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 ThemeNeuroDiscovery NeuroHealth NeuroEngineering News Type (-) Research news Researcher profiles Awards and honors Press coverage Wu Tsai Neuro News Sort by Newest to oldest Oldest to newest Image Research news | Apr 12 2019 Stanford Medicine - Scope Roommates’ exchange fuels research collaboration Recent Stanford research on the importance of a particular gene in aging can be traced to a casual conversation between roommates. Image Research news | Apr 9 2019 Stanford Medicine - Scope Could a vibrating glove become part of stroke therapy? Stanford researchers are collaborating to develop a vibrating glove that could improve hand function following a stroke if worn for several hours a day. Image Research news | Apr 4 2019 Stanford Medicine - News Center Blocking protein’s activity restores cognition in old mice Brain cells called microglia serve as the brain’s garbage crew, scarfing up bits of cellular debris. But their underperformance in aging brains contributes to neurodegeneration. Now, a possible workaround? Image Research news | Apr 4 2019 Stanford - News Seed grants help ideas grow Stanford researchers have for years looked to seed grants to get innovative, risky or simply new ideas – whether it’s using prawns to combat disease or drones to map coral reefs – off the ground. Image Research news | Apr 4 2019 Stanford News Stanford, Georgia Tech researchers build a glove to treat symptoms of stroke Strokes often have a devastating impact on something most of us rely heavily on in our daily lives – our hands. Now, Stanford researchers are collaborating on a vibrating glove that could improve hand function after a stroke. Image Research news | Apr 3 2019 Wu Tsai Neurosciences Institute Biology may make certain PTSD patients unresponsive to behavioral therapy Clinicians may be able to determine whether people with post-traumatic stress disorder will respond to psychotherapy by analyzing a key brain network and memory, according to Stanford researchers. Image Research news | Apr 3 2019 Stanford Medicine - Scope Blocking protein that impairs brain’s clean-up crew improves old mice’s smarts Brain cells called microglia keep brains young by eliminating accumulations of protein debris. But their garbage-colllection ability fades with age. Image Research news | Apr 3 2019 Wu Tsai Neurosciences Institute Researchers outline possible role of a deep brain structure in concussion Through a combination of biometric tracking, simulated modeling and medical imaging, Stanford researchers have detailed how hits to the side of the head may cause concussion. Image Research news | Apr 1 2019 Stanford Medicine - News Center Bacteria partners with virus to cause chronic wounds A virus that infects a dangerous bacteria helps it thrive in wounds, according to a study by Stanford researchers. But a vaccine against the virus dramatically cuts the bacteria’s infectivity. Image Research news | Apr 1 2019 Stanford Medicine - Scope “Free lunch” reshapes the brain’s map of space Each time you get a reward, your brain's internal spatial map warps just a bit in a way that makes it easier for you to get back to wherever you got it. Image Research news | Apr 1 2019 Stanford Medicine - Scope Partners-in-crime: Bacteria sics its pet virus on our immune cells to make us si... P. aeruginosa, a type of bacteria, is increasingly drug-resistant, and there's no vaccine against it. But it has a recently discovered Achilles heel. Image Research news | Mar 28 2019 Stanford Medicine - News Center ‘Free lunch’ warps inner spatial map in rat brains and, by implication, human br... The brain creates spatial maps to help animals, including humans, navigate through different environments. But even in the same environment, Stanford scientists have shown, the promise of a reward redraws the map. Image Research news | Mar 26 2019 NeuWrite West Can we reverse engineer the brain like a computer? Neuroscientists have a dizzying array of methods to listen in on hundreds or even thousands of neurons in the brain and have even developed tools to manipulate the activity of individual cells. Image Research news | Mar 13 2019 Stanford Medicine - Scope Autism app blends play, social learning and research Stanford biomedical data scientist Dennis Wall and his team are developing technology that could help experts study and treat autism simultaneously. Image Research news | Mar 12 2019 Stanford Medicine - Scope Needle in a haystack: Two days after stroke, a handful of blood cells reveal ris... A pattern of inflammatory activity in circulating blood cells just two days after a stroke predicts the loss of substantial mental acuity a full year later. Image Research news | Mar 12 2019 Stanford Medicine - News Center Immune profile two days after stroke predicts dementia a year later Stanford researchers have found that transient changes in the numbers and activation levels of a handful of circulating immune cell types can predict the likelihood of dementia one year after a stroke. Pagination Previous page Page 19 Page 20 Current page 21 Page 22 Page 23 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 | Apr 12 2019 Stanford Medicine - Scope Roommates’ exchange fuels research collaboration Recent Stanford research on the importance of a particular gene in aging can be traced to a casual conversation between roommates.
