 |
|
Penn Researchers Pinpoint the Brain Waves That Distinguish False Memories From Real Ones
October 24, 2007PHILADELPHIA - For the first time, researchers at the University of Pennsylvania are able to pinpoint brain waves that distinguish true from false memories, providing a better understanding of how memory works and creating a new strategy to help epilepsy patients retain cognitive function.
The study, the first to show that brain waves predict the veracity of human memories, is available online in the journal Psychological Science and in the November 2007 print edition.
To test whether distinct patterns of electrophysiological activity prior to a response can distinguish true from false memories, psychologists at Penn recorded brain activity from 52 neurosurgical patients being treated for drug-resistant epilepsy. Patients were asked to perform a verbal free-recall task while researchers used an array of implanted electrodes and intracranial electroencephalographic recordings to locate where in their brains the patients seizures originated. Patients volunteered to study lists of words which they were then asked to recall at a later time. When asked to recall the studied words, participants recalled some number of correct items and also made a small number of errors, recalling words that had not appeared on the target list.
While patients performed the memory game, scientists observed electrical activity in their brains to determine whether specific brain waves were associated with successfully storing and retrieving memories. Researchers found that a fast brain wave, known as the gamma rhythm, increased when participants studied a word that they would later recall. The same gamma waves, whose voltage rises and fall between 50 and 100 times per second, also increased in the half-second prior to participants correctly recalling an item.
These analyses revealed that the same pattern of gamma band oscillatory activity in the hippocampus, prefrontal cortex and left temporal lobe that predicts successful memory formation also re-emerged at retrieval, distinguishing correct from incorrect responses, said Per B. Sederberg, lead author and former Penn neuroscientist now performing post-doctoral research at Princeton University. The timing of these oscillatory effects suggests that self-cued memory retrieval initiates in the hippocampus and then spreads to the cortex. Thus, retrieval of true as compared with false memories induces a distinct pattern of gamma oscillations, possibly reflecting recollection of contextual information associated with past experience.
Gamma waves actually predicted whether or not an item that was about to be recalled was previously studied, said Michael Kahana, a professor of psychology in Penns School of Arts and Sciences and lead investigator. In other words, one could see a difference in brain activity just prior to remembering something that had and had not actually happened.
In addition to providing a better understanding of how memory works, the findings may also provide a clearer picture of how to assist those suffering with epilepsy. In epilepsy's 2.6 million American sufferers, brain oscillations become so strong that they sweep across the brain, producing seizures. Although seizures are controlled with medication in two-thirds of people with epilepsy, the remainder may be candidates for surgery to remove the brain regions where seizures originate.
Identifying the neural signatures of successful memory storage and retrieval can help neurosurgeons reduce the cognitive deficits that might result from epilepsy surgery, said Brian Litt, associate professor of neurology and bioengineering at Penn, and a co-author of the study.
In addition, these techniques for mapping cognitive networks could give rise to better ways of mapping functional networks in brain, which may help in treating a number of neurological disorders, including depression, schizophrenia, head trauma and affective disorders, Litt said.
A collaboration of psychologists, neurologists and neurosurgeons from the University of Pennsylvania, Princeton University, the University of Freiburg and Harvard Medical School participated in this research, which was funded by the National Institutes of Health, the Swartz Foundation, the Klingenstein Foundation and the Dana Foundation.
University of Pennsylvania
While patients performed the memory game, scientists observed electrical activity in their brains to determine whether specific brain waves were associated with successfully storing and retrieving memories. Researchers found that a fast brain wave, known as the gamma rhythm, increased when participants studied a word that they would later recall. The same gamma waves, whose voltage rises and fall between 50 and 100 times per second, also increased in the half-second prior to participants correctly recalling an item.
These analyses revealed that the same pattern of gamma band oscillatory activity in the hippocampus, prefrontal cortex and left temporal lobe that predicts successful memory formation also re-emerged at retrieval, distinguishing correct from incorrect responses, said Per B. Sederberg, lead author and former Penn neuroscientist now performing post-doctoral research at Princeton University. The timing of these oscillatory effects suggests that self-cued memory retrieval initiates in the hippocampus and then spreads to the cortex. Thus, retrieval of true as compared with false memories induces a distinct pattern of gamma oscillations, possibly reflecting recollection of contextual information associated with past experience.
Gamma waves actually predicted whether or not an item that was about to be recalled was previously studied, said Michael Kahana, a professor of psychology in Penns School of Arts and Sciences and lead investigator. In other words, one could see a difference in brain activity just prior to remembering something that had and had not actually happened.
In addition to providing a better understanding of how memory works, the findings may also provide a clearer picture of how to assist those suffering with epilepsy. In epilepsy's 2.6 million American sufferers, brain oscillations become so strong that they sweep across the brain, producing seizures. Although seizures are controlled with medication in two-thirds of people with epilepsy, the remainder may be candidates for surgery to remove the brain regions where seizures originate.
Identifying the neural signatures of successful memory storage and retrieval can help neurosurgeons reduce the cognitive deficits that might result from epilepsy surgery, said Brian Litt, associate professor of neurology and bioengineering at Penn, and a co-author of the study.
In addition, these techniques for mapping cognitive networks could give rise to better ways of mapping functional networks in brain, which may help in treating a number of neurological disorders, including depression, schizophrenia, head trauma and affective disorders, Litt said.
A collaboration of psychologists, neurologists and neurosurgeons from the University of Pennsylvania, Princeton University, the University of Freiburg and Harvard Medical School participated in this research, which was funded by the National Institutes of Health, the Swartz Foundation, the Klingenstein Foundation and the Dana Foundation.
University of Pennsylvania
Brain Wave Current Events and Brain Wave News RSSIowa State study finds high volume video gamers have more difficulty staying attentive
Parents have long lectured their children about the mind-numbing effects of playing video games all day. And a new Iowa State University study has found that high volume action video game players -- those who play around 40 hours per week -- actually had more difficulty keeping focused on tasks requiring longer, more proactive attention than those who played video games less than a couple of hours a week.
New findings encourage more vigilant monitoring of seizure activity among intensive care patients
Two new studies published by neurologists at Columbia University Medical Center and NewYork-Presbyterian Hospital demonstrate a need for more vigilant monitoring for seizure activity among intensive care patients who may be experiencing subtle seizures that are typically unrecognized.
Findings in epilepsy gene in animals may guide treatment directions for infants
Researchers studying a difficult-to-treat form of childhood epilepsy called infantile spasms have developed a line of mice that experiences seizures with features closely resembling those occurring in patients with infantile seizures.
Epilepsy drug may help alcoholics recover from dependence, small study suggests
It's a Catch-22 of the highest order. People with alcohol problems often use alcohol to get to sleep -- but it actually keeps them from getting good-quality sleep all night long.
Deafness and seizures result when mysterious protein deleted in mice
Scientists have discovered that mice genetically engineered to lack a particular protein in the brain have profound deafness and seizures. The finding suggests a pathway, they say, for exploring the hereditary causes of deafness and epilepsy in humans.
Brain measurements could lead to better devices to move injured or artificial limbs
Neuroscientists at the Hebrew University of Jerusalem have developed a novel approach for measuring and deciphering brain activity that holds out promise of providing improved movements of natural or artificial limbs by those who have been injured or paralyzed.
Gladstone scientists uncover potential mechanism of memory loss in Alzheimer's disease
Researchers at the Gladstone Institute of Neurological Disease (GIND) and Baylor College of Medicine have discovered a mechanism by which the protein Amyloid-beta(AB) may impair neurological functions in Alzheimer's disease.
Children's brain responses predict impact of sleep loss on attention
The brain responses of those children who don't get enough sleep can accurately predict the impact sleep loss has on their ability to pay attention during the course of a day.
Physicists exploit ultra-cold gases to measure ultra-small magnetic fields
Capturing the coldest atoms in the universe within the confines of a laser beam, University of California, Berkeley, physicists have made a device that can map magnetic fields more precisely than ever before.
Brain wave changes in adolescence signal reorganization of the brain
Brain wave changes in adolescence are related to age, not sexual maturation, and may be associated with one of the brain's major reorganization projects: synaptic pruning, a new study finds.
