miércoles, 21 de noviembre de 2018

BLACK FRIDAY! Fix Your Vision (Results in 7 days)

composed of loblolly pine and shortleaf pine produced from 0 to nearly 5 million sound pine seeds per hectare. Over this period, there were six bumper, five poor, and nine good seed crops, when evaluated for production of adequate seedlings for natural forest reproduction.



If you suffer from blurry vision, nearsightedness, glaucoma, or AMD...

There's a new medical discovery you need to know about right away.

It comes from one of the country's top Medical Doctors...

And it's a simple, but scientifically proven way to strengthen your vision FAST...

Without spending a penny on glasses, contacts, or risky surgery.



The best part is...

This MD's discovery is 100% natural...

Yet it stimulates the cells in your eyes...

Which causes them to immediately self-repair.

Some people who use this method see improvements in their vision in just 7 days...

Which is probably why a group of 10 medical doctors were recently quoted...

As saying this is "the most important vision breakthrough of the 21st century."

Cl!ck here now to see the DIY vision-repair protocol that's shocking the medical community...

Before the billion-dollar eyecare industry gets it censored from the web.

Sincerely,

Kevin C. Barnes
Better Vision Initiative








 


 












 



 
V1 performs edge-detection to understand spatial organization (initially, 40 milliseconds in, focusing on even small spatial and color changes. Then, 100 milliseconds in, upon receiving the translated LGN, V2, and V3 info, also begins focusing on global organization). V2 both forwards (direct and via pulvinar) pulses to V1 and receives them. Pulvinar is responsible for saccade and visual attention. V2 serves much the same function as V1, however, it also handles illusory contours, determining depth by comparing left and right pulses (2D images), and foreground distinguishment. V2 connects to V1 - V5. V3 helps process ‘global motion’ (direction and speed) of objects. V3 connects to V1 (weak), V2, and the inferior temporal cortex. V4 recognizes simple shapes, gets input from V1 (strong), V2, V3, LGN, and pulvinar. V5’s outputs include V4 and its surrounding area, and eye-movement motor cortices (frontal eye-field and lateral intraparietal area). V5’s functionality is similar to that of the other V’s, however, it integrates local object motion into global motion on a complex level. V6 works in conjunction with V5 on motion analysis. V5 analyzes self-motion, whereas V6 analyzes motion of objects relative to the background. V6’s primary input is V1, with V5 additions. V6 houses the topographical map for vision. V6 outputs to the region directly around it (V6A). V6A has direct connections to arm-moving cortices, including the premotor cortex. The inferior temporal gyrus recognizes complex shapes, objects, and faces or, in conjunction with the hippocampus, creates new memories. The pretectal area is seven unique nuclei. Anterior, posterior and medial pretectal nuclei inhibit pain (indirectly), aid in REM, and aid the accommodation reflex, respectively. The Edinger-Westphal nucleus moderates pupil dilation and aids (since it provides parasympathetic fibers) in convergence of the eyes and lens adjustment. Nuclei of the optic tract are involved in smooth pursuit eye movement and the accommodation reflex

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