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 | 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 | Mar 12 2019 Wu Tsai Neurosciences Institute Stanford researchers outline the role of a deep brain structure in concussion Through a combination of biometric tracking, simulated modeling and medical imaging, researchers detail how hits to the side of the head cause concussion. Image Research news | Mar 5 2019 Stanford Magazine This is your brain on . . . New science tells us how to better manage our addictions. Image Research news | Jan 31 2019 Stanford Medicine - Scope Nature, not nurture: New evidence in mice that recognition of a stranger’s sex i... Male mice are hardwired to recognize the sex of other mice, a new study shows. Females' circuitry guiding that decision differs from males. Image Research news | Jan 31 2019 Wu Tsai Neurosciences Institute Male mice hard-wired to recognize sex of other mice The discovery, by Stanford researchers, of neurons that drive mice’s innate ability to identify the sex of other mice highlights the importance of biological influences on sex-specific behaviors. Image Research news | Jan 29 2019 Wu Tsai Neurosciences Institute Culturing technique captures hard-to-study, critically important brain cell — th... Brain cells called oligodendrocytes supply insulation by wrapping neurons in multiple layers of fatty extensions, preserving signal strength and markedly speeding up transmission. But studying these cells in culture has been virtually impossible -- until Image Research news | Jan 28 2019 Wu Tsai Neurosciences Institute Scientists generate, track development of myelin-producing brain cells Studying human oligodendrocytes, which provide insulation for nerve cells, has been challenging. But a new way of generating stem-cell-derived, three-dimensional brain-cell cultures is paying off. Image Research news | Jan 17 2019 Wu Tsai Neurosciences Institute Stanford and Carnegie researchers deploy worms to investigate how neurological d... Humans have relied on plants for millennia to treat a variety of neurological ailments. Now, researchers are using microscopic worms to better understand how plant molecules shape behavior – and perhaps develop better new drugs. Image Research news | Jan 17 2019 Wu Tsai Neurosciences Institute Researchers discover the brain cells that make pain unpleasant Pain sensation and the emotional experience of pain are not the same, and now, in mice, scientists at Stanford have found the neurons responsible for the latter. Image Research news | Jan 16 2019 Wu Tsai Neurosciences Institute When activated, ‘social’ brain circuits inhibit feeding behavior in mice Researchers at Stanford demonstrated that direct stimulation of fewer than two dozen neurons linked to social interaction was enough to suppress a mouse’s drive to feed itself. Image Research news | Jan 16 2019 Stanford Medicine - Scope The brain-circuitry clash that keeps you from diving into that plate of ribs whe... A study in Nature details a discovery with potential clinical significance for treating eating disorders such as anorexia. To make that discovery, Stanford researchers had to develop a "first-time-ever" way of teasing apart two separate but closely intert Image Research news | Dec 18 2018 Stanford Medicine - Scope Watching brain cells fire, with a twist of gravitational waves Researchers led by Daniel Palanker have discovered that an imaging technique known as interferometry could be used to monitor neuron behavior. Image Research news | Dec 12 2018 Stanford Medicine - Scope Computer memory: A scientific team builds a virtual model of a key brain region Stanford scientists are making efforts to create high-resolution simulated versions of the human brain, bells and whistles and warts and all. Image Research news | Nov 14 2018 Wu Tsai Neurosciences Institute The puzzle of a mutated gene lurking behind many Parkinson’s cases Why a defective gene is tied so strongly to Parkinson’s disease has baffled researchers. Now, a study led by Stanford scientists appears to have pieced together a major part of the puzzle. Image Research news | Nov 12 2018 Stanford Medicine - Scope Is zinc the link to how we think? Some evidence, and a word of warning Studies have associated low zinc levels with autism spectrum disorder. But why this should be the case has been unclear. Now, scientists may have an explanation for the link. Image Research news | Nov 12 2018 Stanford Medicine - Scope Behind many a Parkinson’s case lurks a mutation in a gene called LRRK2 — why? Genetic mutations affecting a single gene called LRRK2 play an outsized role in Parkinson's disease, but nobody's been able to say what the connection is between the genetic defect and the brain-cell die-off that characterizes the condition. Here's a clue Pagination Previous page Page 5 Page 6 Current page 7 Page 8 Page 9 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 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 | Mar 12 2019 Wu Tsai Neurosciences Institute Stanford researchers outline the role of a deep brain structure in concussion Through a combination of biometric tracking, simulated modeling and medical imaging, researchers detail how hits to the side of the head cause concussion.
