Featured News Image Research news | Jun 24, 2026 Knight Initiative for Brain Resilience Why do some cells die in ALS but not others? New Knight Initiative research identifies a molecular signature in vulnerable cells that could lead to treatments to promote ALS resilience Image Research news | Jun 17, 2026 Wu Tsai Neurosciences Institute It’s time to revamp the motor homunculus An update to the 89-year-old model shows that the brain’s motor cortex isn’t as neatly organized as previously thought Image Research news | Jun 15, 2026 Stanford Medicine Cell types' biological age predicts our disease risk A blood-test analysis can determine the biological ages of individual cell types and predict the health consequences Image Knight Initiative news | May 26, 2026 Knight Initiative for Brain Resilience Slowing aging, predicting lifespan, and excitement for the future at the Knight ... The symposium showcased research ranging from rejuvenating the brain’s immune system to predicting cognitive health, and celebrated the next chapter of the Knight Initiative Displaying 337 - 352 news posts of 366 Filter Sort by Newest to oldest Oldest to newest News Type Wu Tsai Neuro News Knight Initiative news Director's messages Research news Researcher profiles News Features Awards and honors Podcast episodes Press coverage Publications Research Theme NeuroDiscovery NeuroHealth NeuroEngineering Image Wu Tsai Neuro News | Oct 5, 2017 Wu Tsai Neurosciences Institute Stanford Neurosciences Institute awards seed grants The Stanford Neurosciences Institute recently awarded its second round of seed grants to six interdisciplinary teams of researchers. Image Research news | Oct 2, 2017 Wu Tsai Neurosciences Institute Hospital discharges for prescription opioids down, heroin discharges surge The findings of a new Stanford-led study suggest that illicit drugs are beginning to replace prescription opioids as the source of the national drug epidemic. Image Research news | Sep 28, 2017 Stanford Medicine - Scope The “like” hormone? Scientists identify brain circuit tied to oxytocin’s connect... What is it that makes some people the life of the party, others recluses and still others shoulder-shruggingly indifferent to the delights of social interaction? Image Research news | Aug 23, 2017 Stanford Medicine Magazine The fearful eye Andrew Huberman on using virtual reality to overcome your fears. Image Research news | Aug 21, 2017 Wu Tsai Neurosciences Institute Pathways Carla Shatz, her breakthrough discovery in vision and the developing brain Image Research news | Aug 16, 2017 Stanford Medicine - Scope Some post-surgery alternatives to opioids can reduce pain, study finds Researchers examined the most commonly used non-pharmaceutical pain management therapies following knee replacement surgery to see if they did indeed work to reduced pain while the patient was in the hospital. They found that acupuncture and electrotherap Image Research news | Aug 16, 2017 Stanford Medicine - Scope Long-term, 3-D culture method lets slow-developing brain cells mature in a dish Stanford researchers have used a revolutionary 3-D culture technique to nurse a very slowly developing set of brain cells known as astrocytes to maturity in laboratory glassware. Image Research news | Aug 2, 2017 Stanford Medicine - Scope Correcting a forebrain signaling imbalance reverses autistic symptoms in mice A new study, conducted by Stanford psychiatrist, neuroscientist and inventor Karl Deisseroth, MD, PhD, and colleagues, suggests that key features of autism reflect an imbalance in signaling from two kinds of neurons in a portion of the forebrain. Image Research news | Aug 2, 2017 Wu Tsai Neurosciences Institute Autism may reflect excitation-inhibition imbalance in brain Stanford researchers used advanced lab technologies to show, in mice, that symptoms of autism can be countered by reducing the ratio of excitatory to inhibitory neuronal firing in the forebrain. Image Research news | Jul 27, 2017 Stanford Medicine - Scope The mouse that didn’t roar: Dormitory housing defuses hardwired male territorial... Male mice are naturally territorial. In the wild or in the lab, they attack other male mice even if plenty of room, food and females are available. This behavior is under the control of a small nerve circuit in the male mouse’s brain; disabling the circui Image Research news | Jul 27, 2017 Wu Tsai Neurosciences Institute Social influences can override aggression in male mice, study shows A tiny set of nerve cells in a male mouse’s brain activates aggression. But a new Stanford study shows that the male’s susceptibility to this activation depends on whether it has been housed with other mice or in isolation. Image Press coverage | Jul 21, 2017 Blooberg View Neuroscience Offers Insights Into the Opioid Epidemic Addiction changes the brain in lasting ways, and some brains are more vulnerable than others. Image Research news | Jun 22, 2017 Wu Tsai Neurosciences Institute Stanford researchers say U.S. policies on drugs and addiction could use a dose o... Legal and illegal drugs are killing more people than AIDS ever did, yet the nation’s drug policies are based on unproven assumptions about addiction. Neuroscience could help shape more effective policies and save lives. Image Research news | Jun 22, 2017 Stanford Medicine - Scope Addiction policies should accord with neuroscience, Stanford researchers argue Addiction, like riding a bike, is a learned behavioral pattern you don’t unlearn even if you haven’t performed it for decades. Your brain’s semi-permanently hot-wired reward system has to be stripped down, reordered, and re-insulated again. Image Research news | Apr 26, 2017 Wu Tsai Neurosciences Institute Scientists assemble working human forebrain circuits in a lab dish Stanford investigators fused two stem-cell-derived neural spheroids, each containing a different type of human neuron, then watched as one set of neurons migrated and hooked up with the other set. Image Research news | Apr 6, 2017 Wu Tsai Neurosciences Institute Brain’s navigation more complex than previously thought Neuroscientists’ discovery of grid cells, popularly known as the brain’s GPS, was hailed as a major discovery. But new Stanford research suggest the system is more complicated than anyone had guessed. Pagination First page Previous page Page 19 Page 20 Page 21 Current page 22 Page 23 Next page Last page
Image Research news | Jun 24, 2026 Knight Initiative for Brain Resilience Why do some cells die in ALS but not others? New Knight Initiative research identifies a molecular signature in vulnerable cells that could lead to treatments to promote ALS resilience
Image Research news | Jun 17, 2026 Wu Tsai Neurosciences Institute It’s time to revamp the motor homunculus An update to the 89-year-old model shows that the brain’s motor cortex isn’t as neatly organized as previously thought
Image Research news | Jun 15, 2026 Stanford Medicine Cell types' biological age predicts our disease risk A blood-test analysis can determine the biological ages of individual cell types and predict the health consequences
Image Knight Initiative news | May 26, 2026 Knight Initiative for Brain Resilience Slowing aging, predicting lifespan, and excitement for the future at the Knight ... The symposium showcased research ranging from rejuvenating the brain’s immune system to predicting cognitive health, and celebrated the next chapter of the Knight Initiative
Image Wu Tsai Neuro News | Oct 5, 2017 Wu Tsai Neurosciences Institute Stanford Neurosciences Institute awards seed grants The Stanford Neurosciences Institute recently awarded its second round of seed grants to six interdisciplinary teams of researchers.
