PEMF History

Why Few People Seldom Get Heart Cancer

Why Few People Seldom Get Heart Cancer

BY DR. GARRY F. GORDON, MD, DO, MD(H)

Considering all of the areas a person can get cancer, it makes you wonder why heart cancer is so rare.  One interesting theory is that the heart is the most electrical organ in the human body.  Heart cells have a voltage of 120 megavolts (mV) and, in some cases, a slightly higher voltage.  This is almost twice the voltage of some other cells in the body.

Pulsed Electromagnetic Frequency (PEMF) acts as a “whole-body battery charger” by recharging each of the 70 trillion cells in your body.  Though it’s impossible to charge your cells as high as the heart, we can raise the voltage of the cells in your body up 70 mV, or to 110 mV in the case of high-activity athletes.  In most people, you can expect between 70 mV and 90 mV.
PEMF acts like a spark, ignition, or impulse that keeps the cells charged at an ideal voltage.  Just like a car, the human body needs fuel, oxygen and ignition – a spark plug.  All metabolic processes are driven by this cellular charge: adenosine triphosphate (ATP) production, oxygen, nutrient absorption, waste removal, immune function and reproduction.

When your cells are sick, they lose energy.  As a result, there is not enough ATP and your cells’ voltage drops to 40-50 mV.  People that are sick potentially have voltages as low as 20 mV (in the case of cancer).  Cancer cells typically have a voltage of 20 mV and are in fermentation, meaning they need 10 times more energy from the environment.

PEMF builds energy within your cells, oxygenating and alkalizing the cells.  PEMF improves circulation so the conversion of nutrients and oxygen inside the body can occur at optimum performance.  PEMF also increases the efficiency with which your body processes and expels waste matter and keeps your system running smoothly.

With physics being used for mainstream medicine, electricity has been used to treat glioblastoma.  I prefer PEMF, but this news is the beginning of a new understanding in medicine about physics, which I predict will lead to many exciting things like NeuroStar TMS Therapy®.  This NeuroStar system is FDA-approved and in use today at UCLA, Stanford and Yale, but so far only approved for unresponsive depression.

Many of those involved are probably unaware that PEMF devices are similar to the PAPIMI® NanoPulse Therapy device used in Greece to treat cancer.  The FDA has approved the new NovoTTF (for tumor treating fields), that uses an electrical field to disrupt the division of cancer cells in the brain, and is being developed for use in patients with glioblastoma, although only after standard treatments fail.  Even so, this is a major breakthrough!  PEMF generates microelectric currents and magnetic fields, so it will do more than this newly approved treatment.

There is also another logical explanation for why PEMF is doing so much good for people.  This involves an electric charge like the newly approved FDA device for brain cancer and turns on the body’s healing power.  Now combine that with my FIGHT program, and be prepared for miraculous healing!

Source: http://www.greenlivingaz.com/?p=1440


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Nanopulses tweak the innards of cells

A method that would allow doctors to tweak the innards of cells without even touching a patient's body is being developed in the US and Greece..

The technique is still in its infancy, and it is still not clear exactly what it does to cells. But initial experiments suggest it might one day be possible to use the technique to treat cancer, speed up healing or even tackle obesity.

The method involves exposing cells to an extremely powerful electric field for very brief periods. "The effects of these pulses are fairly dramatic," says Tom Vernier of the University of Southern California in Los Angeles, who will present some of his team's results at a nanotechnology conference in Boston in March. "We see it as reaching into the cell and manipulating intracellular structures."

Applying electric pulses to cells is not new. In a technique called electroporation, electric fields that last hundreds of microseconds are applied to cells. The voltage charges the lipid molecules in the cell membrane, creating transient holes in the membrane. The method can be used to help get drugs or genes into cells.

Major physiological event

But the latest technique involves more powerful electric fields, with gradients of tens of megavolts per metre, applied for much shorter periods. These nanosecond-pulsed electric fields are too brief to generate an electric charge across the outer membrane of cells, but they do affect structures within cells.

One of the main effects seems to be calcium release from a cellular structure called the endoplasmic reticulum. "In a nanosecond, we cause this major physiological event in the cell," says Vernier. "It's completely indirect and remote, and it's an extremely rapid transition."

