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anonymous

The Neuroscience of Your Brain On Fiction - NYTimes.com - 0 views

www.nytimes.com/...-of-your-brain-on-fiction.html

Psychology brain fMRI emotion language meaning

shared by anonymous on 20 Mar 12 - No Cached
  • anonymous on 20 Mar 12
     
    "MID the squawks and pings of our digital devices, the old-fashioned virtues of reading novels can seem faded, even futile. But new support for the value of fiction is arriving from an unexpected quarter: neuroscience. Brain scans are revealing what happens in our heads when we read a detailed description, an evocative metaphor or an emotional exchange between characters. Stories, this research is showing, stimulate the brain and even change how we act in life. Researchers have long known that the "classical" language regions, like Broca's area and Wernicke's area, are involved in how the brain interprets written words. What scientists have come to realize in the last few years is that narratives activate many other parts of our brains as well, suggesting why the experience of reading can feel so alive. Words like "lavender," "cinnamon" and "soap," for example, elicit a response not only from the language-processing areas of our brains, but also those devoted to dealing with smells. In a 2006 study published in the journal NeuroImage, researchers in Spain asked participants to read words with strong odor associations, along with neutral words, while their brains were being scanned by a functional magnetic resonance imaging (fMRI) machine. When subjects looked at the Spanish words for "perfume" and "coffee," their primary olfactory cortex lit up; when they saw the words that mean "chair" and "key," this region remained dark. The way the brain handles metaphors has also received extensive study; some scientists have contended that figures of speech like "a rough day" are so familiar that they are treated simply as words and no more. Last month, however, a team of researchers from Emory University reported in Brain & Language that when subjects in their laboratory read a metaphor involving texture, the sensory cortex, responsible for perceiving texture through touch, became active. Metaphors like "The singer had a velvet vo
anonymous

Meditation Gives Brain a Charge, Study Finds (washingtonpost.com) - 0 views

www.washingtonpost.com/...A43006-2005Jan2.html

brain gamma waves Davidson monks meditation cognition physiology neuroplasticity

shared by anonymous on 12 Sep 11 - Cached
  • anonymous on 12 Sep 11
     
    "Brain research is beginning to produce concrete evidence for something that Buddhist practitioners of meditation have maintained for centuries: Mental discipline and meditative practice can change the workings of the brain and allow people to achieve different levels of awareness. Those transformed states have traditionally been understood in transcendent terms, as something outside the world of physical measurement and objective evaluation. But over the past few years, researchers at the University of Wisconsin working with Tibetan monks have been able to translate those mental experiences into the scientific language of high-frequency gamma waves and brain synchrony, or coordination. And they have pinpointed the left prefrontal cortex, an area just behind the left forehead, as the place where brain activity associated with meditation is especially intense. "What we found is that the longtime practitioners showed brain activation on a scale we have never seen before," said Richard Davidson, a neuroscientist at the university's new $10 million W.M. Keck Laboratory for Functional Brain Imaging and Behavior. "Their mental practice is having an effect on the brain in the same way golf or tennis practice will enhance performance." It demonstrates, he said, that the brain is capable of being trained and physically modified in ways few people can imagine. Scientists used to believe the opposite -- that connections among brain nerve cells were fixed early in life and did not change in adulthood. But that assumption was disproved over the past decade with the help of advances in brain imaging and other techniques, and in its place, scientists have embraced the concept of ongoing brain development and "neuroplasticity." "
anonymous

Brain Scanners Can See Your Decisions Before You Make Them - 0 views

www.wired.com/...mind_decision

Psychology biological neuroscience fMRI brain scan brain imaging free will

shared by anonymous on 05 Jan 12 - Cached
  • anonymous on 05 Jan 12
     
    "You may think you decided to read this story -- but in fact, your brain made the decision long before you knew about it. In a study published Sunday in Nature Neuroscience, researchers using brain scanners could predict people's decisions seven seconds before the test subjects were even aware of making them. The decision studied -- whether to hit a button with one's left or right hand -- may not be representative of complicated choices that are more integrally tied to our sense of self-direction. Regardless, the findings raise profound questions about the nature of self and autonomy: How free is our will? Is conscious choice just an illusion? "Your decisions are strongly prepared by brain activity. By the time consciousness kicks in, most of the work has already been done," said study co-author John-Dylan Haynes, a Max Planck Institute neuroscientist. Haynes updated a classic experiment by the late Benjamin Libet, who showed that a brain region involved in coordinating motor activity fired a fraction of a second before test subjects chose to push a button. Later studies supported Libet's theory that subconscious activity preceded and determined conscious choice -- but none found such a vast gap between a decision and the experience of making it as Haynes' study has. In the seven seconds before Haynes' test subjects chose to push a button, activity shifted in their frontopolar cortex, a brain region associated with high-level planning. Soon afterwards, activity moved to the parietal cortex, a region of sensory integration. Haynes' team monitored these shifting neural patterns using a functional MRI machine. Taken together, the patterns consistently predicted whether test subjects eventually pushed a button with their left or right hand -- a choice that, to them, felt like the outcome of conscious deliberation. For those accustomed to thinking of themselves as having free will, the implications are far more unsettling than learning about the physiological basis
anonymous