Image Research news | Mar 5 2019 Stanford Magazine This is your brain on . . . New science tells us how to better manage our addictions.
Image Research news | Jan 31 2019 Stanford Medicine - Scope Nature, not nurture: New evidence in mice that recognition of a stranger’s sex i... Male mice are hardwired to recognize the sex of other mice, a new study shows. Females' circuitry guiding that decision differs from males.
Image Research news | Jan 31 2019 Wu Tsai Neurosciences Institute Male mice hard-wired to recognize sex of other mice The discovery, by Stanford researchers, of neurons that drive mice’s innate ability to identify the sex of other mice highlights the importance of biological influences on sex-specific behaviors.
Image Research news | Jan 29 2019 Wu Tsai Neurosciences Institute Culturing technique captures hard-to-study, critically important brain cell — th... Brain cells called oligodendrocytes supply insulation by wrapping neurons in multiple layers of fatty extensions, preserving signal strength and markedly speeding up transmission. But studying these cells in culture has been virtually impossible -- until
Image Research news | Jan 28 2019 Wu Tsai Neurosciences Institute Scientists generate, track development of myelin-producing brain cells Studying human oligodendrocytes, which provide insulation for nerve cells, has been challenging. But a new way of generating stem-cell-derived, three-dimensional brain-cell cultures is paying off.
Image Research news | Jan 17 2019 Wu Tsai Neurosciences Institute Stanford and Carnegie researchers deploy worms to investigate how neurological d... Humans have relied on plants for millennia to treat a variety of neurological ailments. Now, researchers are using microscopic worms to better understand how plant molecules shape behavior – and perhaps develop better new drugs.
Image Research news | Jan 17 2019 Wu Tsai Neurosciences Institute Researchers discover the brain cells that make pain unpleasant Pain sensation and the emotional experience of pain are not the same, and now, in mice, scientists at Stanford have found the neurons responsible for the latter.
Image Research news | Jan 16 2019 Wu Tsai Neurosciences Institute When activated, ‘social’ brain circuits inhibit feeding behavior in mice Researchers at Stanford demonstrated that direct stimulation of fewer than two dozen neurons linked to social interaction was enough to suppress a mouse’s drive to feed itself.
Image Research news | Jan 16 2019 Stanford Medicine - Scope The brain-circuitry clash that keeps you from diving into that plate of ribs whe... A study in Nature details a discovery with potential clinical significance for treating eating disorders such as anorexia. To make that discovery, Stanford researchers had to develop a "first-time-ever" way of teasing apart two separate but closely intert
Image Research news | Dec 18 2018 Stanford Medicine - Scope Watching brain cells fire, with a twist of gravitational waves Researchers led by Daniel Palanker have discovered that an imaging technique known as interferometry could be used to monitor neuron behavior.
Image Research news | Dec 12 2018 Stanford Medicine - Scope Computer memory: A scientific team builds a virtual model of a key brain region Stanford scientists are making efforts to create high-resolution simulated versions of the human brain, bells and whistles and warts and all.
Image Research news | Nov 14 2018 Wu Tsai Neurosciences Institute The puzzle of a mutated gene lurking behind many Parkinson’s cases Why a defective gene is tied so strongly to Parkinson’s disease has baffled researchers. Now, a study led by Stanford scientists appears to have pieced together a major part of the puzzle.
Image Research news | Nov 12 2018 Stanford Medicine - Scope Is zinc the link to how we think? Some evidence, and a word of warning Studies have associated low zinc levels with autism spectrum disorder. But why this should be the case has been unclear. Now, scientists may have an explanation for the link.
Image Research news | Nov 12 2018 Stanford Medicine - Scope Behind many a Parkinson’s case lurks a mutation in a gene called LRRK2 — why? Genetic mutations affecting a single gene called LRRK2 play an outsized role in Parkinson's disease, but nobody's been able to say what the connection is between the genetic defect and the brain-cell die-off that characterizes the condition. Here's a clue