The nanopulses can also trigger cell suicide. Teams led by Vernier, Karl Schoenbach of Old Dominion University and Stephen Beebe of Eastern Virginia Medical School, both in Norfolk, Virginia, have shown that nanopulsing can kill tumour cells in culture.

The pulses do not just fry cells, but lead to changes such as the activation of enzymes called caspases, an early step in cell suicide. How the pulses do this is not clear, but Vernier says the effect is not related to calcium release.

Cell suicide

So could nanopulsing help treat cancer? In a preliminary test, Schoenbach and Beebe used needle-like electrodes to generate pulses near tumours in mice. Nanopulsing slowed the growth of tumours in four mice by 60 per cent compared with tumour growth in five untreated mice. The researchers hope that with better delivery systems they could make the tumours shrink.

Beebe's team has also found that the pulses can trigger suicide in the cells that give rise to fat cells, possibly opening up a new way of treating obesity, Beebe speculates.

And Vernier is working with doctors at the Cedars-Sinai Medical Center in Los Angeles to see if nanopulses can speed up the healing of wounds. "We do see an effect, but that's about all I can say now," he says.

The next step is to develop a way to deliver the pulses to cells and organs deep within the body. Theoretical models suggest that nanosecond pulses of broadband radio signals could do it. "An array of such antennas would create, through superposition of electric fields, a very high electric field right where we need it," says Schoenbach.
 

Source:
Anil Ananthaswamy, 06 February 04, New Scientist http://www.newscientist.com/news/news.jsp?id=ns99994635


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Electrical Nanopulses Might Kill Tumors

Killing cells affected by cancer while leaving healthy ones alone is not a new idea.  But, in "Ultra-fast shocks scramble cells," Nature describes a new approach based on electrical nanopulses. These electric shocks last only a few billionths of a second while reaching during this very short amount of time power levels of terawatts. They also are very intriguing, apparently forcing cancer cells to commit suicide. 

The technique involves blasting cells with nanopulses. These are high-power electrical bolts that last a few billionths of a second. They deliver millions of volts - enough power to light up a city, but each burst lasts much less than the blink of an eye. 

Longer shocks blow a cell apart, but researchers have found that the fleeting nanopulses leave the cell membrane unaffected while mixing up its insides. Now they are working out how to vary the timing and intensity of the shocks to make cells behave in specific ways.

Here are two images showing how ultrashort pulses affect the intracellular structure, leaving the cell membrane intact (Credit: Center for Bioelectrics).
Is this technique ready for human deployment? Not quite yet.

There is plenty to be worked out before the human body is zapped with nanopulses. James Weaver, who studies electrical effects in cells at the Massachusetts Institute of Technology, Boston, says they are at an early stage: "There are maybe ten papers published showing that something dramatic is happening."

One puzzling aspect of this technique is the electric shocks are pushing cells to commit suicide. Scientists are not sure why.

One of the most significant discoveries was that nanopulses make mammalian cells commit suicide, rather than blowing them up. This is a relatively gentle way of killing, because scavenger cells come and swallow the debris. By contrast, long electric shocks explode cells and liberate toxic molecules that cause inflammation and pain.

For this reason, researchers hope to use nanopulses to kill cancer cells while leaving healthy tissue intact. Karl Schoenbach's team at the Center for Bioelectrics in Norfolk, Virginia, has already shown that the pulses can shrink mouse tumours by over 50%, and is working on catheters or non-invasive ways to deliver the shocks to the body.

For more information about their research projects, you can look at this page or check this presentation (PDF format, 19 pages, 1.31 MB).
Source: Helen Pearson, Nature, March 16, 2004

The PAP IMI operating principle and mechanism of action

The PAPIMI device produces pulsed electromagnetic type ELF (Extremely Low Frequency), also known as waves PEMF (Pulsed Electro Magnetic Field). These waves, given their very short duration (40-50 microseconds) do not heat the tissue and are able to cross biological tissue up to 15 to 20 inches deep, thus favoring the stimulation and regeneration because they act directly on the physiology the cell.

The pulse is produced in a Plasma ROOM, located inside a solenoidal probe in concentric coils. The probe consists of a silicone tube containing air is circulated in which an electric current that turns the air into plasma. The way that gets the electromagnetic pulse makes it 100% biocompatible, because it is rich of typical frequencies of the constituent elements of air and the necessities of life, such as oxygen and nitrogen.

Figure 1 Membrane potential

The PAPIMI device is used to reactivate the cell physiology in all pathologies osteo-articular muscle and nerve, and also eliminates the pain.

The pain is usually caused by trauma, injuries and accidents of various kinds that determine tissue degeneration, inflammation and, therefore, pain. The multiplicity of agents damaging the body responds with a unique defense mechanism, inflammation, and repair the injured tissue activates mechanisms more or less specific. At the cellular level, the inflammatory state leads to a lowering of the membrane potential which, in turn, causes a reduction of the normal activity of the cell involved, and a reduction of its metabolism.

Reduces the normal transfer of nutrients from outside, through the specific mechanisms of exchange, which, first of all, the sodium potassium pump, and reduces the elimination of waste substances toxic to the cell. Gradually, the cell becomes depleted of oxygen, is enriched with toxins, and so is less than the production of ATP (adenine triphosphate).

Figure 2 The diagram shows the relationship between the concentration inside the cell Na + ions and the potential trans-membrane associated, since they are related to the health status of the cell. The device Papimi ® increases the TMP (Trans Membrane Potential) and decreases Natremia (concentration of Na-).

All cellular functions depend on the continued availability of energy derived from catabolism of organic molecules during the process of cellular respiration, the energy released is stored in the form of molecules of ATP (adenosine triphosphate). ATP is the energy reserves, readily available for all metabolic functions of the cell.

The electromagnetic field generated by the device PAP IMI device is to act directly at the cellular level, exploiting the natural ability of biological structures interact with electromagnetic fields. It is essentially to create resonances, as is now known, each substance has its own characteristic electromagnetic spectrum, and any substance interacts with electromagnetic waves is so non-specific (for example through the transfer of energy) and specifically (interactions based on the particular resonance frequency range).

Figure 3 The diagram shows the relationship between the concentration of intracellular K + and Na + ions, since they are connected to the trans-membrane potential and health status of the cells. The device Papimi ® pushes the curve from the area in the lower right to upper left area, where he represented the condition of young and healthy cells.

The membrane potential has a close relationship with the state of health of the cells. Under physiological conditions this potential assumes a certain value which, depending on the type of cell is between -70 and -90 mV. This potential must be kept constant because the cell remains in physiology.

So happens that, for certain frequencies, the wave emitted by the device is able to interact, resonating with the electromagnetic field produced by the cell. In addition, the cell membrane, by its very nature, conveys well the electromagnetic field.

The effect of electromagnetic pulse has features that allow you to restore the membrane potential, altered by the pathological state. Moreover, precisely due to its composition, the wave penetrates into the cell by stimulating mitochondrial activity, cellular respiration and ATP production.

Therefore, at the cellular level, it has a dual effect: stimulation of bio-electric nature, because it restores the normal membrane potential was altered by the disease, and stimulation of natural bio-chemistry, because the impulse is able to penetrate inside the cell, which is to restore the physiology.

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Accelerated Treatment of Ankle Sprains