Psychopaths Have Distinct Brain Structure, Study Finds - 0 views

www.huffingtonpost.com/...rain-structure-_n_1497753.html

Psychology psychopaths brain structure biological

shared by anonymous on 09 May 12 - No Cached
  • anonymous on 09 May 12
     
    "Scientists who scanned the brains of men convicted of murder, rape and violent assaults have found the strongest evidence yet that psychopaths have structural abnormalities in their brains. The researchers, based at King's College London's Institute of Psychiatry, said the differences in psychopaths' brains mark them out even from other violent criminals with anti-social personality disorders (ASPD), and from healthy non-offenders. Nigel Blackwood, who led the study, said the ability to use brain scans to identify and diagnose this sub-group of violent criminals has important implications for treatment. The study showed that psychopaths , who are characterised by a lack of empathy, had less grey matter in the areas of the brain important for understanding other peoples' emotions. While cognitive and behavourial treatments may benefit people with anti-social personality disorders, the same approach may not work for psychopaths with brain damage, Blackwood said. "To get a clear idea of which treatments are working, you've got to clearly define what people are like going into the treatment programmes," he said in a telephone interview. Essi Viding a professor in the psychology and language sciences department of University College London, who was not involved in Blackwood's study, said it provided "weighty new evidence" about the importance of distinguishing psychopathic from non-psychopathic people rather than grouping them together. The findings also have implications for the justice system, because linking psychopathy to brain function raises the prospect of arguing a defence of insanity. Interest in what goes on inside the heads of violent criminals has been sharpened by the trial of Anders Behring Breivik, the Norwegian who massacred 77 people last July. Two court-appointed psychiatric teams who examined Breivik came to opposite conclusions about his mental health. The killer himself has railed being called insane."
anonymous

Matisse was a neuroscientist - USATODAY.com - 0 views

www.usatoday.com/...1

art Matisse neuroscience brain

shared by anonymous on 30 May 12 - No Cached
  • anonymous on 30 May 12
     
    "Modern art is an explosion of colors, smooth lines, flat portraits - and it turns out, neuroscience. It also once triggered some strong psychology. A pot of paint has been flung in the face of the public," the criticCamille Mauclair, said in outrage over a Paris showing of the artist Henri Matisse's vibrant works. His condemnation today seems more colorful than the paintings themselves, many now hanging in museums all over the world. What was really going on at the turn of the last century to excite such controversy? Brain researchers have increasingly turned their eyes on artists, in an effort to enrich our understanding of how we see art and of the time when paintings could shake society. "When we look at a picture and feel rewarded, we know something is occurring in our brain," says neuroscientist and artist Bevil Conway of Wellesley (Mass.) College. Conway and other neuroscientists, such as Nobel Prize winner Eric Kandel, author of the just-released The Age of Insight: The Quest to Understand the Unconscious in Art, Mind, and Brain, represent the latest voices among brain researchers taking a look at art. "By closely examining artists' paintings and practices, we can discover hints to how the brain works, and achieve insight into the discoveries and inventions of artists and their impact on culture," Conway writes in the current Annals of the New York Academy of Sciences, looking at color in the paintings of Matisse , Paul Cezanne and Claude Monet . Public domain Montross Gallery 1915 exhibition catalogue image of 'Gold Fish' by Henri Matisse. Color depends on more than the wavelength of light reaching your eye. Five decades ago, brain researchers thought only the cone-shaped "photoreceptor" cells in the retina determined what colors we see. But we now know that starting from the retina and proceeding through at least five brain regions, our perception of color is shaped not so much by the redness of the paint used to hang an apple from a tree, but
anonymous