More Brain Wave Current Events and Brain Wave News Articles
 |
MC Square X1 - Neuro-Techology device boost concentration up, relieve stress, and relax mind by using light and sound to induce positive brain waves by DAEYANG E&C PRODUCT FEATURES:Compact and slim design, soft touchpad buttonsUser friendly GUITurbo function6 preinstalled natural sounds biorhythmVoice recordingMP3 play functionJPG and text file can be seen |
 |
Brain Wave Vibration: Getting Back into the Rhythm of a Happy, Healthy Life by Ilchi Lee (Author) Catch the wave of the powerful training technique that has already transformed thousands of lives. Brain Wave Vibration is a powerful, easy-to-follow method that helps people bring their bodies and minds back into balance for total health, happiness, and peace. The simplest form of practice merely requires moving your body to your own internal rhythms. Author Ilchi Lee teaches this simple truth through the book: creating a miracle is just a matter of coming back to who you really are. More than a physical training technique, Brain Wave Vibration is a call to action, a plea to uncover the vast abilities that lie within your brain. Through this revolutionary brain-body practice, you will: |
 |
Catch A Brain Wave Fitness Fun Manual by KIMBO EDUCATIONAL This 47-page companion teacher-resource booklet/instructional guide for the multi-award-winning "Catch a Brain Wave" Fitness Fun CD features full-sized guided-movement instructions, song lyric sheets, and reproducible classroom activity worksheets. |
 |
Music for Brain Wave Vibration by Various Artists This CD, a companion to Ilchi Lee s book Brain Wave Vibration, contains a collection of music ideally suited for use with the method. This music will transport your soul to a place of peaceful contentment, and it will inspire you to move freely with the rhythms of your body. Brain Wave Vibration is a powerful, easy-to-follow method that helps people bring their bodies and minds back into balance for total health, happiness, and peace. The simplest form of practice merely requires that you move your body to your own internal rhythms. As you do so, you will shake off all the tension and worries that plague your body and mind, allowing you to return to a place of complete health. Use the music on this CD to help enhance your experience. Several tracks feature traditional... |
 |
Alpha for Sharpness and Peak Performance BrainWaves (Primary Contributor) |
 |
Logitech Cordless Desktop Wave Pro by Logitech Logitech Cordless Desktop Wave Pro¿s acclaimed Wave keyboard design and the elegantly contoured mouse both conform to you naturally to provide our highest level of comfort. The three-year keyboard battery life and USB rechargeable mouse minimize the hassle of changing batteries. State-of-the-art laser technology, hyper-fast scrolling, and advanced 2.4 GHz wireless technology deliver exceptional precision and control. |
 |
Brainwave : The Greatest Masterpiece by the Science Fiction Grandmaster by Poul Anderson (Author) For millions of years, the part of the galaxy containing our solar system has been moving through a vast force field whose effect has been to inhibit "certain electromagnetic and electrochemical processes" and thus certain neurotic functions. When Earth escapes the inhibiting field, synapse speed immediately increases, causing a rise in intelligence, which results in a transfigured humanity reaching for the stars, leaving behind our earth to the less intelligent humans and animal lifeforms. A transcendent look at the possible effects of enhanced intelligence on our planet. |
|
Brain Wave Neo Discovery Theme Deck by Pokemon Company International Pokemon Neo Discovery - Neo Discovery Theme Decks! Neo Discovery Theme Deck. Contains 60 Cards, Including a Holographic. | |
 |
Sprudio Subliminal Cd:Overcome Insomnia / Get a Good Nights Sleep , NLP , Brain Wave Generator, Binaural Beats, Subliminal Audio using Ocean Sound with Ultra Silent Subliminal Bonus (Last Track) by Sprudio CD with Nature Sound: The affirmations and suggestions are "buried" in the Ocean Waves Sound; all you hear is The Ocean Waves and the Nature Sound. Final Track Silent, can be used anywhere. There is not sound to be heard by conscious mind. About this CD Sleep is a great healer of many things. Everyone needs their share of deep, comfortable sleep. This subliminal CD can help you fall asleep and stay that way long enough to provide the best therapy known to man! Train yourself to fall asleep faster and make a new pattern that will benefit you greatly for years to come. Play this audio every night, relax, and float away. Brainwave generator; neuro-linguistic programming; and finally, an ultra-silent track that the conscious mind cannot hear at all. This is a Subliminal CD, Subliminal mean... |
 |
Catch A Brain Wave Fitness Fun by Ronno & Liz Jones-Twomey Daily exercise is a must for children -to build healthier bodies and stimulate brain development. Not enough time? Just 20 minutes a day using these intentionally designed movements can help kids gain the import benefits of increased fitness and greater learning-power. Recommended for ages 4 to 9. |
| © 2009 BrightSurf.com |