The Omicron Effect: Can We Predict the Next Viral Killer?
Angela Phillips, PhD, leads research that could help predict future viruses like COVID and the antibodies we might use to treat them.
University of California San Francisco
Give to UCSFAngela Phillips, PhD, leads research that could help predict future viruses like COVID and the antibodies we might use to treat them.
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.
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.
Researchers have genetically engineered cells to distract antibodies from attacking friendly, but foreign, cells. This could prevent transplants from being rejected.
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.
T-cells can be directed to produce cytokine, a powerful anti-cancer component, when they encounter cancer cells. This holds tremendous promise for cancer immunotherapy.
UCSF Experts Present Research at the Annual Clinical Trials on Alzheimer’s Disease (CTAD) Conference in San Francisco.
Risk of death or hospitalization from COVID-19 were found to be greater for patients with PTSD.
Researchers have identified specific immune cells that drive deadly heart inflammation in a small fraction of patients treated with powerful cancer immunotherapy drugs.
The brains of people with Down syndrome develop the same neurodegenerative tangles and plaques associated with Alzheimer’s disease and frequently demonstrate signs of the neurodegenerative disorder in their forties or fifties. A new study shows that these tangles and plaques are driven by the same amyloid beta (Aß) and tau prions as Alzheimer’s disease.
Brain implants for speech, neurological effects of COVID-19, and motor recovery after stroke are among the topics that researchers from UCSF will be presenting at this year’s annual meeting of the Society for Neuroscience.
A new method of comparing massive numbers of CAR-T cells can determine which is most effective and long-lasting against cancer.
Immune checkpoint inhibitors (ICIs) used in cancer care can cause myocarditis, a potentially fatal side effect, and it appears that the adverse cardiac effects may disproportionally impact female patients.
A $147 million grant will expand diversity among Alzheimer’s disease research participants, and involve partners from UCSF, the San Francisco VA Medical Center, and the Northern California Institute for Research and Education.
A new diagnostic method that applies machine learning to advanced genomics data from both microbe and host to identify and predict sepsis cases was developed by researchers at UCSF, the Chan Zuckerberg Initiative, and CZ Biohub.
A small molecule called ISRIB that was identified at UCSF can reverse the neuronal and cognitive effects of concussion in mice weeks after an injury occurred, new research found.
Last month new “bivalent” booster vaccines made by Moderna and Pfizer became available that protect against currently circulating Omicron variants as well as earlier strains of the SARS-CoV-2 virus that causes COVID-19. This Q&A features Joel Ernst, MD, a UCSF professor of medicine whose research aims to understand how pathogens evade the immune system.
After a decade of work, scientists at UCSF’s Neuroscape Center have developed a suite of video game interventions that improve key aspects of cognition in aging adults.
A new study shows that fewer Black, Hispanic and Asian patients would qualify for these treatments that may slow Alzheimer’s progression, since cognitive impairment in these groups is more likely to be caused by other forms of dementia that may be unrelated to amyloid plaques.