Violent video games alter brain function in young men | ScienceBlog.com - 1 views

scienceblog.com/...er-brain-function-in-young-men

Psychology brain cognitive fMRI violence video games

shared by anonymous on 30 Nov 11 - Cached
  • anonymous on 30 Nov 11
     
    "A functional magnetic resonance imaging (fMRI) analysis of long-term effects of violent video game play on the brain has found changes in brain regions associated with cognitive function and emotional control in young adult men after one week of game play. The results of the study were presented today at the annual meeting of the Radiological Society of North America (RSNA). The controversy over whether or not violent video games are potentially harmful to users has raged for many years, making it as far as the Supreme Court in 2010. But there has been little scientific evidence demonstrating that the games have a prolonged negative neurological effect. "For the first time, we have found that a sample of randomly assigned young adults showed less activation in certain frontal brain regions following a week of playing violent video games at home," said Yang Wang, M.D., assistant research professor in the Department of Radiology and Imaging Sciences at Indiana University School of Medicine in Indianapolis. "These brain regions are important for controlling emotion and aggressive behavior." For the study, 22 healthy adult males, age 18 to 29, with low past exposure to violent video games were randomly assigned to two groups of 11. Members of the first group were instructed to play a shooting video game for 10 hours at home for one week and refrain from playing the following week. The second group did not play a violent video game at all during the two-week period. Each of the 22 men underwent fMRI at the beginning of the study, with follow-up exams at one and two weeks. During fMRI, the participants completed an emotional interference task, pressing buttons according to the color of visually presented words. Words indicating violent actions were interspersed among nonviolent action words. In addition, the participants completed a cognitive inhibition counting task. The results showed that after one week of violent game play, the video game group members s
anonymous

Decoding the Brain's Cacophony - Readers' Comments - NYTimes.com - 0 views

community.nytimes.com/...phony-of-competing-voices.html

Gazzaniga ethics animal research

shared by anonymous on 01 Nov 11 - No Cached
  • anonymous on 01 Nov 11
     
    "These points are extremely well-taken, particularly his last comments about the use of brain scans as indications of the brain's functions. I'm delighted to see a scientist of Gazzaniga's stature provide these cautions. Others have also worried about the over-interpretations of brain scans, a question I raised in my Psychology Today blog posting "MRI's: The new phrenology?" How many times have you heard the expression "the brain lights up"? The brain does not behave in technicolor; it's just that the colors make for a better story when researchers are trying to sell their results to the public and funding agencies. It's important that we not over-interpret the pretty colors that brain scans provide but instead recognize that everyone's brain is a little bit different and that activity in a region doesn't signify exactly what a person is thinking or feeling. I hope that we will keep these cautions in mind even as brain scans become more and more commonplace. "
anonymous

TIME REPORTS: UNDERSTANDING PSYCHOLOGY - 0 views

www.time.com/...unit3_article1.html

psychology research consciousness Damasio

shared by anonymous on 01 Jun 11 - No Cached
  • anonymous on 01 Jun 11
     
    "As neurologists, psychologists and biologists have zeroed in more and more precisely on the physical causes of mental disorders, they have found themselves addressing a much deeper mystery, a set of interrelated conundrums probably as old as humanity: What, precisely, is the mind, the elusive entity where intelligence, decision making, perception, awareness and sense of self reside? Where is it located? How does it work? Does it arise from purely physical processes-pulses of electricity zapping from brain cell to brain cell, helped along their way by myriad complex chemicals? Or is it something beyond the merely physical-something ethereal that might be close to the spiritual concept of the soul? Great thinkers have had no shortage of ideas on the subject. Plato was convinced that the mind must be located inside the head, because the head is shaped more or less like a sphere, his idea of the highest geometrical form. Aristotle insisted that the mind was in the heart. His reasoning: warmth implies vitality; the blood is warm; the heart pumps the blood. By the Middle Ages, though, pretty much everyone agreed that the mind arose from the brain -- but still had no clear idea how it arose. Finally, in the 17th century, the French philosopher Rena Descartes declared that the mind, while it might live in the brain, was a nonmaterial thing, entirely separate from the physical tissues found inside the head. Furthermore, said Descartes in one of history's most memorable sound bites, "Cogito, ergo sum" (I think, therefore I am). His point: consciousness is the only sure evidence that we actually exist. Until just a few years ago, unraveling the relationship of mind and brain was beyond the realm of observation and experimentation. But science has finally begun to catch up with philosophy. Using sensitive electrodes inserted deep into the gray matter of test animals, researchers have watched vision as it percolates inward from the eye's retina to the inner brain. Powerful te
anonymous

