Skip to main content

Home/ Neuropsychology/ Group items matching "of" in title, tags, annotations or url

Group items matching
in title, tags, annotations or url

Sort By: Relevance | Date Filter: All | Bookmarks | Topics Simple Middle
9More

Adult Learning - Neuroscience - How to Train the Aging Brain - NYTimes.com - 1 views

www.nytimes.com/...03adult-t.html neuroscience brain aging adult learning tots research training
shared by Tero Toivanen on 02 Jan 10 - Cached
  • One explanation for how this occurs comes from Deborah M. Burke, a professor of psychology at Pomona College in California. Dr. Burke has done research on “tots,” those tip-of-the-tongue times when you know something but can’t quite call it to mind. Dr. Burke’s research shows that such incidents increase in part because neural connections, which receive, process and transmit information, can weaken with disuse or age.
  • But she also finds that if you are primed with sounds that are close to those you’re trying to remember — say someone talks about cherry pits as you try to recall Brad Pitt’s name — suddenly the lost name will pop into mind. The similarity in sounds can jump-start a limp brain connection. (It also sometimes works to silently run through the alphabet until landing on the first letter of the wayward word.)
  • Recently, researchers have found even more positive news. The brain, as it traverses middle age, gets better at recognizing the central idea, the big picture. If kept in good shape, the brain can continue to build pathways that help its owner recognize patterns and, as a consequence, see significance and even solutions much faster than a young person can.
  • ...5 more annotations...
  • The trick is finding ways to keep brain connections in good condition and to grow more of them.
  • Educators say that, for adults, one way to nudge neurons in the right direction is to challenge the very assumptions they have worked so hard to accumulate while young. With a brain already full of well-connected pathways, adult learners should “jiggle their synapses a bit” by confronting thoughts that are contrary to their own, says Dr. Taylor, who is 66.
  • Teaching new facts should not be the focus of adult education, she says. Instead, continued brain development and a richer form of learning may require that you “bump up against people and ideas” that are different. In a history class, that might mean reading multiple viewpoints, and then prying open brain networks by reflecting on how what was learned has changed your view of the world.
  • Such stretching is exactly what scientists say best keeps a brain in tune: get out of the comfort zone to push and nourish your brain. Do anything from learning a foreign language to taking a different route to work.
  • “As adults we have these well-trodden paths in our synapses,” Dr. Taylor says. “We have to crack the cognitive egg and scramble it up. And if you learn something this way, when you think of it again you’ll have an overlay of complexity you didn’t have before — and help your brain keep developing as well.”
  • Tero Toivanen on 02 Jan 10
     
    Dr. Burke has done research on "tots," those tip-of-the-tongue times when you know something but can't quite call it to mind. Dr. Burke's research shows that such incidents increase in part because neural connections, which receive, process and transmit information, can weaken with disuse or age.
4More

The Neural Advantage of Speaking 2 Languages: Scientific American - 0 views

www.scientificamerican.com/article.cfm brain bilingual research skills second language monolingual
shared by Tero Toivanen on 22 Jan 10 - Cached
  • The ability to speak a second language isn’t the only thing that distinguishes bilingual people from their monolingual counterparts—their brains work differently, too. Research has shown, for instance, that children who know two languages more easily solve problems that involve misleading cues.
  • The findings suggest that after learning a second language, people never look at words the same way again.
  • “The most important implication of the study is that even when a per­son is reading in his or her native language, there is an influence of knowledge of the nondominant second language,” Van Assche notes. “Becoming a bilingual changes one of people’s most automatic skills.”
  • Tero Toivanen on 22 Jan 10
     
    "The most important implication of the study is that even when a per son is reading in his or her native language, there is an influence of knowledge of the nondominant second language," Van Assche notes. "Becoming a bilingual changes one of people's most automatic skills."
8More

