A Beautiful Mind
Researchers are recording brain activity in visually stunning ways that could lead to targeted therapies for Alzheimer’s, autism and other diseases.
University of California San Francisco
Give to UCSFResearchers are recording brain activity in visually stunning ways that could lead to targeted therapies for Alzheimer’s, autism and other diseases.
UCSF neuroscientist Adam Gazzaley, MD, PhD, is hoping to paint a fuller picture of what is happening in the minds and bodies of those suffering from brain disease with his new lab, Neuroscape, which bridges the worlds of neuroscience and high-tech.
A new study led by researchers from UCSF Benioff Children’s Hospital is the first to evaluate whether purified cannabinoid is effective in treating severe forms of childhood epilepsy.
UCSF researchers are reporting a detailed account of how speech sounds are identified by the human brain. The finding offers unprecedented insight into the basis of human language and may shed light on language disorders, including dyslexia.
UCSF and Quest Diagnostics, the world's leading provider of diagnostic information services, have formed a collaboration to accelerate the translation of biomedical research into advanced diagnostics in the field of precision medicine.
Scientists at the UCSF-affiliated Gladstone Institutes have devised a new molecular sensor that can detect MS at its earliest stages, even before the onset of physical signs.
In a technical tour de force, UCSF scientists have determined, at near-atomic resolution, the structure of a protein that plays a central role in the perception of pain and heat.
A team led by UCSF scientists has identified the disruption of a single type of cell – in a particular brain region and at a particular time in brain development – as a significant factor in the emergence of autism.
Precision Medicine Pillar No. 3: Clinical Discovery. Researchers are taking vast amounts of patient data, often collected through first-ever clinical studies, and putting it into tools like MS Bioscreen that have a direct impact on patient care.
UCSF, a world-renowned center for the treatment of movement disorders, is holding an event to celebrate the program’s recognition by the Bachmann-Strauss Foundation as one of three new Centers of Excellence in the field.
Eleven leading scientists from the California Institute for Quantitative Biosciences (QB3) presented their latest aging research findings and anti-aging strategies at a daylong symposium called “The Science of Staying Younger Longer.”
New research by scientists at UC San Francisco shows that one of the brain’s fundamental self-protection mechanisms depends on coordinated, finely calibrated teamwork among neurons and non-neural cells.
Through support from the Catalyst Awards, UCSF researcher Aditi Bhargava is working to develop a method for delivering small-molecules to a specific target group of cells for treatment of pain.
Scientists at UCSF are reporting that they have found a way to reverse some of the negative effects of aging on the brain, using a video game designed to improve cognitive control.
A protein at the center of Parkinson’s disease research now also has been found to play a key role in causing the destruction of bacteria that cause tuberculosis.
An antihistamine discovered in the 1950s to treat itching may also prevent seizures in an intractable form of childhood epilepsy, according to researchers at UC San Francisco who tested it in zebrafish bred to mimic the disease.
Quick changes in behavior, in worms, at least, can be triggered by a unique form of the molecule RNA acting within the nucleus of a cell, researchers at UCSF have discovered.
Mice given cocaine showed rapid growth in new brain structures associated with learning and memory, according to a research team from the Ernest Gallo Clinic and Research Center at UCSF.
UCSF scientists working in the lab used a chemical found in an anti-wrinkle cream to prevent the death of nerve cells damaged by mutations that cause an inherited form of Parkinson’s disease.
An international study on epilepsy has uncovered 25 new mutations on nine key genes that could pave the way to develop precise therapies for a devastating form of the disorder during childhood.
Anemia, or low levels of red blood cells, may increase the risk of dementia, according to a new UCSF-led study that found people who were anemic had a nearly 41 percent higher risk of developing the condition than those who were not.
A research team led by scientists from the Ernest Gallo Clinic and Research Center at UCSF has identified circuitry in the brain that drives compulsive drinking in rats, and likely plays a similar role in humans.
Scientists at the UCSF-affiliated Gladstone Institutes have discovered that the progression of neurodegenerative disease is not due to the buildup of brain toxins itself, but rather in the individual neurons’ ability to dissolve them.
A new UCSF research project is exploring whether singing in a community choir can provide tangible health advantages to older adults.
Sensory processing disorders are more prevalent in children than autism. In a groundbreaking new study, UCSF researchers have for the first time shown a biological basis for the disease in the brain structure.
A UCSF-led team has discovered a sensory system in the foreleg of the male fruit fly that answers a central problem in evolution that is poorly understood: how animals of one species know not to mate with animals of other species.
Using an innovative brain-tracing technique, scientists have found a way to untangle the complex connections that influence specific brain functions.
Results of a Phase III clinical trial showed that a simple drug regimen of two anti-clotting drugs lowered the risk of stroke by almost one-third, compared to aspirin alone, when given to patients who had minor or transient stroke symptoms to prevent subsequent attacks.