Low-intensity electric fields can disrupt the division of cancer cells and slow the growth of brain tumors, suggest laboratory experiments and a small human trial, raising hopes that electric fields will become a new weapon for stalling the progression of cancer.

In the studies, the research team uses alternating electric fields that jiggle electrically charged particles in cells back and forth hundreds of thousands of times per second. The electric fields have an intensity of only one or two volts per centimeter. Such low-intensity alternating electric fields were once believed to do nothing significant other than heat cells.

An increasing body of evidence indicates that we should reduce the amount of salt in our diet. The American Medical Association (AMA), the American Heart Association (AHA), the American Dietetic Association (ADA), and the National Institutes of Health have begun a campaign to cut the salt intake of Americans by one-half. The AMA is even pushing the Food and Drug Administration to withdraw salt’s designation as “safe,” according to UCLA's Healthy Years.

“The consequences of too much salt are hypertension, or high blood pressure, which increases the risk of a stroke or heart attack,” says Amy Schnabel, MS, RD, Clinical Nutrition Manager at the UCLA Medical Center. Ninety percent of Americans will develop hypertension unless they take steps to prevent it.

Monkeys seem to learn the same way humans do, a new research study indicates.

“Like humans, monkeys benefit enormously from being actively involved in learning instead of having information presented to them passively,” said Nate Kornell, a UCLA postdoctoral scholar in psychology and lead author of the study. “The advantage of active learning appears to be a fundamental property of memory in humans and nonhumans alike.”

In Kornell’s study, conducted when he was a psychology graduate student at Columbia University, two rhesus macaque monkeys learned to place five photographs in a particular order. The photographs were displayed on a touch-screen computer monitor similar to those found on ATMs. When the monkeys pressed a correct photograph, a border appeared around it.

Why do we like some music and not others? Why does music feel right and why does it evoke certain moods? The brain's ability to segment the continual stream of sensory information into perceptual chunks and extract meaning, “event segmentation” functions, have long fascinated researchers.

In a series of experiments, a team led by Vinod Menon of Stanford University School of Medicine asked subjects to listen to symphonies of the English composer William Boyce. The symphonies were chosen because they are relatively short and comprise well-defined movements - changes in tempo, tonality, rhythm, and pitch, and brief silences.

In studies with monkeys, researchers have identified in detail the brain regions responsible for the unique ability of primates, including humans, to process visual 3D shapes to guide their sophisticated manipulation of objects.

Specifically, the researchers delineated regions of the parietal cortex responsible for extracting 3D information by integrating disparities in information from the two eyes. Such integration is critical to perceiving three dimensions, because each eye receives only a two-dimensional projection of an image on the retina.

A woman, whose ovaries had failed due to damage caused by chemotherapy and radiotherapy, has received a successful ovarian transplant from her genetically non-identical sister. The transplant restored her ovarian function, she started to menstruate and, after a year, doctors were able to recover two mature oocytes from her ovaries and fertilise them to produce two embryos.

This first case of a successful transplantation of ovarian tissue between two non-identical sisters is reported today by Professor Jacques Donnez, head of the department of gynecology and professor and chairman at the Catholic University of Louvain in Brussels, Belgium, who led the team that carried out the work.