Image Research news | Oct 2, 2017 Wu Tsai Neurosciences Institute Hospital discharges for prescription opioids down, heroin discharges surge The findings of a new Stanford-led study suggest that illicit drugs are beginning to replace prescription opioids as the source of the national drug epidemic.
Image Research news | Sep 28, 2017 Stanford Medicine - Scope The “like” hormone? Scientists identify brain circuit tied to oxytocin’s connect... What is it that makes some people the life of the party, others recluses and still others shoulder-shruggingly indifferent to the delights of social interaction?
Image Research news | Aug 23, 2017 Stanford Medicine Magazine The fearful eye Andrew Huberman on using virtual reality to overcome your fears.
Image Research news | Aug 21, 2017 Wu Tsai Neurosciences Institute Pathways Carla Shatz, her breakthrough discovery in vision and the developing brain
Image Research news | Aug 16, 2017 Stanford Medicine - Scope Some post-surgery alternatives to opioids can reduce pain, study finds Researchers examined the most commonly used non-pharmaceutical pain management therapies following knee replacement surgery to see if they did indeed work to reduced pain while the patient was in the hospital. They found that acupuncture and electrotherap
Image Research news | Aug 16, 2017 Stanford Medicine - Scope Long-term, 3-D culture method lets slow-developing brain cells mature in a dish Stanford researchers have used a revolutionary 3-D culture technique to nurse a very slowly developing set of brain cells known as astrocytes to maturity in laboratory glassware.
Image Research news | Aug 2, 2017 Stanford Medicine - Scope Correcting a forebrain signaling imbalance reverses autistic symptoms in mice A new study, conducted by Stanford psychiatrist, neuroscientist and inventor Karl Deisseroth, MD, PhD, and colleagues, suggests that key features of autism reflect an imbalance in signaling from two kinds of neurons in a portion of the forebrain.
Image Research news | Aug 2, 2017 Wu Tsai Neurosciences Institute Autism may reflect excitation-inhibition imbalance in brain Stanford researchers used advanced lab technologies to show, in mice, that symptoms of autism can be countered by reducing the ratio of excitatory to inhibitory neuronal firing in the forebrain.
Image Research news | Jul 27, 2017 Stanford Medicine - Scope The mouse that didn’t roar: Dormitory housing defuses hardwired male territorial... Male mice are naturally territorial. In the wild or in the lab, they attack other male mice even if plenty of room, food and females are available. This behavior is under the control of a small nerve circuit in the male mouse’s brain; disabling the circui
Image Research news | Jul 27, 2017 Wu Tsai Neurosciences Institute Social influences can override aggression in male mice, study shows A tiny set of nerve cells in a male mouse’s brain activates aggression. But a new Stanford study shows that the male’s susceptibility to this activation depends on whether it has been housed with other mice or in isolation.
Image Press coverage | Jul 21, 2017 Blooberg View Neuroscience Offers Insights Into the Opioid Epidemic Addiction changes the brain in lasting ways, and some brains are more vulnerable than others.
Image Research news | Jun 22, 2017 Wu Tsai Neurosciences Institute Stanford researchers say U.S. policies on drugs and addiction could use a dose o... Legal and illegal drugs are killing more people than AIDS ever did, yet the nation’s drug policies are based on unproven assumptions about addiction. Neuroscience could help shape more effective policies and save lives.
Image Research news | Jun 22, 2017 Stanford Medicine - Scope Addiction policies should accord with neuroscience, Stanford researchers argue Addiction, like riding a bike, is a learned behavioral pattern you don’t unlearn even if you haven’t performed it for decades. Your brain’s semi-permanently hot-wired reward system has to be stripped down, reordered, and re-insulated again.
Image Research news | Apr 26, 2017 Wu Tsai Neurosciences Institute Scientists assemble working human forebrain circuits in a lab dish Stanford investigators fused two stem-cell-derived neural spheroids, each containing a different type of human neuron, then watched as one set of neurons migrated and hooked up with the other set.
Image Research news | Apr 6, 2017 Wu Tsai Neurosciences Institute Brain’s navigation more complex than previously thought Neuroscientists’ discovery of grid cells, popularly known as the brain’s GPS, was hailed as a major discovery. But new Stanford research suggest the system is more complicated than anyone had guessed.
