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Tero Toivanen

The five ages of the brain: Adolescence - life - 04 April 2009 - New Scientist - 0 views

www.newscientist.com/...-of-the-brain-adolescence.html

Adolescence brain scanning grey-matter neural connections prefrontal cortex white matter

shared by Tero Toivanen on 21 Jun 09 - Cached
  • Jay Giedd at the National Institute of Mental Health in Bethesda, Maryland, and his colleagues have followed the progress of nearly 400 children, scanning many of them every two years as they grew up. They found that adolescence brings waves of grey-matter pruning, with teens losing about 1 per cent of their grey matter every year until their early 20s (Nature Neuroscience, vol 2, p 861).
  • This cerebral pruning trims unused neural connections that were overproduced in the childhood growth spurt, starting with the more basic sensory and motor areas.
  • Among the last to mature is the dorsolateral prefrontal cortex at the very front of the frontal lobe. This area is involved in control of impulses, judgement and decision-making, which might explain some of the less-than-stellar decisions made by your average teen. This area also acts to control and process emotional information sent from the amygdala - the fight or flight centre of gut reactions - which may account for the mercurial tempers of adolescents.
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  • These changes have both benefits and pitfalls. At this stage of life the brain is still childishly flexible, so we are still sponges for learning. On the other hand, the lack of impulse control may lead to risky behaviours such as drug and alcohol abuse, smoking and unprotected sex.
  • As grey matter is lost, though, the brain gains white matter
  • Substance abuse is particularly concerning, as brain imaging studies suggest that the motivation and reward circuitry in teen brains makes them almost hard-wired for addiction.
  • since drug abuse and stressful events - even a broken heart - have been linked to mood disorders later in life, this is the time when both are best avoided.
  • Making the most of this time is a matter of throwing all that teen energy into learning and new experiences - whether that means hitting the books, learning to express themselves through music or art, or exploring life by travelling the world.
  • Tero Toivanen on 21 Jun 09
     
    Jay Giedd at the National Institute of Mental Health in Bethesda, Maryland, and his colleagues have followed the progress of nearly 400 children, scanning many of them every two years as they grew up. They found that adolescence brings waves of grey-matter pruning, with teens losing about 1 per cent of their grey matter every year until their early 20s (Nature Neuroscience, vol 2, p 861).
Tero Toivanen

Brain scan replaces job interview in 5 years - 0 views

www.nextnature.net/?p=3198

brain scan replaces job interview

shared by Tero Toivanen on 23 May 09 - Cached
  • Tero Toivanen on 23 May 09
     
    Brain scan replaces job interview in 5 years
Tero Toivanen

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.
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  • 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.
Tero Toivanen

Your Brain Scan Looks Different on Mac and PC - 2 views

gizmodo.com/...-looks-different-on-mac-and-pc

brain research neuroscience software Mac PC

shared by Tero Toivanen on 19 Jun 12 - No Cached
  • Tero Toivanen on 19 Jun 12
     
    "Science and medicine are supposedly based on rigor-a rigor where theories are only correct if you can replicate results. It turns out, though, that the software used to analyze medical images of your brain gives wildly different answers if it's run on Mac or PC."
Ruth Howard

BBC News - Brain scans 'can distinguish memories', say scientists - 0 views

news.bbc.co.uk/...8556422.stm

brainscan brain bbc news neuroscience science research learning memory neurons synapse

shared by Ruth Howard on 12 Mar 10 - Cached
  • Ruth Howard on 12 Mar 10
     
    Scientists say they have been able to tell which past event a person is recalling using a brain scan. The University College London researchers showed people film clips and were able to predict which ones they were subsequently thinking about.
Tero Toivanen

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.
David McGavock

The Top 10 Challenges for Brain Science in 2013 - Forbes - 0 views

www.forbes.com/...nges-for-brain-science-in-2013

shared by David McGavock on 31 Dec 12 - No Cached
  • 1. Figure out what fMRI can truly tell us about our brains. 
  • There’s little question fMRI is valuable, but too many disparate forces are out there spinning brain scans in too many ways. Perhaps one solution, or start of a solution, is a summit hosted by a credible, well-respected institute or organization to gather the best of the best minds in the field to establish a game plan moving forward.
  • 2. Determine what role, if any, neuroscience should play in the courtroom.
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  • . Continue crafting a constructive consilience between disciplines.
  • Neuroscience, behavioral science, evolutionary biology, economics, engineering, and even the humanities have all come to the proverbial table in the last few years
  • Produce more applicable knowledge and less curious meanderings.
  • 7. Join forces with more public health sources to engender broader awareness of critical issues. 
  • Try to fight the urge to spin off more headline pablum like “Brain Porn.”
  • How about we spend more time trying to solve the problems and less time concocting clever catch phrases?
  • Shine the light on how far the forces of marketing have exploited brain science advances (this is a genuine public service).
  • I am an unwavering advocate of making sure people understand how the forces of marketing are using the field to sell more products.
  • Again, what is truly “solid applicable knowledge” is frequently debatable (see #1 above), but every year the field–and by that I mean the interdisciplinary field (#3)–has more to offer the public.
  • 8. Put the brakes on “building a brain” — we already have plenty of them.
  • in my opinion we have enough to do with respect to figuring our how our organic brain works without spending massive resources on trying to recreate one.
  • 9. Turn the corner from “what’s wrong with our brains” to “what we can really do about it.” 
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