Triggering a memory: scientists learn how to reboot recollections - 0 views

theconversation.edu.au/w-to-reboot-recollections-6013

memory reboot biological cognitive brain

shared by anonymous on 30 May 12 - No Cached
  • anonymous on 30 May 12
     
    "Scientists say they have found a way to activate the brain cells that trigger particular memories, according to research published today in the journal Science. Researchers at MIT employed optogenetics, a branch of science that uses light to stimulate molecules, to show that memories reside in specific brain cells, and that activating a tiny fraction of brain cells can revive the entire memory. The study was performed on mice, but the researchers say it is a powerful demonstration that memories are tangible and are physically stored in a particular part of the brain. "We demonstrate that behaviour based on high-level cognition, such as the expression of a specific memory, can be generated in a mammal by highly specific physical activation of a specific small subpopulation of brain cells, in this case by light," said Susumu Tonegawa, the Picower Professor of Biology and Neuroscience at MIT and lead author of the study. In the early 1900s, the Canadian neurosurgeon Wilder Penfield found that when he electrically stimulated certain neurons in the hippocampus area of the brain, his patients vividly recalled whole events. Until now, however, scientists have been unable to prove that the direct reactivation of the hippocampus was enough to cause memory recall."
anonymous

The Science of Bragging and Boasting - WSJ.com - 0 views

online.wsj.com/...4451104577390392329291890.html

research Psychology fMRI biological cognitive language Bragging

shared by anonymous on 17 May 12 - No Cached
  • anonymous on 17 May 12
     
    "Talking about ourselves-whether in a personal conversation or through social media sites like Facebook and Twitter-triggers the same sensation of pleasure in the brain as food or money, researchers reported Monday. About 40% of everyday speech is devoted to telling others about what we feel or think. Now, through five brain imaging and behavioral experiments, Harvard University neuroscientists have uncovered the reason: It feels so rewarding, at the level of brain cells and synapses, that we can't help sharing our thoughts. Bragging gives the same sensation of pleasure as food and money. The same areas of the brain are activated, scans show. "Self-disclosure is extra rewarding," said Harvard neuroscientist Diana Tamir, who conducted the experiments with Harvard colleague Jason Mitchell. Their findings were published in the Proceedings of the National Academy of Sciences. "People were even willing to forgo money in order to talk about themselves," Ms. Tamir said. To assess people's inclination for what the researchers call "self disclosure," they conducted laboratory tests to see whether people placed an unusually high value on the opportunity to share their thoughts and feelings. They also monitored brain activity among some volunteers to see what parts of the brain were most excited when people talked about themselves as opposed to other people. The dozens of volunteers were mostly Americans who lived near the university. In several tests, they offered the volunteers money if they chose to answer questions about other people, such as President Obama, rather than about themselves, paying out on a sliding scale of up to four cents. Questions involved casual matters such as whether someone enjoyed snowboarding or liked mushrooms on a pizza. Other queries involved personality traits, such as intelligence, curiosity or aggression."
anonymous

What the myth of mirror neurons gets wrong about the human brain. - Slate Magazine - 0 views

www.slate.com/...cells_that_read_minds.html

Psychology biological mirror neurons myth Iacoboni

shared by anonymous on 10 Jan 12 - No Cached
  • anonymous on 10 Jan 12
     
    "A few months ago, a construction worker named Wesley Autrey leapt in front of a moving subway train in New York City to save a stranger who had just collapsed onto the tracks. Five days later, the New York Times speculated that this act of apparent altruism-"I just saw someone who needed help," Autrey said-might be explained by a bunch of cells thought to exist in the human brain, called mirror neurons. The idea that these particular cells might underlie a fundamental human impulse reflects the emergence of a new scientific myth. Like a traditional myth, it captures intuitions about the human condition through vivid metaphors. This isn't the first time that popular science has merged with the popular imagination. In the 1960s, for example, pioneering work on "split-brain" patients revealed real functional differences between the two cerebral hemispheres-an idea that quickly became a metaphor for ancient intuitions about reason and passion. Advertisement Mirror neurons have become the "left brain/right brain" of the 21st century. The idea that these cells could make a hero out of Wesley Autrey began with a genuine and important discovery about the brains of macaque monkeys. In the late 1980s and early 1990s, neuroscientists found a population of cells that fired whenever a monkey prepared to act but also when it watched another animal act. They called these cells "mirror neurons." It didn't take long for scientists and science writers to speculate that mirror neurons might serve as the physiological basis for a wide range of social behaviors, from altruism to art appreciation. Headlines like "Cells That Read Minds" or "How Brain's 'Mirrors' Aid Our Social Understanding" tapped into our intuitions about connectedness. Maybe this cell, with its mellifluous name, gives us our special capacity to understand one another-to care, to learn, and to communicate. Could mirror neurons be responsible for human language, culture, empathy, and morality? "
anonymous

