MRI Set One


These images are from the so-called T-1 sequence. Slightly sharper than the next set, these images are more descriptive of the relative size and position of structures.

The first two images transect the sinuses in a horizontal plane just below the eyes. The view in these scans is from below, looking up toward the top of the head. Thus, the nose is at the top of the images while the back of the head is at the bottom of the images. The left and right sides are transposed.

MRI1.jpg (Low Res)

MRI 1

In the center of the first image is a hoop shaped structure. There is a "Vee" shaped antenna-like projection on its left side. The shape is similar to the "rabbit-ears" on a cheap TV set. Such a configuration makes it ideal for the induction of EM energy as electrical potential.

Higher resolution version.

The "hoop" appears to have a "gap," much like the capacitance "gap" in a spark-plug. This would make it ideal for the re-transmission of low frequency EM pulses.

Note what appears to be a wire, possibly a grounding wire, extending toward the center of the image from the left "rabbit-ear."

The second image exposes a tuning-fork like structure off-set several millimeters above the first image. The two structures represented in images one and two seem to be parts of the same device as both are in the left Mastoid sinus. The utility of a tuning-fork for the transmission of sonic and ultrasonic vibrations is obvious. What is not obvious is its use in the re-transmission of EM energy.

MRI2.jpg (Low Res)

MRI 2

Much advanced sonar and radar technology is based upon piezoelectric materials. The shapes of the molecular lattices in crystalline and poly-crystalline materials such as quartz distort when exposed to an electrical field. Conversely, a mechanical distortion produces a flow of electrons.

Higher resolution version.

An alternating current, such as that produced by a radar transmission in the gigahertz (millimeter) range, will produce a high frequency vibration.

The positioning of the device in the Mastoid sinus places it in close proximity to both the left inner ear and the otic (hearing) centers of the brain. Its positioning also makes it ideal for the re-transmission of low frequency EM pulses into the memory centers of the brain.

The similarity of the dipole induction antennae to old-fashioned "rabbit-ears" is more than coincidental. It is efficient design for the induction of electrical potential from the reception of centimeter wavelength EM radiation. The device has the appearance of a transducer relay designed to absorb EM radiation in one frequency range and retransmit that energy in another frequency range. Over and above its use in generating aural stimulus, the tuning-fork emits higher frequency signals in the gigahertz (millimeter) range.

The third image transects the sinuses in a horizontal plane below the previous two images. Here, the Maxillary sinuses and the cheek bones below the eyes are represented. Again, the view in these scans is from below, looking up toward the top of the head.

MRI3.jpg (Low Res)

MRI 3

Much of the psychiatric torture research of the late 1940s and early 1950s involved the development of psychotropic drugs and drug delivery systems. Among the drugs developed were LSD and BZ.

Higher resolution version.

Note the object in the left Maxillary sinus. Again, what appears to be a wire is clearly visible. This appears to be an antenna or grounding wire as part of a drug injection system.

Polarized piezoelectric conductors can easily generate enough electrical potential from the induction of electro-magnetic energy to power a microminaturized pump. It may well be that a bladder design has been developed which polarizes the contained material and ejects it using no moving parts. Regardless, radio control of fully implantable chemical injection systems has been feasible for forty years.