Selective aphasia in a brain damaged bilingual patient : Neurophilosophy - 0 views

scienceblogs.com/...damageed_bilungual_patient.php brain bilingual Arabic Hebrew CT scan frontal lobe parietal lobe crationomy hemorrhage
shared by Tero Toivanen on 11 Jul 09 - Cached
  • A unique case study published in the open access journal Behavioral and Brain Functions sheds some light on this matter. The study, by Raphiq Ibrahim, a neurologist at the University of Haifa, describes a bilingual Arabic-Hebrew speaker who incurred brain damage following a viral infection. Consequently, the patient experienced severe deficits in Hebrew but not in Arabic. The findings support the view that specific components of a first and second language are represented by different substrates in the brain.
  • A native Arabic speaker, he learned Hebrew at an early age (4th grade) and later used it competently both professionally and academically.
  • A CT scan showed that he had suffered a massive hemorrhage in the left temporal lobe, which was compressing the tissue on both sides of the central sulcus, the prominent gfissure which separates the frontal and parietal lobes.
  • ...4 more annotations...
  • A craniotomy was performed to relieve the pressure, and afterwards another scan showed moderate hemorrhage and herpes encephalitis in the left temporal lobe, and another hemorrhage beneath the outer membrane (the dura) lying over the right frontal lobe.
  • During his 2 month stay there, he developed epileptic seizures which originated in the left temporal lobe, and amnestic aphasia (an inability to name objects or to recognize their written or spoken names). 
  • After the rehabilitation period, a series of linguistic tests was administered to determine the extent of his speech deficits. M.H. exhibited deficits in both languages, but the most severe deficits were seen only in Hebrew. In this language he had a severe difficulty in recalling words and names, so that his speech was non-fluent and interrupted by frequent pauses. He had difficulty understanding others' spoken Hebrew, and also had great difficulty reading and writing Hebrew. In Arabic, his native language, all of these abilities were affected only mildy.
  • The results support a neurolinguistic model in which the brain of bilinguals contains a semantic system (which represents word meanings) which is common to both languages and which is connected to independent lexical systems (which encode the vocabulary of each language). The findings further suggest that the second language (in this case, Hebrew) is represented by an independent subsystem which does not represent the first language (Arabic) and is more succeptible to brain damage.
  • Tero Toivanen on 11 Jul 09
     
    A unique case study published in the open access journal Behavioral and Brain Functions sheds some light on this matter. The study, by Raphiq Ibrahim, a neurologist at the University of Haifa, describes a bilingual Arabic-Hebrew speaker who incurred brain damage following a viral infection. Consequently, the patient experienced severe deficits in Hebrew but not in Arabic. The findings support the view that specific components of a first and second language are represented by different substrates in the brain.
13More

Music and Intelligence | Boost Your IQ - 0 views

boostyouriq.co.cc/music-and-intelligence music brain intelligence training musical training research higher brain functions abstract reasoning skills math science
shared by Tero Toivanen on 22 Jun 09 - Cached
  • Studies indicate that early exposure to musical training helps a child’s brain reach its potential by generating neural connections utilized in abstract reasoning.
  • The reasoning skills required for a test in spatial reasoning are the same ones children use when they listen to music. Children use these reasoning skills to order the notes in their brain to form the melodies. Also, some concepts of math must be understood in order to understand music. Experts speculate that listening to music exercises the same parts of the brain that handle mathematics, logic, and higher level reasoning.
  • In 1997 a study involving three groups of preschoolers was conducted to determine the effect of music versus computer training on early childhood development.
  • ...9 more annotations...
  • The group that received the piano/keyboard training scored 34% higher on tests measuring spatial-temporal ability than either of the other two groups. These results suggest that music enhances certain higher brain functions, particularly abstract reasoning skills, required in math and science.
  • The use of music in training four and five year old children yielded the highest improvement in the ability to name body parts.
  • Although the three experimental groups displayed an increase in their ability to name body parts the music group exhibited the highest degree of improvement.
  • First grade students received extensive Kodaly training for seven months.
  • At the end of seven months the experimental group had higher reading scores than the control group, which did not receive any special treatment. Not only did the seven month instruction increase reading scores, but continued musical training proved to be beneficial. The experimental group continued to show higher reading scores with continued training.
  • Students who were involved in arts education achieved higher SAT scores. The longer students were involved in arts education, the higher the increase in SAT scores. This study also correlated arts education with higher scores in standardized tests, reading, English, history, citizenship, and geography.
  • The results indicated that students with a relatively lower socioeconomic status, that were exposed to arts education, had an advantage over those students without any arts education which was proportionally equal to the students with a relatively higher socioeconomic status and exposure to arts education.
  • Music exposure affects older students as well. Three groups of college students were exposed to either Mozart’s Sonata for Two Pianos, K448, a relaxation tape, or silence. The group exposed to the Mozart piece was the only group to achieve an increase on the spatial IQ test. Further studies revealed that neither dance music nor taped short stories produced an increase in spatial IQ similar to the Mozart piece. The increase in spatial IQ appears to be related to some unique aspects of the Mozart piece rather than music in general.
  • Music may not only be related to intelligence by its stimulation of the brain, but it may also increase intelligence by the type of attitudes, interests, and discipline it fosters in children.
  • Tero Toivanen on 22 Jun 09
     
    Studies indicate that early exposure to musical training helps a child's brain reach its potential by generating neural connections utilized in abstract reasoning.
9More

Mozart Effect and Premature Babies - Child Psychology Research Blog - 0 views

www.child-psych.org/...music-on-premature-babies.html music Mozart effect premature babies brains
shared by Tero Toivanen on 27 Jan 10 - Cached
  • listening to classical music, and in particular Mozart, improved test performance in college students
  • In fact, a comprehensive meta-analysis (a statistical reviews of previous studies on the topic) concluded that listening to Mozart actually had no effect on intelligence.
  • Soon after, a series of studies showed that Mozart improves performance in some people because of its calming effects.
  • ...5 more annotations...
  • Other studies also showed that playing Mozart to at risk infants (premature or those with severe medical complications) resulted in better medical outcomes, such as fewer hospitalization days and more rapid weight gain.
  • In the last issue of the journal Pediatrics, there was a very small yet fascinating study on the effects of Mozart on premature babies.
  • The authors found that within 10 minutes of the start of the music the infants experienced an average of a 10-13% reduction in their “Resting Energy Expenditure” (REE).
  • It is possible that exposing the infants to Mozart reduces their REE and this results in a higher ratio of ‘consumed calories’ to ‘calories used’, and thus more rapid weight gain and better medical outcomes.
  • these findings, combined to previous findings showing improved medical outcomes among at-risk infants exposed to music, makes you wonder whether neonatal intensive care units should consider music exposure as standard practice for at risk infants.
  • Tero Toivanen on 27 Jan 10
     
    Mozart Effect: The effect of music on premature babies
6More

Naps, Learning and REM : The Frontal Cortex - 0 views

scienceblogs.com/...naps_learning_and_rem.php brain learning REM productivity memory
shared by Tero Toivanen on 03 Jul 09 - Cached
  • Taking a nap without REM sleep also led to slightly better results. But a nap that included REM sleep resulted in nearly a 40 percent improvement over the pre-nap performance.
  • The study, published June 8 in The Proceedings of the National Academy of Sciences, found that those who had REM sleep took longer naps than those who napped without REM, but there was no correlation between total sleep time and improved performance. Only REM sleep helped.
  • Numerous studies have now demonstrated that REM sleep is an essential part of the learning process. Before you can know something, you have to dream about it.
  • ...2 more annotations...
  • The breakthrough came in 1972, when psychologist Jonathan Winson came up with a simple theory: The rabbit brain exhibited the same pattern of activity when it was scared and when it was dreaming because it was dreaming about being scared. The theta rhythm of sleep was just the sound of the mind processing information, sorting through the day's experiences and looking for any new knowledge that might be important for future survival. They were learning while dreaming, solving problems in their sleep.
  • Wilson began his experiment by training rats to run through mazes. While a rat was running through one of these labyrinths, Wilson measured clusters of neurons in the hippocampus with multiple electrodes surgically implanted in its brain. As he'd hypothesized, Wilson found that each maze produced its own pattern of neural firing. To figure out how dreams relate to experience, Wilson recorded input from these same electrodes while the rats were sleeping. The results were astonishing. of the 45 rat dreams recorded by Wilson, 20 contained an exact replica of the maze they had run earlier that day. The REM sleep was recapitulating experience, allowing the animals to consolidate memory and learn new things. Wilson's lab has since extended these results, demonstrating that "temporally structured replay" occurs in both the hippocampus and visual cortex.
  • Tero Toivanen on 03 Jul 09
     
