Could What Makes Multiple Sclerosis Worse Lead to a Cure?
A large, collaborative study on multiple sclerosis (MS) severity found that a single gene variant is predictive of much faster neurodegeneration in MS patients.
![A graphic illustration of a silhouette featuring the spinal cord and a neuron in the brain. The illustration depicts mulitple sclerosis.](/sites/default/files/styles/news_card__image/public/2023-07/MS-illustration-card.png)
University of California San Francisco
Give to UCSFA large, collaborative study on multiple sclerosis (MS) severity found that a single gene variant is predictive of much faster neurodegeneration in MS patients.
UCSF Benioff Children’s Hospitals are recognized among the nation’s best pediatric medical centers in all 10 specialties assessed in U.S. News & World Report’s Best Children’s Hospitals 2023-24.
The advent of cheap, easy-to-use blood tests for Alzheimer’s disease has the potential to revolutionize diagnosis and treatment. But they also raise difficult questions that the field is only beginning to consider.
A new treatment approach draws on research into the unique teenage brain.
UCSF researchers developed an approach to measure an over-the-counter allergy medication’s effectiveness in repairing brain damage from multiple sclerosis (MS), making it possible to also assess future therapies for the disorder.
UCSF researchers discover how gabapentin interacts with calcium channels, opening doors for more effective treatments in epilepsy and Lupus by influencing channel biogenesis.
In a first, researchers have identified chronic pain pathways in individuals directly from their neural activity, showing promising paths forward for treatment.
Exposure to trichloroethylene (TCE), a chemical found in the air, water, and soil, may increase the risk of Parkinson's disease by 70%, according to a UCSF study. TCE is commonly used today as a degreasing solvent.
UCSF scientists have found that brain cancer glioblastoma can cause cognitive decline by affecting neural connections, but the epilepsy drug gabapentin shows promise in blocking this activity, offering hope for new treatments.
Sleep spindles, bursts of brain activity during NREM2 sleep, may regulate anxiety in PTSD, challenging recent studies. Non-invasive therapies could provide relief, such as prescription drugs or electrical brain stimulation. Sleep hygiene is also recommended to maximize the benefit of spindles after a stressful episode.
Ten graduate school finalists competed in this year’s UCSF Grad Slam, in which students present their research in three minutes or less in terms easily understood by a general audience.
A newly discovered brain circuit recruits brain cells called astrocytes to calm overactive neurons to produce a calming and relaxing effect.
Thermo Fisher Scientific Inc. and UCSF will accelerate advanced cell therapies for difficult to treat conditions like cancer from a new manufacturing facility.
Jon Kleen is named the 2023 Dreifuss-Penry Epilepsy Award recipient by the American Academy of Neurology (AAN). He is honored for his contributions to epilepsy treatment.
In a first, UCSF scientists created a molecular-level, 3D picture of how an odor molecule activates a human odorant receptor.
Faranak Fattahi’s lab is a national leader in growing stem cells to model peripheral nerves, focusing on gastrointestinal diseases.
Increasing a newborn’s blood pressure after heart surgery may reduce brain injuries and increase survival for infants.
Sleep medications may increase risk of dementia for white people, though the type and amount of medication may also explain the higher probability.
On the operating table and inside the lab of a rising star in cancer neurosurgery.
Could psychedelics become mainstream medicines?
Resecting brain tumors called gliomas as much as possible soon after diagnosis offers a distinct survival advantage when looking at the disease trajectory 10 years later, find UCSF researchers.
UCSF experts discuss the current state of Alzheimer’s treatments and future therapies that may slow progression of the disease.
Through decades of biobanking at UCSF, researchers were able to comprehensively map intra-cellular signaling in the cells of recurrent glioblastoma, identifying novel cell-extrinsic therapeutic targets.
While we sleep, our brains process our daily actions to create motor memory, which makes physical acts such as throwing a basketball subconscious.
UCSF Experts Present Research at the Annual Clinical Trials on Alzheimer’s Disease (CTAD) Conference in San Francisco.