A new study says that some aspects of peoples' cognitive skills, like making rapid comparisons, remembering unrelated information and detecting relationships, will peak at about the age of 22 and then begin a slow decline starting around age 27.

Timothy Salthouse, a University of Virginia professor of psychology and the study's lead investigator, and a team conducted the study during a seven-year period, working with 2,000 healthy participants between the ages of 18 and 60.Participants were asked to solve various puzzles, remember words and details from stories, and identify patterns in an assortment of letters and symbols.

A new study says that the human brain lives "on the edge of chaos", at a critical transition point between randomness and order.   Theoretical speculation?  Well, yeah, but that's the nature of neuroscience.

The researchers say self-organized criticality (where systems spontaneously organize themselves to operate at a critical point between order and randomness), can emerge from complex interactions in many different physical systems, including avalanches, forest fires, earthquakes, and heartbeat rhythms.

To look at Matthew Houdek, you could never tell he was born with virtually no left ear.

A surgery at Loyola University Health System made it possible for Houdek to be fitted with a prosthetic ear that looks just like the real thing.

Ear-nose-throat surgeon Dr. Sam Marzo implanted three small metal screws in the side of Houdek's head. Each screw is fitted with a magnet, and magnetic attraction holds the prosthetic ear in place.

It takes only a few seconds for Houdek to put his prosthetic ear on in the morning and take it off when he showers or goes to bed. It doesn't fall off, and it's much more convenient than prosthetic ears that are attached with adhesive. 

Humans excel at recognizing faces, but how we do this has been an abiding mystery in neuroscience and psychology. In an effort to explain our success in this area, researchers are taking a closer look at how and why we fail. 

A new study from MIT looks at a particularly striking instance of failure: our impaired ability to recognize faces in photographic negatives. The study, which appears in the Proceedings of the National Academy of Sciences this week, suggests that a large part of the answer might lie in the brain's reliance on a certain kind of image feature.

FINDINGS: Scientists at the Whitehead Institute for Biomedical Research and the National University of Singapore have discovered the first microRNA (miRNA) capable of directly tamping down the activity of the well known tumor-suppressor gene, p53, While p53 functions to prevent tumor formation, the p53 gene is thought to malfunction in more than 50% of cancerous tumors.

RELEVANCE: The study reports the first time a miRNA has been shown to directly affect the p53 protein level, although researchers have previously identified other genes and miRNAs that indirectly affect p53's activity.

They say a picture tells a thousand stories, but can it also tell how smart you are?  Yes, say UCLA researchers. 

In a Journal of Neuroscience study, UCLA neurology professor Paul Thompson and colleagues used a new type of brain-imaging scanner to show that intelligence is strongly influenced by the quality of the brain's axons, or wiring that sends signals throughout the brain. The faster the signaling, the faster the brain processes information. And since the integrity of the brain's wiring is influenced by genes, the genes we inherit play a far greater role in intelligence than was previously thought.