MRI Set Two


This is a set of MRI scans comparable to the previous set and taken in the same series. Note that they are identical in position and orientation to the previous set. These images are from the so-called T-2 sequence. Slightly less sharp, these images are more descriptive of the relative density of structures.

The difference between the T-1 and T-2 image of the same structure offers important information as to the nature of that structure. Compare the difference between structures as imaged in the T-1 versus the T-2 scans. Next, compare the disparity in the amount of difference between various structures. This is indicative of the relative amount of liquid in those structures.

In comparing the T-1 and T-2 components, MRI 1 and MRI 4 respectively, note that the brain tissue, bone tissue and surrounding tissues in the T-2 images (MRI 4) are blurrier and more pronounced than those in the T-1 images (MRI 1). This indicates varying concentrations of liquid. The greater the bluriness in the T-2 scan relative to the same structure as imaged in the T-1 scan, the greater the saturation of water in that structure.

MRI4.jpg (Low Res)

MRI 4

However, the foreign objects in question, in all cases, exhibit an exactly opposite behavior. The objects indicated appear both smaller and sharper in the T-2 images than in the T-1 images. This is exactly the behavior one would expect when scanning glass.

Higher resolution version.

MRIs are particularly good at reporting the relative density of various materials. This makes MRIs particularly good for imaging crystalline and poly-crystalline materials such as quartz and glass.

The X-Rays used in CAT scans only report the relative transmissiveness of the material. Crystalline and poly-crystalline materials such as quartz and glass are virtually transparent to X-Rays.

CAT scans of the same areas as these MRI scans produced negative results. A comparison of those CAT scans indicate that the objects imaged here can not be explained by a naturally occurring process such as calcification.

[ Time permitting, those CAT scans will be included in the next update. ]

Needless to say, the application of advanced radar surveillance and EM waveform superimposition to the science of neuro-psychiatric torture conditioning has led to significant advancements.

The early work in this area concentrated on the direct suppression of brainwave patterns. Pattern recognition systems were programmed to respond to the formation of specific brainwave patterns. EM signals which destructively interfer with those brainwave patterns were broadcast in response to the formation of those brainwave patterns.

Such so-called damping fields were superimposed upon the area of the brain where the subject brainwave occurred. Computers were found to recognize and to respond to the formation of brainwaves conforming to a specific pattern more efficiently. This repeated suppression of brainwaves led to their eventual de-patterning.

MRI5.jpg (Low Res)

MRI 5

Note that, here again, the object indicated appears smaller and sharper in the T-2 image than in the T-1 image. Such an indication would be difficult to overlook. Note that these scans were performed at the UCLA Neuropsychiatric Institute, formerly under the directorship of Dr. Louis Jolyon "Jolly" West.

Higher resolution version.

More advanced conditioning techniques utilize torture conditioning. The repeated superimposition of EM signals which induce neuro-motor stimulus and the resultant muscular pain conditions the brain to respond with physical pain to the formation of a specific brainwave pattern. Such neural patterning, in combination with neural de-patterning, is utilized to leave the victim's brain virtually self-conditioning to the torturer's wishes.

More complex cascades of neuro-linguistic and neuro-motor responses can be easily patterned through torture conditioning. This ability to create and destroy neural pathways at will makes sophisticated neural programming feasible.

The government torturers administer no less than two drugs. One is a stimulant used to disrupt sleep thus reducing the victim's ability to resist. The other is a hallucinogen which produces confusion, indecision and a catatonic like torpor.

The injection of the hallucinogenic drug can only be described as mind numbing. It begins with a numbing or tingling sensation, similar to a limb falling asleep, which rises from the nose to the forehead to the top of the head. Confusion, agitation and disorientation ensue almost immediately. Shortly thereafter, the ability to recall events is severely affected, with short term memory being compromised more significantly than long term memory. Finally, aural and optic hallucinations intensify.

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MRI 6

While, the supply of such drugs is not inexhaustible, such implants are designed to carry enough doses of such drugs to last for many, many years. Without such drugs, the government's ability to condition responses is slightly reduced.

Higher resolution version.

However, the primary focus of such torture conditioning is the direct conditioning of neural response. This direct neural conditioning can continue unabated indefinately. Meditation and the forced relaxation of the involved muscles can provide some relief.

Regardless, the net effect is not pleasant.