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 Type (-) Research news Sort by Newest to oldest Oldest to newest Image Research news | Aug 20 2025 Knight Initiative for Brain Resilience Why promising dementia treatments work in mice but fail in people Stanford researchers reviewed over 400 therapy evaluations and discovered a crucial mismatch: Mouse studies test disease prevention, while human trials test treatment of existing disease. Image Research news | Aug 18 2025 Knight Initiative for Brain Resilience Alzheimer’s may stem from breakdown of “recycling centers” in aging cells Knight Initiative researchers used a new lab model of aging human neurons to show that as cells age, lysosomes fall into disrepair and waste builds up—feeding a damaging cycle that could lead to Alzheimer’s. Image Research news | Aug 6 2025 Stanford Medicine Why our brains are wired for addiction: What the science says Stanford Medicine researchers discuss the brain’s ancient wiring and how its built-in reward-seeking system can be hijacked by addiction—as well as ways to prevent and treat it. Image Research news | Jul 21 2025 Knight Initiative for Brain Resilience A new consortium opens unexpected windows into neurodegenerative disease The Global Neurodegeneration Proteomics Consortium gathered a trove of data on potential signs of neurological disease—and researchers including Knight Initiative director Tony Wyss-Coray are already using it to make new discoveries. Image Research news | Jul 15 2025 Wu Tsai Neurosciences Institute A common food additive solves a sticky neuroscience problem An interdisciplinary team of Wu Tsai Neuro scientists working on balls of human neurons called organoids wanted to scale up their efforts and take on important new questions. The solution was all around them. Image Research news | Jun 11 2025 Wu Tsai Neurosciences Institute Locations of treats are stored in specialized neural maps Research from the Giocomo lab finds that mice create neural maps of the location of rewards, distinct from the well-known hippocampal maps of an animal's location in space. Image Research news | May 29 2025 Stanford Medicine Study reveals how sensory experiences trigger lasting emotions Scientists found that humans and mice share persistent brain-activity patterns in response to negative sensory inputs – offering insight into emotion and potential links to neuropsychiatric disorders. Image Research news | May 14 2025 Knight Initiative for Brain Resilience Alzheimer's "resilience signature" predicts who will develop dementia—and how fa... Knight Initiative researchers discover a biomarker in spinal fluid that could help forecast Alzheimer’s progression and improve clinical trials. Image Research news | Mar 17 2025 Wu Tsai Neurosciences Institute Bridging nature and nurture: The brain's flexible foundation from birth By studying never-before-seen details of brain connectivity in human infants, researchers at the Wu Tsai Neurosciences Institute have identified how a balance of innate structure and flexible learning produces our remarkably organized visual brains. Image Research news | Nov 25 2024 Wu Tsai Neurosciences Institute Dopamine and serotonin work in opposition to shape learning New research from the Malenka lab reveals that reward-based learning requires the two neuromodulators to balance one another's influence. Image Research news | Sep 4 2024 Wu Tsai Neurosciences Institute Discovery sheds light on earliest development of gut motility A collaboration between Institute Faculty Scholars Julia Kaltschmidt and Todd Coleman has identified a key step in nervous system control over gut motility, opening new opportunities for understanding GI disorders in premature infants Image Research news | Aug 22 2024 Stanford Neurosurgery Neurons rely on glial cells to become electrically excitable Institute affiliates Brad Zuchero, Justin Du Bois and colleagues discovered that neurons require signaling from glia to become fully excitable, rather than by becoming excitable by default. Image Research news | Aug 7 2024 Knight Initiative for Brain Resilience Q&A: Unlocking the secrets of taurine in obesity control Groundbreaking research supported by the Knight Initiative for Brain Resilience at Stanford’s Wu Tsai Neurosciences Institute deepens our understanding of how the amino acid taurine may help reduce appetite and prevent obesity. Image Research 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 both beneficial and harmful plant-based molecules. Image Research news | May 21 2024 Graduate School of Education Stanford-led study links school environment to brain development Researchers found increased white matter development in children from higher-performing schools. Image Research news | Mar 25 2024 Wu Tsai Neurosciences Institute Neuronal and synaptic genes expanded in size and diversity during evolution Wu Tsai Neuro research suggests giant genes could hold the key to the development of complex nervous systems across the animal kingdom. Pagination Previous page Page 1 Current page 2 Page 3 Page 4 Page 5 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 | Aug 20 2025 Knight Initiative for Brain Resilience Why promising dementia treatments work in mice but fail in people Stanford researchers reviewed over 400 therapy evaluations and discovered a crucial mismatch: Mouse studies test disease prevention, while human trials test treatment of existing disease.