ACCELERATED TREATMENT OF ANKLE SPRAIN BY APPLYING PAPIMI 600P BIOMAGNETIC GENERATOR, WITH CRYOTHERAPY AND PHYSICAL EXERCISES FOR FOOTBALL PLAYERS. BY HOMIROS EMMANOUILIDIS Medical Doctor for Sports Injuries 104 Kifisias Ave, Athens, Greece tel.:+301-6984321. Dr. HOMEROS EMMANUILIDIS, Specialist Medical Doctor For Sports, was born in Athens, and graduated from the Medical School of Athens University. Dr. Emmanuilidis has specialized in Sports Injuries in the School of Medicine at the University of Athens, as well as he has specialized in Athletic Medicine in Italy. He coordinates the Soccer Team for the National Center of Athletic Research. He has been duty Medical Doctor for the major football teams of Greece: "Panathinaekos", "Athens Apollon", as well as National Teams for Elpidon Teenagers and Adult Men. . He has published many studies concerning football. Summary In the present report, we show a method we developed by applying the PAP IMI Device - Bio Pulse Generator, for professional football players with ankle sprain, the time of recovery for the injured players is significantly reduced. The method allows the players to come back to their athletic obligations, in a significantly shorter time, which is usually before their next athletic meeting or activity. (Short presentation is given below) INTRODUCTION The ankle arthrosis as well as the knee arthrosis are those that are exposed to the biggest danger in a football match. The reasons, which create sprains of the ankle, are due to the direct contact with the opponent, due to wrong balance during racing on rough surface or even due to a loose arthrosis. Football players usually during their training, but, mainly at the matches, back up their arthrosis with bandage or with self-adhesive elastic bandages using the appropriate fascia. The goal of this research is to reduce the time of return to the match for professional football player that was subject to an automatic second grade sprain or after direct contact with an opponent had a second grade sprain. Sprain is the partial or the full brake of the fiber of one joint and particularly of their outer portions, more specifically at the front portion which is known as the perone ankle joint. It is an injury of resupination, adduction and is mainly due to the anatomy of the foot end, because the internal melleolus is shorter than the exterior melleolus and the arthrosis is less supported during an ectropic (with the foot inwards) injury, forcing the outer sprain to accept all the weight of the load. Fewer times the opposite is happening - ectropia (with the foot outwards) affecting in that way the outer elements of the ankle. The sprains are distinguished according to that gravity of the injury: a) to the first grade or light sprain, b) to the second grade or heavy sprain with full joint rhexis, c) third grade with full rhexis which concerns the medium of the joint, which may have the form of detachment either from the gemma or from the sertion, either with or without osteal fragma. With the rhexis of the conjunction, rhexis of the synovial bursa occurs. Rhexis alone of the peroneal joint of the leg if not treated on time, it may end to instability of the arthrosis. The same is true for the rhexis alone of the outer later jont which can end to relapse sprain of the ankle , which implies astasia of the arthrosis and it may end to possible degenerative arthritis. The active athlete after an injury has to terminate immediately the athletic activity and should undertake medical and radiological check ups in order to determine the gravity of the sprain. Clinically after some hours, the arthrosis is characterized by a huge edema as well as by a huge hematoma. After such injury, intense pain and walking inability occurs. For the second grade of sprain the proposed treatment is as following: Applications of cold compresses for 15-20 minutes at frequent time intervals for the first 48 hours. Functional fasciation with elastic bandages or functional splint, "Air Castle" type, for 8-10 days. Upstream place of the leg. Avoidance of walking and tension of the part. Pharmaceutical treatment with anti-inflammatory and anti-edema medication. At least 10 sessions of physiotherapy treatments after the 5th day which include vortex bath, ultrasound, electrotherapy, massage cryotherapy, reinforcement exercises of the ankle, proprietor exercises. Total time for gradual coming back at the athletic activities is 15-20 days. For our pilot research we finally selected 20 football players who had second grade sprain, either automatic or because of an "opponents’ contact". Clinically the injured players under our study, presented a tense edema and hematoma. The x-rays analysis was negative for fracture. For 3 occasions that was determined necessary they were examined under "static movement" check up, which resulted negative for a fully break of the joint. METHOD The ankle was immobilized with “Air castle splint" and cold compresses were applied for 24 hours. The second 24 hours they received treatments with a PAP-IMI 600P Magnetic Pulser Device. The PAPIMI treatments were twice every morning as well as every evening for 20 minutes’ duration each. The device produces: Complex magnetic induction field as it is shown in the oscillogram with continuously reducing intensity during every complex pulse, with an initial instantaneous peak of 10,000 ampere-turns max, which corresponds to 125 gauss, modulated from oscillations of excited gaseous plasma with PAP- IMI method. The overall duration of every complex pulse is 10 microseconds, repeated every 500ms. The energy at every complex pulse is of the range of 54 Joules. The average potential of the field 2x54 Joules/or 108 watts. The frequency consists of continuous harmony Fourier components from 0.3 MHZ to 250 MHZ. Effective penetration is 15 cm at full potential, reduced proportionally with the third power of the distance. After the treatment, cold compresses were applied for 15 minutes and the functional splint was placed back. The edema was reduced greatly after the second treatment. The football players began light running exercises on the fourth day after the injury, with their splints completely removed. The same day, they started special reinforcement exercises for the ankle. RESULTS 60% of the football players recovered completely the 6th day and returned to their athletic obligations. Recovery reduction time was down to 30%. 30% of the football players recovered the 8th day after the injury. Recovery reduction time was down to 44%. 10 % of the football players were feeling annoyance at the 10th day. In this case, the two players remaining (20x10%=2) recovered the 13th and 14th day accordingly. Recovery reduction time was down to 75%. Pharmaceutical treatment was not given at all. Conclusively: We have proven that the method -by applying the PAP IMI Device - Bio Pulse Generator - for football players with second grade sprain of the ankle, the time of recovery was significantly reduced and allowed the players to come back to their athletic activities in a much shorter time and before the next weekly match. *************** Notice 1. We have distinguished the injuries in four different categories In the first category we distinguished the type of the injury (automatic muscle injury from cicatrices, injury of arthrosis). In the second category we determined the point of trauma to establish whether some parts of the body are more fender. In the third category we distinguished the time periods that the injuries were occurred (preliminary training, climate conditions, tense match obligations) In the fourth category we noted the number of the pathological cases during the match period. The total number of the football players that were included at this research was 68. Due to the longer time of non-participation to local matches during the last summer period, because of the World Championship, there was enough time to most chronic injuries to cure. The time of the preliminary training was prolonged. So the training period was increased smoothly and there were no actual new injuries. For a team that worked less hard at the beginning, giving friendly matches more sprains occurred later during the championship. Notice 2. For teams that had more matches’ participations (championships, links, national obligations) more muscular injuries and knee’s injuries occurred, mainly at the period of the increased matches’ obligations. For a team that is trying to remain at one category and which does not have a permanent area of training, more injuries are observed to occur for the ankle during the rain period when stadiums are usually in bad conditions. Also an increase of automatic muscle injuries occurs after the change of the coach or after the change of the training type.  http://papimiuk.blogspot.com