Image Research news | Apr 9 2019 Stanford Medicine - Scope Could a vibrating glove become part of stroke therapy? Stanford researchers are collaborating to develop a vibrating glove that could improve hand function following a stroke if worn for several hours a day.
Image Research news | Apr 4 2019 Stanford Medicine - News Center Blocking protein’s activity restores cognition in old mice Brain cells called microglia serve as the brain’s garbage crew, scarfing up bits of cellular debris. But their underperformance in aging brains contributes to neurodegeneration. Now, a possible workaround?
Image Research news | Apr 4 2019 Stanford - News Seed grants help ideas grow Stanford researchers have for years looked to seed grants to get innovative, risky or simply new ideas – whether it’s using prawns to combat disease or drones to map coral reefs – off the ground.
Image Research news | Apr 4 2019 Stanford News Stanford, Georgia Tech researchers build a glove to treat symptoms of stroke Strokes often have a devastating impact on something most of us rely heavily on in our daily lives – our hands. Now, Stanford researchers are collaborating on a vibrating glove that could improve hand function after a stroke.
Image Research news | Apr 3 2019 Wu Tsai Neurosciences Institute Biology may make certain PTSD patients unresponsive to behavioral therapy Clinicians may be able to determine whether people with post-traumatic stress disorder will respond to psychotherapy by analyzing a key brain network and memory, according to Stanford researchers.
Image Research news | Apr 3 2019 Stanford Medicine - Scope Blocking protein that impairs brain’s clean-up crew improves old mice’s smarts Brain cells called microglia keep brains young by eliminating accumulations of protein debris. But their garbage-colllection ability fades with age.
Image Research news | Apr 3 2019 Wu Tsai Neurosciences Institute Researchers outline possible role of a deep brain structure in concussion Through a combination of biometric tracking, simulated modeling and medical imaging, Stanford researchers have detailed how hits to the side of the head may cause concussion.
Image Research news | Apr 1 2019 Stanford Medicine - News Center Bacteria partners with virus to cause chronic wounds A virus that infects a dangerous bacteria helps it thrive in wounds, according to a study by Stanford researchers. But a vaccine against the virus dramatically cuts the bacteria’s infectivity.
Image Research news | Apr 1 2019 Stanford Medicine - Scope “Free lunch” reshapes the brain’s map of space Each time you get a reward, your brain's internal spatial map warps just a bit in a way that makes it easier for you to get back to wherever you got it.
Image Research news | Apr 1 2019 Stanford Medicine - Scope Partners-in-crime: Bacteria sics its pet virus on our immune cells to make us si... P. aeruginosa, a type of bacteria, is increasingly drug-resistant, and there's no vaccine against it. But it has a recently discovered Achilles heel.
Image Research news | Mar 28 2019 Stanford Medicine - News Center ‘Free lunch’ warps inner spatial map in rat brains and, by implication, human br... The brain creates spatial maps to help animals, including humans, navigate through different environments. But even in the same environment, Stanford scientists have shown, the promise of a reward redraws the map.
Image Research news | Mar 26 2019 NeuWrite West Can we reverse engineer the brain like a computer? Neuroscientists have a dizzying array of methods to listen in on hundreds or even thousands of neurons in the brain and have even developed tools to manipulate the activity of individual cells.
Image Research news | Mar 13 2019 Stanford Medicine - Scope Autism app blends play, social learning and research Stanford biomedical data scientist Dennis Wall and his team are developing technology that could help experts study and treat autism simultaneously.
Image Research news | Mar 12 2019 Stanford Medicine - Scope Needle in a haystack: Two days after stroke, a handful of blood cells reveal ris... A pattern of inflammatory activity in circulating blood cells just two days after a stroke predicts the loss of substantial mental acuity a full year later.
Image Research news | Mar 12 2019 Stanford Medicine - News Center Immune profile two days after stroke predicts dementia a year later Stanford researchers have found that transient changes in the numbers and activation levels of a handful of circulating immune cell types can predict the likelihood of dementia one year after a stroke.
