Age-related memory loss tied to slip in filtering information quickly

The finding, reported in the current online early edition of Proceedings of the National Academy of Sciences, fuels the researchers' efforts, they say, to explore strategies for enhancing brain function in the healthy aging population, through mental training exercises and pharmaceutical treatments.

The research, conducted by University of California, San Francisco and University of California, Berkeley scientists, builds on the team's seminal 2005 discovery ("Nature Neuroscience," October 2005) that the brain's capacity to ignore irrelevant information diminishes with age.

The capacity to ignore irrelevant information -- such as most of the faces in a crowded room when one is looking for a long-lost friend – and to enhance pertinent information -- such as the face of a new acquaintance met during the search for the old friend – is key to memory formation. This process is known as top-down modulation.

In the 2005 study, the team recorded brain activity in younger and older adults given a visual memory test in which they were shown sequences of images (sets of two faces and two scenes), told to remember a specific category, and then asked to identify an image from that category nine seconds later. The scientists, using functional magnetic resonance imaging (fMRI), determined that the neurons of the older participants (ages 60 to 72) responded excessively to the images they should have ignored, compared to the younger adults (ages 19 to 33). This attention to the distracting information directly correlated with how well the participants did on the memory test.

In the current study, the team used electroencephalography (EEG), which measures the speed of neural processing, to examine the relationship between this inhibitory deficit hypothesis of normal aging and another leading hypothesis – that the brain's ability to process information quickly, diminishes. According to this theory, if information is not moving quickly onto the brain's conveyor belt, of sorts, there will be a backup of data, and this, in turn, will delay later information processing that will disrupt memory formation.

The new study, involving the same visual memory test used in the previous research, revealed that both brain processes – the capacity to ignore irrelevant information and the ability to process information quickly -- diminished with age and, in fact, worked in tandem. The participants had trouble suppressing unnecessary information, but only because the speed with which they processed the irrelevant data decreased. Significantly, the slow down in processing time happened only in the very early stages of visual processing -- within 200 milliseconds.

"The study showed that the brains of older adults have a deficit in suppressing irrelevant information during visual working memory encoding, but only in the first tenth to two tenths of a second of visual processing," says the lead author of the study, Adam Gazzaley, MD, PhD, assistant professor of neurology, a member of the UCSF Memory and Aging Center and director of the UCSF Neuroscience Imaging Center.

Moreover, despite the aging brain's ability to suppress extraneous information in the ensuing milliseconds, the memory deficit persists, implying, he says, that interference by irrelevant information apparently overwhelms a limited working memory capacity, which is the ability to hold information in mind for brief periods of time to guide your actions.

As to what causes the break down in inhibition and processing speed, scientists do not know. They do know that, in the course of aging, there are changes in the structure of neurons, the density of neural tissue and the actions of neurochemicals acting on the cells. They also know that there are changes in the neural connections between neurons in far flung parts of the brain.

In the healthy aging brain, these changes are subtle. In the brains of those with mild cognitive impairment and the more severe form of impairment, such as Alzheimer's disease, they are substantial.

The team is now trying to relate how these changes might affect changes in inhibition and processing speed.

They also are investigating strategies for remediating these changes, both mental training exercises that would improve the speed and efficiency of information processing and drugs that would inhibit the brain's attention to extraneous information.

"People's expectations for their later years have changed," says Gazzaley. "They want to remain actively engaged – to continue to work, to learn new languages, to move to countries where they can practice their new language.

"The ability to selectively focus our attention, suppress distracting input and hold relevant information in our mind defines our conscious experience and serves as a critical crossroad between attention and memory. The people in our study are functioning well; many are still working, but they want to function at the level they did previously."

Source: University of California - San Francisco

Review: New BlackBerrys cool but can't beat iPhone
(AP) -- With the recent releases of three new BlackBerrys across three different wireless providers, Research In Motion Ltd. has fired back at Apple Inc. in the Great Smart Phone Skirmish of 2008.
Forgotten but not gone - how the brain takes care of things
(PhysOrg.com) -- Thanks to our ability to learn and to remember, we can perform tasks that other living things can not even dream of. However, we are only just beginning to get the gist of what really goes on in the brain when it learns or forgets something. What we do know is that changes in the contacts between nerve cells play an important role. But can these structural changes account for that well-known phenomenon that it is much easier to re-learn something that was forgotten than to learn something completely new?
Newborn Neurons in the Adult Brain Can Settle in the Wrong Neighborhood
In a study that could have significant consequences for neural tissue transplantation strategies, researchers at the Salk Institute for Biological Studies report that inactivating a specific gene in adult neural stem cells makes nerve cells emerging from those precursors form connections in the wrong part of the adult brain.
'Security-on-a-Stick' to protect consumers and banks from the most sophisticated hacker attacks
(PhysOrg.com) -- Resembling a memory stick with an integrated display, a prototype USB device developed at IBM's Zurich Research Lab brings a new level of security to online banking for consumers. Pilot devices are ready and available to banks for trials.
Optical firewall aims to clear internet security bottlenecks
(PhysOrg.com) -- European researchers are developing the world’s first optical firewall capable of analysing data on fibre optic networks at speeds of 40 gigabits per second. Their work promises to save the internet from the looming threat of network security bottlenecks.
Memoirs of a qubit: Hybrid memory solves key problem for quantum computing
An international team of scientists has performed the ultimate miniaturisation of computer memory: storing information inside the nucleus of an atom. This breakthrough is a key step in bringing to life a quantum computer - a device based on the fundamental theory of quantum mechanics which could crack problems unsolvable by current technology.
Robotic ants building homes on Mars?
(PhysOrg.com) -- Recent discoveries of water and Earth-like soil on Mars have set imaginations running wild that human beings may one day colonise the Red Planet. However, the first inhabitants might not be human in form at all, but rather swarms of tiny robots.

Scientists adapt economics theory to trace brain's information flow
Scientists have used a technique originally developed for economic study to become the first to overcome a significant challenge in brain research: determining the flow of information from one part of the brain to another.

Age-related memory loss tied to slip in filtering information quickly

Related stories:

News discussion: