Featured News Image Researcher profiles | Apr 27 2026 Wu Tsai Neurosciences Institute Q&A: Could neuroscience help explain miscarriage? Pregnancy complications such as miscarriage spike after age 35. Wu Tsai Neuro postdoc Blake Laham suspects neural signaling in the uterus is partly to blame Image Researcher profiles | Apr 2 2026 Wu Tsai Neurosciences Institute Q&A: ‘To see is to believe’ Faculty Scholar Guosong Hong says that light plays a key role in neuroscience and—and that’s why he’s working with a Big Ideas in Neuroscience team to make transparent brains Image Research news | Apr 1 2026 Wu Tsai Neurosciences Institute Newly identified chronic pain circuit offers pathways to new treatments The research showed that chronic pain is controlled by an entirely separate system than acute pain 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 News Filter & Sort Sort by Theme (-) NeuroHealth NeuroDiscovery NeuroEngineering News Type (-) Research news Press coverage Sort by Newest to oldest Oldest to newest Image Research news | Aug 23 2017 Stanford Medicine Magazine Memory aid Stanford researchers have found that blood from newborn humans can rejuvenate learning and memory in aged mice, a discovery that could lead to new treatments for age-associated declines in mental ability. Image Research news | Aug 8 2017 Wu Tsai Neurosciences Institute Does autism reflect an excitation-inhibition imbalance in the brain? A Stanford study suggests that aspects of autism reflect a signaling imbalance in certain neurons in the forebrain. Could reversing this imbalance alleviate some symptoms? Image Research news | Apr 19 2017 Wu Tsai Neurosciences Institute Study shows protein in human umbilical cord blood rejuvenates old mice’s impaire... Umbilical cord blood from human newborns, and in particular a single protein contained in it, boosted old mice’s brain function and cognitive performance, new research from Stanford shows. Image Research news | Mar 8 2017 Wu Tsai Neurosciences Institute Memorization tool bulks up brain’s internal connections, scientists say Stanford scientists found that teaching ordinary people a technique used by “memory athletes” not only boosted their recall ability but also induced lasting changes in the organization of their brains. Image Research news | Feb 22 2017 Wu Tsai Neurosciences Institute Brain scans could help doctors predict adolescents’ problem drug use before it s... Impulsive behavior in teens can go hand in hand with drug use, but the link is weak and doesn’t necessarily predict future behavior. A Stanford psychologist and colleagues think they can do better, using images of the brain. Image Research news | Jan 16 2017 Wu Tsai Neurosciences Institute Researchers identify source of opioids’ side effects Stanford researchers said they have identified the receptors to which opioid drugs bind to produce tolerance and increased sensitivity to pain, as well as a commercially available drug that limited those side effects in mice. Image Research news | Jun 2 2016 Stanford Medicine - News Center Stem cells shown safe, beneficial for chronic stroke patients People disabled by a stroke demonstrated substantial recovery long after the event when modified adult stem cells were injected into their brains. Image Research news | Mar 23 2016 Wu Tsai Neurosciences Institute Scientists pinpoint brain circuit for risk preference in rats When rats were trained to choose between high- and low-risk options while a circuit in their brains was monitored and manipulated, a specific signal in that circuit determined their choice. Image Research news | Jun 19 2015 Wu Tsai Neurosciences Institute Manipulate the signals When people are confronted with an unknown piece of electronics, one way they can figure out how it works and what it does is to twiddle with the knobs and switches. That's been hard to do with the slick, knob-less surface of the brain. Image Research news | May 4 2014 Inside Stanford Medicine Infusion of young blood recharges brains of old mice, study finds Something — or some things — in the blood of young mice has the ability to restore mental capabilities in old mice, a new study by Stanford Neurosciences Institute investigators has found. Pagination First page Previous page Page 5 Page 6 Page 7 Page 8 Current page 9
Image Researcher profiles | Apr 27 2026 Wu Tsai Neurosciences Institute Q&A: Could neuroscience help explain miscarriage? Pregnancy complications such as miscarriage spike after age 35. Wu Tsai Neuro postdoc Blake Laham suspects neural signaling in the uterus is partly to blame
Image Researcher profiles | Apr 2 2026 Wu Tsai Neurosciences Institute Q&A: ‘To see is to believe’ Faculty Scholar Guosong Hong says that light plays a key role in neuroscience and—and that’s why he’s working with a Big Ideas in Neuroscience team to make transparent brains
Image Research news | Apr 1 2026 Wu Tsai Neurosciences Institute Newly identified chronic pain circuit offers pathways to new treatments The research showed that chronic pain is controlled by an entirely separate system than acute pain
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 Research news | Aug 23 2017 Stanford Medicine Magazine Memory aid Stanford researchers have found that blood from newborn humans can rejuvenate learning and memory in aged mice, a discovery that could lead to new treatments for age-associated declines in mental ability.
Image Research news | Aug 8 2017 Wu Tsai Neurosciences Institute Does autism reflect an excitation-inhibition imbalance in the brain? A Stanford study suggests that aspects of autism reflect a signaling imbalance in certain neurons in the forebrain. Could reversing this imbalance alleviate some symptoms?
Image Research news | Apr 19 2017 Wu Tsai Neurosciences Institute Study shows protein in human umbilical cord blood rejuvenates old mice’s impaire... Umbilical cord blood from human newborns, and in particular a single protein contained in it, boosted old mice’s brain function and cognitive performance, new research from Stanford shows.
Image Research news | Mar 8 2017 Wu Tsai Neurosciences Institute Memorization tool bulks up brain’s internal connections, scientists say Stanford scientists found that teaching ordinary people a technique used by “memory athletes” not only boosted their recall ability but also induced lasting changes in the organization of their brains.
Image Research news | Feb 22 2017 Wu Tsai Neurosciences Institute Brain scans could help doctors predict adolescents’ problem drug use before it s... Impulsive behavior in teens can go hand in hand with drug use, but the link is weak and doesn’t necessarily predict future behavior. A Stanford psychologist and colleagues think they can do better, using images of the brain.
Image Research news | Jan 16 2017 Wu Tsai Neurosciences Institute Researchers identify source of opioids’ side effects Stanford researchers said they have identified the receptors to which opioid drugs bind to produce tolerance and increased sensitivity to pain, as well as a commercially available drug that limited those side effects in mice.
Image Research news | Jun 2 2016 Stanford Medicine - News Center Stem cells shown safe, beneficial for chronic stroke patients People disabled by a stroke demonstrated substantial recovery long after the event when modified adult stem cells were injected into their brains.
Image Research news | Mar 23 2016 Wu Tsai Neurosciences Institute Scientists pinpoint brain circuit for risk preference in rats When rats were trained to choose between high- and low-risk options while a circuit in their brains was monitored and manipulated, a specific signal in that circuit determined their choice.
Image Research news | Jun 19 2015 Wu Tsai Neurosciences Institute Manipulate the signals When people are confronted with an unknown piece of electronics, one way they can figure out how it works and what it does is to twiddle with the knobs and switches. That's been hard to do with the slick, knob-less surface of the brain.
Image Research news | May 4 2014 Inside Stanford Medicine Infusion of young blood recharges brains of old mice, study finds Something — or some things — in the blood of young mice has the ability to restore mental capabilities in old mice, a new study by Stanford Neurosciences Institute investigators has found.
