Scientists at the Gladstone Institutes have deciphered how a protein called Arc regulates the activity of neurons – providing much-needed clues into the brain’s ability to form long-lasting memories.
May 07, 2013
A key type of human brain cell developed in the laboratory grows seamlessly when transplanted into the brains of mice, UCSF researchers have found.
May 07, 2013
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.
May 01, 2013
A UCSF-led research team has identified a genetic mutation that is strongly associated with a typical form of migraine. The discovery could lead to more effective therapies for people with this condition.
April 08, 2013
A Phase 2 clinical trial testing a new protocol for treating a relatively rare form of brain cancer, primary CNS lymphoma, may change the standard of care for this disease, according to UCSF doctors who led the research.
April 01, 2013
Scientists at the UCSF-affiliated Gladstone Institutes have discovered that a certain type of DNA damage long thought to be particularly detrimental to brain cells can actually be part of a regular, non-harmful process.
March 27, 2013
Electroencephalogram, which measures and records electrical activity in the brain, is a quick and efficient way of determining whether seizures are the cause of altered mental status and spells, according to a UCSF study.
March 20, 2013
Scientists at UCSF have discovered how memory recall is linked to decision-making in rats, showing that measurable activity in one part of the brain occurs when rats in a maze are playing out memories that help them decide which way to turn.
February 28, 2013
Researchers have mapped the three-dimensional global connections within the brains of seven adults, which reveal new details about the condition known as agenesis of the corpus callosum, one of the top genetic causes of autism.
November 26, 2012
Decreasing the level of a key brain protein led to significantly less drinking and alcohol-seeking behavior in rats and mice that had been trained to drink, according to a study by researchers at the Ernest Gallo Clinic and Research Center at UCSF.