India's use of brain scans in courts dismays critics - The New York Times - 0 views

www.nytimes.com/...5iht-15brainscan.16148673.html

india brain scan biological EEG crime courts ethics

shared by anonymous on 02 Oct 11 - Cached
  • anonymous on 02 Oct 11
     
    "The new technology is, to its critics, Orwellian. Others view it as a silver bullet against terrorism that could render waterboarding and other harsh interrogation methods obsolete. Some scientists predict the end of lying as we know it. Now, well before any consensus on the technology's readiness, India has become the first country to convict someone of a crime relying on evidence from this controversial machine: a brain scanner that produces images of the human mind in action and is said to reveal signs that a suspect remembers details of the crime in question. For years, scientists have peered into the brain and sought to identify deception. They have shot infrared beams through liars' heads, placed them in giant magnetic resonance imaging machines and used scanners to track their eyeballs. Since the Sept. 11 attacks, the United States has plowed money into brain-based lie detection in the hope of producing more fruitful counterterrorism investigations. The technologies, generally regarded as promising but unproved, have yet to be widely accepted as evidence - except in India, where in recent years judges have begun to admit brain scans. But it was only in June, in a murder case in Pune, in Maharashtra State, that a judge explicitly cited a scan as proof that the suspect's brain held "experiential knowledge" about the crime that only the killer could possess, sentencing her to life in prison."
anonymous

Hearing Bilingual - How Babies Tell Languages Apart - NYTimes.com - 0 views

www.nytimes.com/...11klass.html

human science psychology science bilingual babies language language acquisition

shared by anonymous on 11 Oct 11 - Cached
  • anonymous on 11 Oct 11
     
    Once, experts feared that young children exposed to more than one language would suffer "language confusion," which might delay their speech development. Today, parents often are urged to capitalize on that early knack for acquiring language. Upscale schools market themselves with promises of deep immersion in Spanish - or Mandarin - for everyone, starting in kindergarten or even before. Yet while many parents recognize the utility of a second language, families bringing up children in non-English-speaking households, or trying to juggle two languages at home, are often desperate for information. And while the study of bilingual development has refuted those early fears about confusion and delay, there aren't many research-based guidelines about the very early years and the best strategies for producing a happily bilingual child. But there is more and more research to draw on, reaching back to infancy and even to the womb. As the relatively new science of bilingualism pushes back to the origins of speech and language, scientists are teasing out the earliest differences between brains exposed to one language and brains exposed to two. Researchers have found ways to analyze infant behavior - where babies turn their gazes, how long they pay attention - to help figure out infant perceptions of sounds and words and languages, of what is familiar and what is unfamiliar to them. Now, analyzing the neurologic activity of babies' brains as they hear language, and then comparing those early responses with the words that those children learn as they get older, is helping explain not just how the early brain listens to language, but how listening shapes the early brain. Recently, researchers at the University of Washington used measures of electrical brain responses to compare so-called monolingual infants, from homes in which one language was spoken, to bilingual infants exposed to two languages. Of course, since the subjects of the study, adorable in their
anonymous

Cells That Read Minds - New York Times - 0 views

www.nytimes.com/...10mirr.html

Psychology biological fMRI brain mirror neurons emotion

shared by anonymous on 16 Dec 11 - Cached
  • anonymous on 16 Dec 11
     
    "On a hot summer day 15 years ago in Parma, Italy, a monkey sat in a special laboratory chair waiting for researchers to return from lunch. Thin wires had been implanted in the region of its brain involved in planning and carrying out movements. Every time the monkey grasped and moved an object, some cells in that brain region would fire, and a monitor would register a sound: brrrrrip, brrrrrip, brrrrrip. A graduate student entered the lab with an ice cream cone in his hand. The monkey stared at him. Then, something amazing happened: when the student raised the cone to his lips, the monitor sounded - brrrrrip, brrrrrip, brrrrrip - even though the monkey had not moved but had simply observed the student grasping the cone and moving it to his mouth. The researchers, led by Giacomo Rizzolatti, a neuroscientist at the University of Parma, had earlier noticed the same strange phenomenon with peanuts. The same brain cells fired when the monkey watched humans or other monkeys bring peanuts to their mouths as when the monkey itself brought a peanut to its mouth. Later, the scientists found cells that fired when the monkey broke open a peanut or heard someone break a peanut. The same thing happened with bananas, raisins and all kinds of other objects. "It took us several years to believe what we were seeing," Dr. Rizzolatti said in a recent interview. The monkey brain contains a special class of cells, called mirror neurons, that fire when the animal sees or hears an action and when the animal carries out the same action on its own. But if the findings, published in 1996, surprised most scientists, recent research has left them flabbergasted. Humans, it turns out, have mirror neurons that are far smarter, more flexible and more highly evolved than any of those found in monkeys, a fact that scientists say reflects the evolution of humans' sophisticated social abilities. The human brain has multiple mirror neuron systems that specialize in carrying out and understanding
anonymous

