Click on image for larger view.
A 67year old woman treating simultaneously eyes, face and teeth. After two months she looks less than 45 years old.
Her teeth rejuvenate, she got rid her presbyopia glasses and cured her severe allergy and igmorites.
Notice the treated area is always off center, near the rim of the probe.
THE DEVICE WITH NUCLEAR TRANSMUTATIONAL BIOENERGY
NON - INVASIVE ELECTROINSERTION IN VIVO
IMPROVES: METABOLISM, ANABOLISM, DRUG DELIVERY,TRANSMEMBRANE ACTION, CELLULAR ACTIVITY
WORLD'S STRONGEST PULSED ELECTROMAGNETIC FIELD (PMF)
Specifications
Input - 220VAC 50/60 Hz 1 Kw Fuse 6 amps
Output - Complex (0.3-250 MHz) pulse train
Average field power - 60 watts
Pulse width - <1 microsecond
Pulse repetition rate - 2-5 pulses per second
Applicator (probe) - 15 cm diameter indiction coil
Average induced voltage - 18 volts within 8 cm
Body Penetration - 15cm at ful power
Attenuation - 1 /D3(D = distance)
Overall dimensions - 44.5"h, 21.5"w, 20"d
Net weight - Approx. 150 lb (68 Kilo)
Mounting - Four 3" castor wheels
Treatment timer - 5 minutes max
Ventilation - Chassis fan
Interference suppression EMI shielded
NOTE: Ozone produced in plasma chamber must
be vented to outside with - 2" dia. flexible hose.
Simplicity of usage is a major feature of the IMI, as magnetic pulses pass through all matter except certain metals. The applicator probe is held flat against the clothing or skin of the area to be treated, and the start button pressed. The device will begin emitting several popping noises per second (from the arc in the plasma chamber that initiates each pulse) until the 5-minute treatment timer turns it off. if desired, or if the probe is moved to another location, the start button will initiate another 5minute operation for up to four cycles, depending on the treatment protocol for a particular clinical condition.
It is noted that in over 100,000 IMI treatments for a variety of medical problems, no adverse effects or incidents have been reported in patients or in technicians exposed to IMI pulses for many hundreds of hours a year.
Normal Cells
All of the many types of living cells that make up the tissues and organs of the body are tiny electrochemical units. They are powered by a "battery* that is continually recharged by the cells' metabolic chemistry in a closed loop of biological energy.
We are concerned here with that battery, which consists of the membrane that surrounds the cell. The electrical charge, or voltage across the membrane of a normal, healthy cell varies from about 70 to 100 millivolts; this is called the Transmembrane Potential, or TIVIP.
When a cell is poisoned, damaged, deprived of nutrients or infected, energy is lost in fighting the problem and the TIVIP falls to a level where the cell loses its vitality and either struggles to heal itself or dies.
Medical literature over the past few decades offers ample proof that the induction of tiny currents of electricity is remarkably effective in healing, regenerating and revitalizing cells damaged by trauma. Many of the earlier techniques developed from this research involved implanting fine electrodes at the boundaries of the injured tissue, and causing a tiny current to flow through the affected area from low-voltage batteries. Subsequently, it was found that these healing currents could also be induced by relatively weak magnetic devices placed close to the trauma and kept there for days or weeks.
Return to:| Top
Thus the healing effects of microcurrents generated or induced in the conductive pathways of the body have been well established and this application is an accepted clinical procedure.
There remained for Professor Pappas to discover that a weak pulsed magnetic field, hundreds of times faster than had ever been used, applied for a millionth of a second at a time within a frequency spectrum never before used in medical devices, could accomplish much more within a few minutes what other stronger magnetic induction devices required days or weeks to affect--and to do so with much more efficient and far-reaching therapeutic results.
In short, the IMI is capable of raising the TMP of sick or damaged cells into a normal range, thus restoring their bioenergy, facilitating the exchange of potassium and sodium ions (the Na/K pump) and restoring their normal rate of production of ATP which fuels the entire process. Normal healthy cells are not adversely affected by IMI because, as in recharging any battery, the membrane-batteries of living cells in particularly will not accept an overcharge.
Let us consider the action of the IMI in electrical terms. The massive surge of current circulating in the applicator loop, which acts as an antenna, generates a field of complex radiofrequency energy energy that is "broadcast" outward in all directions normal to the direction of current flow in the loop. The quickly expanding and collapsing pulse of magnetic energy easily penetrates biological tissues. When a changing magnetic field intersects a conductor in a closed circuit, it generates a current in the conductor; this is the basic principle on which all rotary electric generators and alternators operate. The expanding and contracting magnetic component of the pulse causes current to flow in the many conductive paths of the body, including nerve fibers, blood vessels (blood serum is electrically conductive) and the fluid bathing the cells.
As the magnetic field expands through the living tissue, it induces electron flow, or current in one direction; as it collapses, the direction is reversed. Electrons always flow from negative (cathode) to positive (anode) potential.
The membrane itself is a dielectric that could be compared to a capacitor. Its electrical charge is positive on the outer surface, negative on the inner surface. Therefore such induced current polarized to push ions toward the positive outside of the cell membrane are blocked just as no current will flow when the positive terminals of two batteries are connected together.
Conversely, current flowing away from the membrane will pull electrons away from it, and cause more electrons or negative ions to pile up on its interior surface, thus incrementally increasing the charge, or potential across the membrane and driving the TMP up towards a normal, healthy value for that cell.
This is one reason why the IMI is so quick and effective in helping damaged cells heal. Also, although it produces no heat in the tissue, for reasons that cannot yet be presented here it appears to increase the blood circulation around damaged tissue. This is important, as increasing the supplies of nutrients is also an effective aid to cell repair; this is particularly true in trauma where circulation has been impaired by crushed or severed blood vessels or the inflarnation and swelling that compress capillaries, blocking flow to both the injured and uninjured cells.
Put in terms of physical chemistry, rather than biological terms, another parallel phenomenon appears to occur: the acceleration of adencisine triphosphate (ATP) synthesis and other aspects of the cell's biochemical anabolism. The electrons drawn to the inner membrane by elevating the TMP increase the ionic charge in the interior. This raises the internal degrees of freedom at a molecular level, catalyzing dormant biochemical reactions that would not otherwise proceed as quickly due to lack of available energy. Entropy is reduced and the cell's metabolic rate increased, enabling the cell to heal itself and attain an optimum functional level.
Return to:| Top
Cancer cells grow faster, divide and multiply much more rapidly than normal cells. As with all living cells, once their TMP falls into a critical low value, mitosis is triggered and the cell divides into two identical copies. When the magnetic induction action of the IMI prevents a drop in the TMP to that critical mitosis-trigger level, the fastgrowing cancer cell cannot divide and continues to grow larger until death occcurs.
It is clear that as a cancer cell grows at an uncontrolled rate without dividing, the membrane is stretched thinner and thinner. When the ratio of volume to surface area becomes too large, the membrane is unable to absorb enough nutrients to support the bulk of the cell and starvation will result in cell death.
There are several theories about what happens to bring about cell death under these conditions; some or all of these may apply to different types of cancer cells.
Soft, harmless, electromagnetic treatment of cancer is quite new to medical science, and there are still new facts to be discovered. But research continues as new tools are developed to explore phenomena at the microscopic levels of the molecule and the cell.
Bjorn Nordenstrom, a predminent Swedish scientist has found that cells of cancers he has successfully treated with electrotherapy appear to become dehydrated and die. He used an invasive surgical procedure, implanting electrodes in the tumor to generate the microcurrents that the IMI appears to create non-invasively by magnetic induction. His basic techniques were adopted in China where, from 1988 to 1993 over 4,000 cases of advanced malignancy were treated. Of 2516 carcinoma cases in patients over 50 years old, a 78% favorable response rate was reported.
Dr. C.K. Chou, an American cancer researcher and his colleagues have found that these same microcurrents alter the pH of the cancer cell and alter its DNA so that it cannot reproduce.
In the special cases of HIV and hepatitis infections, repeated experiments have shown that when the infected blood is treated in vitro with 50 to 100 microamperes of current, it appears to be virtually free of these viruses. This is an exciting discovery as it suggests that the same phenomenon may occur in the body ana raises the possibility that when an IMI device can be designed large and powerful enough to scan or cover tne whole body in a single treatment, these and perhaps other viral infections could be successfully conquered.
Another important aspect of the thinning membrane of a growing cancer cell is that it becomes more porous. This appears to have two significant results. Anticancer antibodies of the immune system can more easily penetrate the membrane to attack the cell. Also, when electromagnetic fields are applied to the cancer, a phenomenon known as Electroporosis develops; this permits certain pharmaceuticals that have proven effective in chemotherapy to penetrate the membrane more quickly and easily--allowing a significant reduction in the dosage of chemicals that may have harmful side effects.