Image Research news | Aug 18 2025 Knight Initiative for Brain Resilience Alzheimer’s may stem from breakdown of “recycling centers” in aging cells Knight Initiative researchers used a new lab model of aging human neurons to show that as cells age, lysosomes fall into disrepair and waste builds up—feeding a damaging cycle that could lead to Alzheimer’s.
Image Research news | Aug 6 2025 Stanford Medicine Why our brains are wired for addiction: What the science says Stanford Medicine researchers discuss the brain’s ancient wiring and how its built-in reward-seeking system can be hijacked by addiction—as well as ways to prevent and treat it.
Image Research news | Jul 21 2025 Knight Initiative for Brain Resilience A new consortium opens unexpected windows into neurodegenerative disease The Global Neurodegeneration Proteomics Consortium gathered a trove of data on potential signs of neurological disease—and researchers including Knight Initiative director Tony Wyss-Coray are already using it to make new discoveries.
Image Research news | Jul 15 2025 Wu Tsai Neurosciences Institute A common food additive solves a sticky neuroscience problem An interdisciplinary team of Wu Tsai Neuro scientists working on balls of human neurons called organoids wanted to scale up their efforts and take on important new questions. The solution was all around them.
Image Research news | Jun 11 2025 Wu Tsai Neurosciences Institute Locations of treats are stored in specialized neural maps Research from the Giocomo lab finds that mice create neural maps of the location of rewards, distinct from the well-known hippocampal maps of an animal's location in space.
Image Research news | May 29 2025 Stanford Medicine Study reveals how sensory experiences trigger lasting emotions Scientists found that humans and mice share persistent brain-activity patterns in response to negative sensory inputs – offering insight into emotion and potential links to neuropsychiatric disorders.
Image Research news | May 14 2025 Knight Initiative for Brain Resilience Alzheimer's "resilience signature" predicts who will develop dementia—and how fa... Knight Initiative researchers discover a biomarker in spinal fluid that could help forecast Alzheimer’s progression and improve clinical trials.
Image Research news | Mar 17 2025 Wu Tsai Neurosciences Institute Bridging nature and nurture: The brain's flexible foundation from birth By studying never-before-seen details of brain connectivity in human infants, researchers at the Wu Tsai Neurosciences Institute have identified how a balance of innate structure and flexible learning produces our remarkably organized visual brains.
Image Research news | Nov 25 2024 Wu Tsai Neurosciences Institute Dopamine and serotonin work in opposition to shape learning New research from the Malenka lab reveals that reward-based learning requires the two neuromodulators to balance one another's influence.
Image Research news | Sep 4 2024 Wu Tsai Neurosciences Institute Discovery sheds light on earliest development of gut motility A collaboration between Institute Faculty Scholars Julia Kaltschmidt and Todd Coleman has identified a key step in nervous system control over gut motility, opening new opportunities for understanding GI disorders in premature infants
Image Research news | Aug 22 2024 Stanford Neurosurgery Neurons rely on glial cells to become electrically excitable Institute affiliates Brad Zuchero, Justin Du Bois and colleagues discovered that neurons require signaling from glia to become fully excitable, rather than by becoming excitable by default.
Image Research news | Aug 7 2024 Knight Initiative for Brain Resilience Q&A: Unlocking the secrets of taurine in obesity control Groundbreaking research supported by the Knight Initiative for Brain Resilience at Stanford’s Wu Tsai Neurosciences Institute deepens our understanding of how the amino acid taurine may help reduce appetite and prevent obesity.
Image Research 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 both beneficial and harmful plant-based molecules.
Image Research news | May 21 2024 Graduate School of Education Stanford-led study links school environment to brain development Researchers found increased white matter development in children from higher-performing schools.
Image Research news | Mar 25 2024 Wu Tsai Neurosciences Institute Neuronal and synaptic genes expanded in size and diversity during evolution Wu Tsai Neuro research suggests giant genes could hold the key to the development of complex nervous systems across the animal kingdom.