    Taking a nap without REM sleep also led to slightly better results. But a nap that included REM sleep resulted in nearly a 40 percent improvement over the pre-nap performance
2More

Psychology Today: Flavonoids: Antioxidants Help the Mind - 0 views

www.psychologytoday.com/...pto-20030708-000001.html flavonoids
shared by Tero Toivanen on 23 May 09 - Cached
  • ApplesQuercetin is the flavonoid that enables apples to keep the doctor away. Quercetin has been shown to reduce cancer risk, prevent heart attacks, stave off cataracts, control asthma, prevent recurrent gout attacks, and speed healing from acid reflux. Green TeaGreen tea contains, among others, the cancer-fighting flavonoid epigallocatechin gallate (ECGC). ECGC is unique in that it seems to battle cancer at all stages, from thwarting chemical carcinogens, to suppressing the spread of tumors. ECGC is as much as 100 times more powerful an antioxidant as vitamin C, and 25 times more powerful than vitamin E. ECGC also may account for the antibacterial properties of green tea. ChocolateChocolate contains many of the same flavonoids found in tea. The darker the chocolate, the more flavonoids present. Cocoa powder is the richest source by weight, and to maximize your benefits, make your hot chocolate from scratch. Homemade hot chocolate will provide you with more flavonoids than a store-bought mix. Red WineFlavonoids are the source of the well-known "French Paradox"—the ability of the French to consume lots of fat-laden cheese without dropping like flies from heart attacks. The red wine they enjoy is flavonoid-rich, which lowers their risk of heart disease. And if you're not a drinker, you can get almost all the same benefits from purple grape juice.
  • Tero Toivanen on 23 May 09
     
    Flavonoids: Antioxidants Help the Mind Naturally occurring plant pigments, flavonoids are one of the reasons fruits and vegetables are so good for you. Among the many benefits attributed to flavonoids are reduced risk of cancer, heart disease, asthma, and stroke. Apples, Green Tea, Chocolate and Red Wine
8More

Memory Improved 20% by Nature Walk « PsyBlog - 0 views

www.spring.org.uk/...improved-20-by-nature-walk.php psyblog Memory Improved Nature Walk
shared by Tero Toivanen on 23 May 09 - Cached
  • Marc G. Berman and colleagues at the University of Michigan wanted to test the effect of a walk’s scenery on cognitive function (Berman, Jonides & Kaplan, 2008; PDF).
  • In the first of two studies participants were given a 35 minute task involving repeating loads of random numbers back to the experimenter, but in reverse order.
  • The results showed that people’s performance on the test improved by almost 20% after wandering amongst the trees. By comparison those subjected to a busy street did not reliably improve on the test.
  • ...4 more annotations...
  • In the second study participants weren’t even allowed to leave the lab but instead some stared at pictures of natural scenes while others looked at urban environments. The improvements weren’t quite as impressive as the first study, but, once again, the trees and fields beat the roads and lampposts.
  • These results replicated a previous study by Berto (2005) who found that just viewing pictures of natural scenes had a restorative effect on cognitive function.
  • So just as we might have predicted nature is a kind of natural cognitive enhancer, helping our brain let off steam so it can cruise back up to full functioning.
  • When our minds need refreshing and if natural scenery is accessible, we should take the opportunity. If not then just looking at pictures of nature is a reasonable second best.
  • Tero Toivanen on 23 May 09
     
    New study finds that short-term memory is improved 20% by walking in nature, or even just by looking at an image of a natural scene.
6More

