Free Will: a new study; which areas act (Introduction)

by David Turell @, Sunday, July 24, 2016, 01:23 (3045 days ago) @ David Turell

A new study lets subjects decide on their own when to switch from one view to another and demonstrates the areas of the brain that interact and coordinate. In this way the people selected times on their own, not waiting for a command:-http://releases.jhu.edu/2016/07/13/what-free-will-looks-like-in-the-brain/-"Unlike most brain studies where scientists watch as people respond to cues or commands, Johns Hopkins researchers found a way to observe people's brain activity as they made choices entirely on their own.-***-"The team devised a novel experiment to track a person's focus of attention without using intrusive cues or commands. Participants, positioned in MRI scanners, were left alone to watch a split screen as rapid streams of colorful numbers and letters scrolled past on each side. They were asked simply to pay attention to one side for a while, then to the other side — when to switch sides was entirely up to them. Over an hour, the participants switched their attention from one side to the other dozens of times.-"Researchers monitored the participants' brains as they watched the media stream, both before and after they switched their focus.-"For the first time, researchers were able to see both what happens in a human brain the moment a free choice is made, and what happens during the lead-up to that decision — how the brain behaves during the deliberation to act.-"The actual switching of attention from one side to the other was closely linked to activity in the parietal lobe, near the back of the brain. The activity leading up to the choice — that is, the period of deliberation — occurred in the frontal cortex, in areas involved in reasoning and movement, and in the basal ganglia, regions deep within the brain that are responsible for a variety of motor control functions including the ability to start an action. The frontal-lobe activity began earlier than it would if participants were told to shift attention, clearly demonstrating that the brain was preparing a purely voluntary action rather than merely following an order.-"Together, the two brain regions make up the core components underlying the will to act, the authors concluded.-"What's truly remarkable about this project,” said Leon Gmeindl, a research scientist at Johns Hopkins and lead author of the study, “is that by devising a way to detect brain events that are otherwise invisible — that is, a kind of high-tech ‘mind reading' — we uncovered important information about what may be the neural underpinnings of volition, or free will.”-"Now that scientists have a way to track choices made from free will, they can use the technique to determine what's happening in the brain as people wrestle with other, more complex decisions. For instance, researchers could observe the brain as someone tried to decide between snacking on a doughnut or an apple — watching as someone weighed short-term rewards over long-term rewards, perhaps being able to pinpoint the tipping point between the two."-Comment: This is an fMRI study which does not answer the issue Libet raised, seen in EEG studies of pre-action spikes that seem to imply a delay, that represent the brain, not the person preparing for an action. Libet has been fairly refuted ( see previous entries)but combining EEG with the FMRI's will fully answer the issue. The authors use the term volition as an equivalent to 'free will'. Fair enough.


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