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Dorota .

Mind - How Nonsense Sharpens the Intellect - NYTimes.com - 0 views

www.nytimes.com/...06mind.html

psychology science learning behavior

shared by Dorota . on 10 Oct 09 - Snapshot
  • Dorota .
    Dorota . on 10 Oct 09
     
    "Researchers have long known that people cling to their personal biases more tightly when feeling threatened. After thinking about their own inevitable death, they become more patriotic, more religious and less tolerant of outsiders, studies find. When insulted, they profess more loyalty to friends - and when told they've done poorly on a trivia test, they even identify more strongly with their school's winning teams. #implicit learning: k. gained without awareness #rain-imaging studies of people evaluating anomalies, or working out unsettling dilemmas, show that activity in an area called the anterior cingulate cortex spikes significantly. The more activation is recorded, the greater the motivation or ability to seek and correct errors in the real world #disorientation begets creative thinking. "
Tero Toivanen

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 04 Apr 09 - Snapshot
  • 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.
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