Artificial Synesthesia for Synthetic Vision via Sensory Substitution - 0 views

www.seeingwithsound.com/asynesth.htm synesthesia
shared by Ruth Howard on 18 Aug 10 - Cached
  • The additional perception is regarded by the trained synesthete as real, often outside the body, instead of imagined in the mind's eye. Its reality and vividness are what makes artificial synesthesia so interesting in its violation of conventional perception. Synesthesia in general is also fascinating because logically it should have been a product of the human brain, where the evolutionary trend has been for increasing coordination, mutual consistency and perceptual robustness in the processing of different sensory inputs.
  • synesthesia
  • options it may provide for people with sensory disabilities like deafness and blindness, where a neural joining of senses can help in replacing one sense by the other:
  • ...3 more annotations...
  • hear colors, taste shapes, or experience other curious sensory modality crossings, allegedly related to abnormal functioning of the hippocampus, one of the limbic structures in the brain. It has also been suggested that synesthesia constitutes a form of "supernormal integration" involving the posterior parietal cortex. The Russian composer Alexander Scriabin and Russian-born painter Wassily Kandinsky both pioneered artistic links between sight and sound, while they may have been synesthetes themselves. Russian mnemonist Solomon Shereshevskii, studied for decades by neuropsychologist Alexander Luria, appears to have used his natural synesthesia to memorize amazing amounts of data.
  • in seeing with your ears when using a device that maps images into sounds, or in hearing with your eyes when using a device that maps sounds into images.
  • In case of "explicit" synesthesia, the sounds would induce conscious sensations (qualia) of light and visual patterns.
5More

What is intelligence ? | BrainFacts.org Blog - 0 views

blog.brainfacts.org/...what-is-intelligence
shared by David McGavock on 31 Dec 12 - No Cached
  • What do we mean when we say someone is intelligent and is there any scientific basis for defining intelligence? These questions have been at the center of a more than century-old debate in psychology.
  • Although it may be practical for people to think of intelligence as something that exists, whether science should consider intelligence and how it would define it remains very controversial.
  • A recent study published by Hampshire et al.1 from the University of Western Ontario has looked into the brain areas that are activated by tasks that are typically used to test for intelligence. In doing so they hoped to determine if brain areas related to cognitive demands are activated altogether as demands increase during intelligence tests of various kinds, or if some areas were activated during tests for a specific intelligence domain and not for others.
  • ...1 more annotation...
  • The study is interesting because it provides three candidate intelligence factors (instead of 1) that have been built not from intuition about what tasks do but based on the set of brain areas that might contribute to those tasks. However don’t get too excited, the methods used have severe limitations and we are still only at the hypothesis level. We do not know how these areas contribute to performance in intelligence tests and we do not know why they are activated and how they interact together to create the behavior.
  • David McGavock on 31 Dec 12
     
    A recent study published by Hampshire et al.1 from the University of Western Ontario has looked into the brain areas that are activated by tasks that are typically used to test for intelligence. In doing so they hoped to determine if brain areas related to cognitive demands are activated altogether as demands increase during intelligence tests of various kinds, or if some areas were activated during tests for a specific intelligence domain and not for others.
1More

Mnemonics and memory improvement / Pegging and memory - 0 views

buildyourmemory.com/pegging.php Mnemonics memory memory improvement pegging
shared by Tero Toivanen on 25 Jun 09 - Cached
  • Tero Toivanen on 25 Jun 09
     
    The system of pegging that I will be outlining over the course of the next few pages, is one of the most important techniques that has so far been developed in the field of Mnemonics, since the discipline was first practised during the time of the ancient Greeks.
1More

Brain imaging predicts future reading progress in children with dyslexia - 0 views

www.physorg.com/...-future-children-dyslexia.html brain predicts future imaging dyslexia
shared by Tero Toivanen on 20 Dec 10 - No Cached
  • Tero Toivanen on 20 Dec 10
     
    Brain scans of adolescents with dyslexia can be used to predict the future improvement of their reading skills with an accuracy rate of up to 90 percent, new research indicates. Advanced analyses of the brain activity images are significantly more accurate in driving predictions than standardized reading tests or any other measures of children's behavior.
9More