Jeff Wise: How Panic Doomed Air France Flight 447 - 0 views

www.huffingtonpost.com/...doomed-an-airli_b_1135004.html

Psychology brain amygdala flight emotion frontal cortex airplane

shared by anonymous on 10 Dec 11 - No Cached
  • Air France 447 was operating with three pilots: a captain, who was the most senior crewmember, and two co-pilots. At any given time, two of them were required to be in the cockpit, seated at the pair of seats equipped with controls. Four hours into the flight, the captain went to take a nap, leaving the flying of the plane to the more junior of the co-pilots, Pierre-Cédric Bonin. Sitting beside him was the other co-pilot, David Robert. The crisis began mere minutes later, when the plane flew into clouds roiling up from a large tropical thunderstorm, and the moisture condensed and froze on the plane's external air-speed sensors. In response, the autopilot disengaged. For a few minutes, the pilots had no way of knowing how fast they were going, and had to fly the plane by hand -- something, crucially, that Bonin had no experience doing at that altitude. The proper thing for Bonin to have done would have been to keep the plane flying level and to have Robert refer to a relevant checklist to sort out their airspeed problems. Instead, neither man consulted a checklist and Bonin pulled back on the controls, causing the airplane to climb and lose airspeed. Soon, he had put the plane into an aerodynamic stall, which means that the wings had lost their ability to generate lift. Even with engines at full power, the Airbus began to plummet toward the ocean. As the severity of their predicament became more and more apparent, the pilots were unable to reason through the cause of their situation. Despite numerous boldfaced clues to the nature of their problem -- including a stall-warning alarm that blared 75 times -- they were simply baffled. As Robert put it, after the captain had hurried back to the cockpit, "We've totally lost control of the plane. We don't understand at all... We've tried everything." Psychologists who study performance under pressure are well aware of the phenomenon of "brain freeze," the inability of the human mind to engage in complex reasoning in the grip of intense fear. It appears that arousal of the amygdala causes a partial shutdown of the frontal cortex, so that it becomes possible to engage only in instinctive or well-learned behaviour. In the case of Air France 447, it appears that Bonin, in his panic, completely forgot one of the most basic tenets of flight training: when at risk of a stall, never pull back on the controls. Instead, he held back the controls in a kind of panicked death-grip all the way down to the ocean. Ironically, if he had simply taken his hands away, the plane would have regained speed and started flying again.
  • Psychologists who study performance under pressure are well aware of the phenomenon of "brain freeze," the inability of the human mind to engage in complex reasoning in the grip of intense fear. It appears that arousal of the amygdala causes a partial shutdown of the frontal cortex, so that it becomes possible to engage only in instinctive or well-learned behaviour.
  • Psychologists who study performance under pressure are well aware of the phenomenon of "brain freeze," the inability of the human mind to engage in complex reasoning in the grip of intense fear. It appears that arousal of the amygdala causes a partial shutdown of the frontal cortex, so that it becomes possible to engage only in instinctive or well-learned behaviour.
  • ...4 more annotations...
  • Psychologists who study performance under pressure are well aware of the phenomenon of "brain freeze," the inability of the human mind to engage in complex reasoning in the grip of intense fear. It appears that arousal of the amygdala causes a partial shutdown of the frontal cortex, so that it becomes possible to engage only in instinctive or well-learned behaviour.
  • Psychologists who study performance under pressure are well aware of the phenomenon of "brain freeze," the inability of the human mind to engage in complex reasoning in the grip of intense fear. It appears that arousal of the amygdala causes a partial shutdown of the frontal cortex, so that it becomes possible to engage only in instinctive or well-learned behaviour.
  • Psychologists who study performance under pressure are well aware of the phenomenon of "brain freeze," the inability of the human mind to engage in complex reasoning in the grip of intense fear. It appears that arousal of the amygdala causes a partial shutdown of the frontal cortex, so that it becomes possible to engage only in instinctive or well-learned behaviour.
  • Psychologists who study performance under pressure are well aware of the phenomenon of "brain freeze," the inability of the human mind to engage in complex reasoning in the grip of intense fear. It appears that arousal of the amygdala causes a partial shutdown of the frontal cortex, so that it becomes possible to engage only in instinctive or well-learned behaviour.
  • anonymous on 10 Dec 11
     
