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April 03, 2013
260 notes
oldmanyellsatcloud: neuromorphogenesis: Autism: inside the brain bank World Autism Day is on 2 April and new funding is in place to research the causes of the condition. But the programme now desperately needs tissue donors.  A severe shortage of brains is hampering potentially groundbreaking research into the causes and nature of autism. Although funding from the charity Autistica is in place for the research, it is extremely difficult to get people to donate their brains after death. And while many are happy to sign up to the national organ donation registry, the separate process of committing to brain donation has encountered resistance. The UK Brain Bank for Autism has appealed for brains for four years, but so far only 22 have been donated, slowing down the pace of research at a time when there is growing interest in a condition affecting as many as one in 100 people. Read More

oldmanyellsatcloud:

neuromorphogenesis:

Autism: inside the brain bank

World Autism Day is on 2 April and new funding is in place to research the causes of the condition. But the programme now desperately needs tissue donors.

 A severe shortage of brains is hampering potentially groundbreaking research into the causes and nature of autism. Although funding from the charity Autistica is in place for the research, it is extremely difficult to get people to donate their brains after death. And while many are happy to sign up to the national organ donation registry, the separate process of committing to brain donation has encountered resistance. The UK Brain Bank for Autism has appealed for brains for four years, but so far only 22 have been donated, slowing down the pace of research at a time when there is growing interest in a condition affecting as many as one in 100 people.

Read More

Tags: biology health autism neurology neuroscience brain quibbles

Link
March 28, 2013
36 notes
Scientists Inject Human Brain Cells Into Mice, Make Them Smarter | Singularity Hub

In an experiment that might seem like something only a mad scientist would conjure, researchers injected human brain cells into the brains of mice to see how it would affect the way the mice thought. It did: the mice got smarter. But the cognition boosting cells weren’t neurons, they were the red-headed step-children of neuroscience called astrocytes. The study turns on its head the role historically attributed to astrocytes of simply supporting the all important function of neurons without playing a significant role in how we learn and think. It may very well be that humans owe much of their unique cognitive capabilities to astrocytes.

(Source: nothingman)

Tags: quibbles neurology Neuroscience astrocytes neurons SCIENCE!

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January 12, 2013
257 notes
oldmanyellsatcloud: neurosciencestuff: Researchers Find Causality in the Eye of the Beholder We rely on our visual system more heavily than previously thought in determining the causality of events. A team of researchers has shown that, in making judgments about causality, we don’t always need to use cognitive reasoning. In some cases, our visual brain—the brain areas that process what the eyes sense—can make these judgments rapidly and automatically. The study appears in the latest issue of the journal Current Biology. “Our study reveals that causality can be computed at an early level in the visual system,” said Martin Rolfs, who conducted much of the research as a post-doctoral fellow in NYU’s Department of Psychology. “This finding ends a long-standing debate over how some visual events are processed: we show that our eyes can quickly make assessments about cause-and-effect—without the help of our cognitive systems.” Rolfs is currently a research group leader at the Bernstein Center for Computational Neuroscience and the Department of Psychology of Berlin’s Humboldt University. The study’s other co-authors were Michael Dambacher, post-doctoral researcher at the universities of Potsdam and Konstanz, and Patrick Cavanagh, professor at Université Paris Descartes. We frequently make rapid judgments of causality (“The ball knocked the glass off the table”), animacy (“Look out, that thing is alive!”), or intention (“He meant to help her”). These judgments are complex enough that many believe that substantial cognitive reasoning is required—we need our brains to tell us what our eyes have seen. However, some judgments are so rapid and effortless that they “feel” perceptual – we can make them using only our visual systems, with no thinking required. It is not yet clear which judgments require significant cognitive processing and which may be mediated solely by our visual system. In the Current Biology study, the researchers investigated one of these—causality judgments—in an effort to better understand the division of labor between visual and cognitive processes. Oh man, thats actually a super critical neurocognitive distinction, considering that this might imply WHY we might think so little upon what we see and observe in objects as well as other people…and in turn, the opinions we form. Gotta keep an eye out for future research into more specific examples on this.

oldmanyellsatcloud:

neurosciencestuff:

Researchers Find Causality in the Eye of the Beholder

We rely on our visual system more heavily than previously thought in determining the causality of events. A team of researchers has shown that, in making judgments about causality, we don’t always need to use cognitive reasoning. In some cases, our visual brain—the brain areas that process what the eyes sense—can make these judgments rapidly and automatically.

The study appears in the latest issue of the journal Current Biology.

“Our study reveals that causality can be computed at an early level in the visual system,” said Martin Rolfs, who conducted much of the research as a post-doctoral fellow in NYU’s Department of Psychology. “This finding ends a long-standing debate over how some visual events are processed: we show that our eyes can quickly make assessments about cause-and-effect—without the help of our cognitive systems.”

Rolfs is currently a research group leader at the Bernstein Center for Computational Neuroscience and the Department of Psychology of Berlin’s Humboldt University. The study’s other co-authors were Michael Dambacher, post-doctoral researcher at the universities of Potsdam and Konstanz, and Patrick Cavanagh, professor at Université Paris Descartes.

We frequently make rapid judgments of causality (“The ball knocked the glass off the table”), animacy (“Look out, that thing is alive!”), or intention (“He meant to help her”). These judgments are complex enough that many believe that substantial cognitive reasoning is required—we need our brains to tell us what our eyes have seen. However, some judgments are so rapid and effortless that they “feel” perceptual – we can make them using only our visual systems, with no thinking required.

It is not yet clear which judgments require significant cognitive processing and which may be mediated solely by our visual system. In the Current Biology study, the researchers investigated one of these—causality judgments—in an effort to better understand the division of labor between visual and cognitive processes.

Oh man, thats actually a super critical neurocognitive distinction, considering that this might imply WHY we might think so little upon what we see and observe in objects as well as other people…and in turn, the opinions we form.

Gotta keep an eye out for future research into more specific examples on this.

Tags: cognition empathy perception POV neuroscience neurology reblog quibbles