Does Vitamin D Improve Brain Function?: Scientific American - 0 views

www.scientificamerican.com/article.cfm vitamin D improve brain function
shared by Tero Toivanen on 03 Nov 09 - Cached
  • And although vitamin D is well known for promoting bone health and regulating vital calcium levels—hence its addition to milk—it does more than that. Scientists have now linked this fat-soluble nutrient’s hormonelike activity to a number of functions throughout the body, including the workings of the brain.
  • We know there are receptors for vitamin D throughout the central nervous system and in the hippocampus
  • We also know vitamin D activates and deactivates enzymes in the brain and the cerebrospinal fluid that are involved in neurotransmitter synthesis and nerve growth.
  • ...5 more annotations...
  • In addition, animal and laboratory studies suggest vitamin D protects neurons and reduces inflammation.
  • The scientists found that the lower the subjects’ vitamin D levels, the more negatively impacted was their perform­ance on a battery of mental tests. Compared with people with optimum vitamin D levels, those in the lowest quartile were more than twice as likely to be cognitively impaired.
  • The data show that those people with lower vitamin D levels exhibited slower information-processing speed. This correlation was particularly strong among men older than 60 years.
  • Although we now know that low levels of vitamin D are associated with cognitive impairment, we do not know if high or optimum levels will lessen cognitive losses. It is also unclear if giving vitamin D to those who lack it will help them regain some of these high-level functions.
  • So how much is enough vitamin D? Experts say 1,000 to 2,000 IU daily—about the amount your body will synthesize from 15 to 30 minutes of sun exposure two to three times a week—is the ideal range for almost all healthy adults. Keep in mind, however, that skin color, where you live and how much skin you have exposed all affect how much vitamin D you can produce.
  • Tero Toivanen on 03 Nov 09
     
    And although vitamin D is well known for promoting bone health and regulating vital calcium levels-hence its addition to milk-it does more than that. Scientists have now linked this fat-soluble nutrient's hormonelike activity to a number of functions throughout the body, including the workings of the brain.
2More

Investing in the Developing Brain : The Frontal Cortex - 0 views

scienceblogs.com/...sting_in_the_developing_br.php brain developing brain neuroscience research
shared by Tero Toivanen on 23 May 09 - Cached
  • But there has been one major payoff from our investigations of the brain: an increasing emphasis on educating young children, before they reach kindergarten. Decades of research have demonstrated that the cortex is astonishingly plastic at a young age and that many important traits and habits seem to solidify before the age of 4.
  • Tero Toivanen on 23 May 09
     
    But there has been one major payoff from our investigations of the brain: an increasing emphasis on educating young children, before they reach kindergarten. Decades of research have demonstrated that the cortex is astonishingly plastic at a young age and that many important traits and habits seem to solidify before the age of 4.
8More

Eide Neurolearning Blog: Why Boys Need Alternatives with Reading and Writing - 0 views

eideneurolearningblog.blogspot.com/...alternatives-with-reading.html neurolearning Reading and Writing brain
shared by Tero Toivanen on 23 May 09 - Cached
  • If you give girls and boys language tasks, most girls will process the information in the same way (in a specialized language area)
  • help them with word storage and retrieval
  • But for boys, sensitivity to the modality of how words are presented means that an extra steps need to be taken to match words that are picked up by listening and words that are read on the printed page. No wonder dyslexia is much more common in boys - the separate system means that the sight and sound of words are learned as distinct processes.
  • ...4 more annotations...
  • As a result, verbal competence may be strong in one domain (oral speech for instance), but be weak in another (reading).
  • because boys require two areas and a matching of visual-auditory inputs, impairment in one system may cause the whole language coordination process to fail.
  • The visual-auditory gap may also be why some boys may need to read word-for-word outloud or to themselves (i.e. not silently read) in order to fully comprehend or remember the story.
  • Some careful consideration needs to made of instructional implications for boys given some of these new discoveries. Learning by listening and learning by reading are not synonymous; route-congruent factors(listening - oral presentation, reading - written response) may need to be considered when a learning gap or frank underachievement is seen, and an insistence on the availability of auditory-visual supports (reading along with books-on-tape, detailed handouts for lecture courses) should be a requirement of every classroom.
  • Tero Toivanen on 23 May 09
     
    Boys require two areas and a matching of visual-auditory inputs, impairment in one system may cause the whole language coordination process to fail.
1More

Nouns and verbs are learned in different parts of the brain - 0 views

www.physorg.com/news186315338.html brain nouns verbs inferior frontal gyrus left posterior medial temporal gyrus learning
shared by Tero Toivanen on 25 Feb 10 - Cached
  • Tero Toivanen on 25 Feb 10
     
