphetamine, or MDMA, and partiers call Ecstasy. Image Researcher profiles | Apr 20 2016 Wu Tsai Neurosciences Institute From how we form memories to what drives addiction: A conversation with Robert M... Robert Malenka, the Nancy Friend Pritzer Professor of Psychiatry and Behavioral Sciences at Stanford University, is famous for his discoveries on how neurons in our brain make and store new memories. He is also a pioneer in the field of addiction research Image Research news | Apr 12 2016 Wu Tsai Neurosciences Institute Low-risk drinking guidelines vary widely among countries Inconsistency among countries about what constitutes a "standard drink" and definitions of low-risk drinking hampers international research and confuses people attempting to drink responsibly. Image Research news | Jan 7 2016 Wu Tsai Neurosciences Institute Odds are good that risky gambling choices are influenced by a single brain conne... Whether a person will place a risky bet comes down to a newly discovered tract of neurons spanning two brain regions. The findings could help understand and treat gambling or addiction disorders. Image Research news | Dec 11 2015 Wu Tsai Neurosciences Institute Scientists reveal brain circuit mechanisms underlying arousal regulation A new study shows that a circuit in a brain structure called the thalamus acts like a radio, with different stations operating at different frequencies and appealing to different “listening audiences.” Image Research news | Jul 14 2015 Wu Tsai Neurosciences Institute Microscopy technique helps reveal how oligodendrocytes wrap around neurons Cells pull themselves through the world with the help a complex internal protein scaffold called the cytoskeleton. Given the ubiquitous role of that structure in cell movement – particularly a protein called actin – it seemed likely those same proteins wo Image Research news | Jun 19 2015 Wu Tsai Neurosciences Institute 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 Wu Tsai Neurosciences Institute 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 Wu Tsai Neurosciences Institute 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 18 Page 19 Page 20 Page 21 Current page 22 Next page
Image Knight Initiative news | Mar 23 2026 Knight Initiative for Brain Resilience New ideas in aging and resilience research launched by Rosenkranz Foundation and... The Rosenkranz Aging and Rejuvenation Seed Grant Program announced eight innovative new research projects with additional support from the Knight Initiative for Brain Resilience
Image Wu Tsai Neuro News | Mar 23 2026 Wu Tsai Neurosciences Institute Announcing the 2026 Neurosciences Postdoctoral Scholars Ten innovative postdoctoral scholars will pursue creative approaches to advance neuroscience and brain resilience research
Image Research news | Mar 19 2026 Knight Initiative for Brain Resilience Study of pythons’ extreme diet reveals new hunger-curbing molecule The snakes’ unique feeding behavior offers new clues about the gut-brain axis—and hints of a potential weight-loss drug with fewer side effects than GLP-1 drugs
Image Research news | Mar 12 2026 Knight Initiative for Brain Resilience Watching a lifetime in motion reveals the architecture of aging Knight Initiative scientists tracked every moment of the life of the African turquoise killifish, showing that behavior alone can forecast whether an animal will live a long or short life
Image Research news | Dec 1 2016 Stanford News Portions of the brain fall asleep and wake back up all the time, Stanford resear... New research finds that small regions of the brain cycle in and out of sleep, even when awake. The cycles shift toward “awake” when that part of the brain pays attention to a task.
Image Research news | Aug 17 2016 Wu Tsai Neurosciences Institute 5 Questions: Robert Malenka on Ecstasy research In a Q&A, the neuroscientist discusses the reasons for continued basic and clinical research on an illegal drug scientists call 3,4-methylenedioxymethamphetamine, or MDMA, and partiers call Ecstasy.
Image Researcher profiles | Apr 20 2016 Wu Tsai Neurosciences Institute From how we form memories to what drives addiction: A conversation with Robert M... Robert Malenka, the Nancy Friend Pritzer Professor of Psychiatry and Behavioral Sciences at Stanford University, is famous for his discoveries on how neurons in our brain make and store new memories. He is also a pioneer in the field of addiction research
Image Research news | Apr 12 2016 Wu Tsai Neurosciences Institute Low-risk drinking guidelines vary widely among countries Inconsistency among countries about what constitutes a "standard drink" and definitions of low-risk drinking hampers international research and confuses people attempting to drink responsibly.
Image Research news | Jan 7 2016 Wu Tsai Neurosciences Institute Odds are good that risky gambling choices are influenced by a single brain conne... Whether a person will place a risky bet comes down to a newly discovered tract of neurons spanning two brain regions. The findings could help understand and treat gambling or addiction disorders.
Image Research news | Dec 11 2015 Wu Tsai Neurosciences Institute Scientists reveal brain circuit mechanisms underlying arousal regulation A new study shows that a circuit in a brain structure called the thalamus acts like a radio, with different stations operating at different frequencies and appealing to different “listening audiences.”
Image Research news | Jul 14 2015 Wu Tsai Neurosciences Institute Microscopy technique helps reveal how oligodendrocytes wrap around neurons Cells pull themselves through the world with the help a complex internal protein scaffold called the cytoskeleton. Given the ubiquitous role of that structure in cell movement – particularly a protein called actin – it seemed likely those same proteins wo
Image Research news | Jun 19 2015 Wu Tsai Neurosciences Institute 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 Wu Tsai Neurosciences Institute 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 Wu Tsai Neurosciences Institute 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.