    Air France 447 was operating with three pilots: a captain, who was the most senior crewmember, and two co-pilots. At any given time, two of them were required to be in the cockpit, seated at the pair of seats equipped with controls. Four hours into the flight, the captain went to take a nap, leaving the flying of the plane to the more junior of the co-pilots, Pierre-Cédric Bonin. Sitting beside him was the other co-pilot, David Robert. The crisis began mere minutes later, when the plane flew into clouds roiling up from a large tropical thunderstorm, and the moisture condensed and froze on the plane's external air-speed sensors. In response, the autopilot disengaged. For a few minutes, the pilots had no way of knowing how fast they were going, and had to fly the plane by hand -- something, crucially, that Bonin had no experience doing at that altitude. The proper thing for Bonin to have done would have been to keep the plane flying level and to have Robert refer to a relevant checklist to sort out their airspeed problems. Instead, neither man consulted a checklist and Bonin pulled back on the controls, causing the airplane to climb and lose airspeed. Soon, he had put the plane into an aerodynamic stall, which means that the wings had lost their ability to generate lift. Even with engines at full power, the Airbus began to plummet toward the ocean. As the severity of their predicament became more and more apparent, the pilots were unable to reason through the cause of their situation. Despite numerous boldfaced clues to the nature of their problem -- including a stall-warning alarm that blared 75 times -- they were simply baffled. As Robert put it, after the captain had hurried back to the cockpit, "We've totally lost control of the plane. We don't understand at all... We've tried everything." Psychologists who study performance under pressure are well aware of the phenomenon of "brain freeze," the inability of the human mind to engage in complex reasoning in the
anonymous

For the Brain, Remembering Is Like Reliving - NYTimes.com - 0 views

www.nytimes.com/...05brain.html

brain nytimes memory cognition fMRI

shared by anonymous on 31 Jan 12 - Cached
  • anonymous on 31 Jan 12
     
    "Scientists have for the first time recorded individual brain cells in the act of summoning a spontaneous memory, revealing not only where a remembered experience is registered but also, in part, how the brain is able to recreate it. The recordings, taken from the brains of epilepsy patients being prepared for surgery, demonstrate that these spontaneous memories reside in some of the same neurons that fired most furiously when the recalled event had been experienced. Researchers had long theorized as much but until now had only indirect evidence. Experts said the study had all but closed the case: For the brain, remembering is a lot like doing (at least in the short term, as the research says nothing about more distant memories). The experiment, being reported Friday in the journal Science, is likely to open a new avenue in the investigation of Alzheimer's disease and other forms of dementia, some experts said, as well as help explain how some memories seemingly come out of nowhere. The researchers were even able to identify specific memories in subjects a second or two before the people themselves reported having them. "This is what I would call a foundational finding," said Michael J. Kahana, a professor of psychology at the University of Pennsylvania, who was not involved in the research. "I cannot think of any recent study that's comparable. "
anonymous

Art and the Limits of Neuroscience - NYTimes.com - 0 views

opinionator.blogs.nytimes.com/...and-the-limits-of-neuroscience

Psychology brain cognitive fMRI art

shared by anonymous on 05 Dec 11 - Cached
  • anonymous on 05 Dec 11
     
    "What is art? What does art reveal about human nature? The trend these days is to approach such questions in the key of neuroscience. "Neuroaesthetics" is a term that has been coined to refer to the project of studying art using the methods of neuroscience. It would be fair to say that neuroaesthetics has become a hot field. It is not unusual for leading scientists and distinguished theorists of art to collaborate on papers that find their way into top scientific journals. Semir Zeki, a neuroscientist at University College London, likes to say that art is governed by the laws of the brain. It is brains, he says, that see art and it is brains that make art. Champions of the new brain-based approach to art sometimes think of themselves as fighting a battle with scholars in the humanities who may lack the courage (in the words of the art historian John Onians) to acknowledge the ways in which biology constrains cultural activity. Strikingly, it hasn't been much of a battle. Students of culture, like so many of us, seem all too glad to join in the general enthusiasm for neural approaches to just about everything."
anonymous

