Sudden Neurological Death Misclassified, Underestimated
UCSF researchers have devised a new term, “sudden neurological death,” to describe apparent sudden cardiac deaths that actually were due to neurological causes.
University of California San Francisco
Give to UCSFUCSF researchers have devised a new term, “sudden neurological death,” to describe apparent sudden cardiac deaths that actually were due to neurological causes.
A new UC San Francisco study challenges the most influential textbook explanation of how the mammalian brain detects when the body is becoming too warm, and how it then orchestrates the myriad responses that animals, including humans, use to lower their temperature.
A new study led by UCSF scientists shows that a bacterium commonly found in the human gut is overrepresented in patients with a rare, often disabling autoimmune disease known as neuromyelitis optica.
A new UCSF study shows that specialized brain cells in mice “predict” the hydrating effects of drinking, deactivating long before the liquids imbibed can actually change the composition of the bloodstream.
A team led by researchers from UCSF and Yale has found that half of people newly infected with HIV experience neurologic issues.
Researchers have identified a pair of tarantula toxins that target a previously unknown pain pathway in sensory nerves.
For his pioneering research on plasticity, the brain’s remarkable capacity to modify its structure and function, UCSF's Michael M. Merzenich, PhD, has been awarded the 2016 Kavli Prize in Neuroscience.
A 27-year-old drug for anemia may protect newborns at high risk for brain damage, according to the results of a multisite trial led by researchers at UCSF.
Proper communication between the left and right sides of the brain is critical for the development of advanced language skills, according to new research by UC San Francisco scientists.
With one drug to shut down its progression and another to undo its damage, plus a worldwide effort stalking the origins of multiple sclerosis, MS doesn’t stand a chance.
Frontotemporal dementia, the second most common cause of dementia in people under 65, may be triggered by a defect in immune cells called microglia that causes them to consume the brain’s synaptic connections, according to new research led by UCSF scientists.
In a study of 10 children published online in the American Journal of Human Genetics on April 14, the researchers linked a constellation of birth defects affecting the brain, eye, ear, heart and kidney to mutations in a single gene, called RERE.
UCSF scientists have discovered a network of brain cells that allows animals to keep track of where they are when they are not moving through space, such as when they are eating, engaged in social interactions, or sleeping.
A newly discovered human gene mutation appears to contribute both to unusual sleep patterns and to heightened rates of seasonal depression, according to new research from UCSF.
UCSF has received an unrestricted $25 million commitment from the Bill and Susan Oberndorf Foundation to advance basic research in psychiatry and the behavioral sciences.
A new study conducted at UCSF looked at “mid-level” marijuana users and found that this group had worse verbal memory but no deficiencies in other measures of cognitive function.
In the largest and longest study thus far of ethnic disparities in dementia risk, researchers compared six ethnic and racial groups within the same geographic population and found significant variation in dementia incidence among them.
You don't have to be an NFL star to throw better than any of our closest primate relatives. Human evolution has given us both the brain and brawn we need to make precise throws, but it comes with a few trade-offs.
A study of 35 families led by a UCSF psychiatric researcher showed for the first time that the structure of the brain circuitry known as the corticolimbic system is more likely to be passed down from mothers to daughters than from mothers to sons or from fathers to children of either gender.
Researchers at UCSF have found that boys and girls with sensory processing disorder (SPD) have altered pathways for brain connectivity when compared to typically developing children, and the difference predicts challenges with auditory and tactile processing.
Children and young adults with severe forms of epilepsy that does not respond to standard antiepileptic drugs have fewer seizures when treated with purified cannabinoid, according to a multi-center study led by researchers from UCSF Benioff Children’s Hospital San Francisco.
The workings of neural circuits associated with creativity are significantly altered when artists are actively attempting to convey emotions, according to a new brain-scanning study of jazz pianists.
We asked experts across UCSF to identify what's ahead in how we approach research, what disease areas will see major advances, and where basic science will be translating into real treatments.
If depression is caused by flawed brain circuitry, it may be possible to shift that circuitry toward healthy neural processing instead. UCSF researchers hope to map and correct aberrant neural behavior to cure mood disorders.
The trajectory of Bruce Miller’s work is emblematic of the integration seen within the entire neurosciences field over the last decade, as its broad range of disciplines attract unprecedented levels of investment.
The Atlantic Philanthropies is awarding UCSF and Trinity College Dublin, the University of Dublin, $177 million to create the Global Brain Health Institute, a groundbreaking venture to stem the precipitous rise in dementia by training and connecting a new generation of leaders worldwide.
A gift of $20 million from the Ray and Dagmar Dolby Family Fund to the Department of Psychiatry at UCSF will support research on mood disorders.
The National Institutes of Health (NIH) has awarded seven grants to UCSF scientists to pursue innovative approaches to major contemporary challenges in biomedical research.
A newly established neuroscience research institute based at UCSF will focus on gaining a deeper understanding of plasticity, the brain’s remarkable capacity to modify its own structure and function.
An international research team led by UC San Francisco scientists has identified 65 genes that play a role in autism, 28 of which are reported with “very high confidence.”