    "Learning nouns activates the left fusiform gyrus, while learning verbs switches on other regions (the left inferior frontal gyrus and part of the left posterior medial temporal gyrus)", Antoni Rodríguez-Fornells, co-author of the study and an ICREA researcher at the Cognition and Brain Plasticity Unit of the University of Barcelona, tells SINC
1More

Discovery of quantum vibrations in microtubules inside brain neurons corroborates contr... - 0 views

www.kurzweilai.net/ar-old-theory-of-consciousness quantum brain theory consciousness research neuroscience neurons
shared by Tero Toivanen on 17 Jan 14 - No Cached
  • A review and update of a controversial 20-year-old theory of consciousness published in  Elsevier’s Physics of Life Reviews (open access) claims that consciousness derives from deeper-level, finer-scale activities inside brain neurons. The recent discovery of quantum vibrations in microtubules inside brain neurons corroborates this theory, according to review authors Stuart Hameroff and Sir Roger Penrose.
3More

Phasic Firing Of Dopamine Neurons Is Key To Brain's Prediction Of Rewards - 0 views

www.sciencedaily.com/...090403144032.htm dopamine neurons brain learning rewards behavior
shared by Tero Toivanen on 23 May 09 - Cached
  • Our research findings provide a direct functional link between the bursting activity of midbrain dopamine neurons and behavior. The research has significant applications for the improvement of health, because the dopamine neurons we are studying are the same neurons that become inactivated during Parkinson's Disease and with the consumption of psychostimulants such as cocaine and amphetamine
  • Midbrain dopamine neurons fire in two characteristic modes, tonic and phasic, which are thought to modulate distinct aspects of behavior. When an unexpected reward is presented to an individual, midbrain dopamine neurons fire high frequency bursts of electrical activity. Those bursts of activity allow us to learn to associate the reward with cues in our environment, which may predict similar rewards in the future.
  • When researchers placed the mice in reward-based situations, they found that the mice without the NMDA receptor in their dopaminergic neurons could not learn tasks that required them to associate sensory cues with reward. Those same mice, however, were able to learn tasks that did not involve an association with rewards.
3More

Let me sleep on it: Creative problem solving enhanced by REM sleep - 0 views

www.physorg.com/news163700544.html REM sleep problem solving brain neuropsychology
shared by Tero Toivanen on 09 Jun 09 - Cached
  • "Participants grouped by REM sleep, non-REM sleep and quiet rest were indistinguishable on measures of memory," said Cai. "Although the quiet rest and non-REM sleep groups received the same prior exposure to the task, they displayed no improvement on the RAT test. Strikingly, however, the REM sleep group improved by almost 40 percent over their morning performances."
  • The study by Sara Mednick, PhD, assistant professor of psychiatry at UC San Diego and the VA San Diego Healthcare System, and first author Denise Cai, graduate student in the UC San Diego Department of Psychology, shows that REM directly enhances creative processing more than any other sleep or wake state. Their findings will be published in the June 8th online edition of the Proceedings of the National Academy of Sciences (PNAS).
  • Tero Toivanen on 09 Jun 09
     
    "Participants grouped by REM sleep, non-REM sleep and quiet rest were indistinguishable on measures of memory," said Cai. "Although the quiet rest and non-REM sleep groups received the same prior exposure to the task, they displayed no improvement on the RAT test. Strikingly, however, the REM sleep group improved by almost 40 percent over their morning performances."
1More

Brain Foundation - Healthy Brain - 0 views

www.brainaustralia.org.au/healthy_brain brain healthy program Brain Foundation healthy brain excercise nourish psyical activity safety stress depression relax sleep regular checks smoking drugs
shared by Tero Toivanen on 22 Jun 09 - Cached
  • Tero Toivanen on 22 Jun 09
     
    The Healthy Brain Program, an initiative of the Brain Foundation, aims to assist Australians to keep their brains healthy into old age, through the provision of community education and research. The program aims to address issues such as: People are living longer, and the prevalence of degenerative brain disorders is increasing. There is little information available about how to keep the brain healthy compared to the wealth of information about a healthy body and heart. There is a need for a coordinated approach to education on key indicators and risk reduction strategies.
‹ Previous 21 - 40 of 103 Next › Last »
Showing 20 items per page