Hits and the Teenage Brain - Sound Opinions Footnotes - 0 views

www.soundopinions.org/...shownotes.html

sound fMRI prediction music emotion cognitive

shared by anonymous on 12 Feb 12 - No Cached
  • anonymous on 12 Feb 12
     
    "What if you could predict a hit? It's a music industry dream (or nightmare depending on how you look at it.) New research from Emory University suggests that the answers might lie in our brains. Dr. Gregory Berns and his team have discovered that teens have tell-tale brain responses when listening to hit songs, and that could help predict a song's commercial success. He explains to Jim and Greg that the discovery was an accident. After conducting MRI studies on teens listening to MySpace music, he noted that one of the tracks, One Republic's "Apologize" became an American Idol hit years later. Strong activity in two brain regions could predict hits about 1/3 of the time. Weak activity was even better at predicting non-hits. And brain responses in those regions were better predictors of song success than whether the participants said they liked or disliked any given song. Jim and Greg aren't teens, but wonder if their work could be made easier with MRI technology. "
anonymous

'The Power Of Music' To Affect The Brain : NPR - 0 views

www.npr.org/...r-of-music-to-affect-the-brain

brain music biological fMRI

shared by anonymous on 03 Jun 11 - No Cached
  • anonymous on 03 Jun 11
     
    "Science all but confirms that humans are hard-wired to respond to music. Studies also suggest that someday music may even help patients heal from Parkinson's disease or a stroke. In The Power of Music, Elena Mannes explores how music affects different groups of people and how it could play a role in health care. Mannes tracked the human relationship with music over the course of a life span. She tells NPR's Neal Conan that studies show that infants prefer "consonant intervals, the smooth-sounding ones that sound nice to our Western ears in a chord, as opposed to a jarring combination of notes." In fact, Mannes says the cries of babies just a few weeks old were found to contain some of the basic intervals common to Western music. She also says scientists have found that music stimulates more parts of the brain than any other human function. That's why she sees so much potential in music's power to change the brain and affect the way it works. Mannes says music also has the potential to help people with neurological deficits. "A stroke patient who has lost verbal function - those verbal functions may be stimulated by music," she says. One technique, known as melodic intonation therapy, uses music to coax portions of the brain into taking over for those that are damaged. In some cases, it can help patients regain their ability to speak. And because of how we associate music with memories, Mannes says such techniques could also be helpful for Alzheimer's patients. Less recently, archaeologists have discovered ancient flutes - one of which is presumed to be the oldest musical instrument in the world - that play a scale similar to the modern Western scale. "And remarkably," Mannes says, "this flute, when played, produces these amazingly pure tones." It's a significant discovery because it adds to the argument that musical ability and interest were present early in human history."
anonymous

How Friends Ruin Memory: The Social Conformity Effect | Wired Science | Wired.com - 0 views

www.wired.com/...y-the-social-conformity-effect

memories cognition CLOA conformity SLOA

shared by anonymous on 25 Apr 12 - No Cached
  • anonymous on 25 Apr 12
     
    "Humans are storytelling machines. We don't passively perceive the world - we tell stories about it, translating the helter-skelter of events into tidy narratives. This is often a helpful habit, helping us make sense of mistakes, consider counterfactuals and extract a sense of meaning from the randomness of life. But our love of stories comes with a serious side-effect: like all good narrators, we tend to forsake the facts when they interfere with the plot. We're so addicted to the anecdote that we let the truth slip away until, eventually, those stories we tell again and again become exercises in pure fiction. Just the other day I learned that one of my cherished childhood tales - the time my older brother put hot peppers in my Chinese food while I was in the bathroom, thus scorching my young tongue - actually happened to my little sister. I'd stolen her trauma. The reason we're such consummate bullshitters is simple: we bullshit for each other. We tweak our stories so that they become better stories. We bend the facts so that the facts appeal to the group. Because we are social animals, our memory of the past is constantly being revised to fit social pressures. The power of this phenomenon was demonstrated in a new Science paper by Micah Edelson, Tali Sharot, Raymond Dolan and Yadin Dudai. The neuroscientists were interested in how the opinion of other people can alter our personal memories, even over a relatively short period of time. The experiment itself was straightforward. A few dozen people watched an eyewitness style documentary about a police arrest in groups of five. Three days later, the subjects returned to the lab and completed a memory test about the documentary. Four days after that, they were brought back once again and asked a variety of questions about the short movie while inside a brain scanner. This time, though, the subjects were given a "lifeline": they were shown the answers given by other people in their film-viewing g
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