High-Resolution Mapping Technique Uncovers Underlying Circuit Architecture of the Brain
Using an innovative brain-tracing technique, scientists have found a way to untangle the complex connections that influence specific brain functions.
University of California San Francisco
Give to UCSFUsing an innovative brain-tracing technique, scientists have found a way to untangle the complex connections that influence specific brain functions.
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.
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.
A UCSF-led team has created a set of guidelines for doctors and other clinicians to use for communicating uncertain prognoses to elderly patients and those battling terminal illness.
A UCSF-led research team has identified the likely genetic mechanism that causes some patients with multiple sclerosis to quickly progress to a debilitating stage of the disease while other patients progress much more slowly.
Gene mutations that lead to major birth defects may also cause subtle disruptions in the brain that contribute to psychiatric disorders such as schizophrenia, autism and bipolar disorder, according to new research by UCSF scientists.
Researchers at the Ernest Gallo Clinic and Research Center at UCSF have been able to identify and deactivate a brain pathway linked to memories that cause alcohol cravings in rats.
A new UCSF-led study looks at the close link between diabetes and dementia, which can create a vicious cycle.
UC San Francisco has launched a new app for the Apple iPad that presents a novel approach to learning the neurological physical exam, a challenging series of assessments aimed at diagnosing neurological disorders in patients.
A key type of human brain cell developed in the laboratory grows seamlessly when transplanted into the brains of mice, UCSF researchers have found.
Epilepsy that does not respond to drugs can be halted in adult mice by transplanting a specific type of cell into the brain, UCSF researchers have discovered, raising hope that a similar treatment might work in severe forms of human epilepsy.