Tuesday, March 8, 2016

Bypassing Primary Sensory Cortices—A Direct Thalamocortical Pathway for Transmitting Salient Sensory Information
-SyntheticTelepathy and some smoke and holograms and we can en masse be hoodwinked into believing anything ,it could happen in a day and you won't have the ability to think away from the event your ability to look through contrivance won 't matter..does it matter now?..when u find yourself actually responding to Donald Trump ? In what country does anyone but who pays for a congress, president or senator matter?
It won't be the light show that matters this Targeted Individual Human Guinea pig shtick ain't no gimmick for me to garnish no friend or prime me up but to be a there but for the grace of god go I example of lunatic...but it does give me insight into my psychotronic punishment being done on a much larger playing field.like you and your children...
You"lobe able to see the spectacle as a dog and pony show yes sum ..but it's the other part nobody discuses on TV nor anywhere but tinfoil hat homesteads..synthetic telepathy..brain computer interface .A.I.
Turn away from the fire in the sky all u want ..
it will be the images and dreams and thoughts and emotions played upon your basal ganglia like that 2 inches of "thick" skull of your don't mean nothing .but didn't you hear ?according to experts anybody who believes in conspiracy theory is a narcissist and we can't have you be that can we.
1Department of Neuroscience, Physiology and Pharmacology, University College London, London WC1E 6BT, UK
2Institute of Neuroscience (IoNS), Université catholique de Louvain, B-1200 Brussels, Belgium
A
Detection and appropriate reaction to sudden and intense events happening in the sensory environment is crucial for survival. By combining Bayesian model selection with dynamic causal modeling of functional magnetic resonance imaging data, a novel analysis approach that allows inferring the causality between neural activities in different brain areas, we demonstrate that salient sensory information reaches the multimodal cortical areas responsible for its detection directly from the thalamus, without being first processed in primary and secondary sensory-specific areas. This direct thalamocortical transmission of multimodal salient information is parallel to the processing of finer stimulus attributes, which are transmitted in a modality-specific fashion from the thalamus to the relevant primary sensory areas. Such direct thalamocortical connections bypassing primary sensory cortices provide a fast and efficient way for transmitting information from subcortical structures to multimodal cortical areas, to allow the early detection of salient events and, thereby, trigger immediate and appropriate behavior.
Detection and appropriate reaction to sudden and intense events happening in the sensory environment is crucial for survival. By combining Bayesian model selection with dynamic causal modeling of functional magnetic resonance imaging data, a novel analysis approach that allows inferring the causality between neural activities in different brain areas, we demonstrate that salient sensory information reaches the multimodal cortical areas responsible for its detection directly from the thalamus, without being first processed in primary and secondary sensory-specific areas. This direct thalamocortical transmission of multimodal salient information is parallel to the processing of finer stimulus attributes, which are transmitted in a modality-specific fashion from the thalamus to the relevant primary sensory areas. Such direct thalamocortical connections bypassing primary sensory cortices provide a fast and efficient way for transmitting information from subcortical structures to multimodal cortical areas, to allow the early detection of salient events and, thereby, trigger immediate and appropriate behavior.

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