 

Application Of The PAPIMI Device On Plants - Comparison Results

COMPARISON RESULTS
Exposed Plants with twin Plants Non Exposed
for about 10 minutes exposures every other day

Experiments carried by Nick Vavlis
19, Maggnisias Street, Nea Smyrna, (Athens), Greece, 17121
Tel.: +301-9324370
****
More pictures will be posted as the experiments progress.
****

Sowing Peas Seeds, Day 1

Sowing Peas, X Day after Exposing sowing peas with PAP IMI Probe

Sowing Beans after X Day Exposures Exposing sowing beans with PAP IMI Probe

Sowing Beans, 9 Day 2. After Exposed to PAP IMI and watered with activated water, it grows faster. 1. After Watered with non activated water and not exposed.	Sowing Peas, 14 Day 1. After Exposed to PAP IMI and watered with activated water, it grows faster. 2. After Watered with non activated water and not exposed.
Sowing Peas, 14 day 1. After Exposed to PAP IMI and watered with activated water, it grows faster. 2. After Watered with non activated water and not exposed.	Sowing Beans, 17 day 1. After Exposed to PAP IMI and watered with activated water, it grows faster. 2. After Watered with non activated water and not exposed.
Sowing Peas, 17 Day 1. After Exposed to PAP IMI and watered with activated water, it grows faster. 2. After Watered with non activated water and not exposed.	Sowing Peas, 17 Day 1. After Exposed to PAP IMI and watered with activated water, it grows faster. 2. After Watered with non activated water and not exposed.
Sowing Beans, 17 Day 1. After Exposed to PAP IMI and watered with actvated water, it grows faster. 2. After Watered with non activated water and not exposed.	Sowing Beans, 17 Day 1. After Exposed to PAP IMI and watered with activated water, it grows faster. 2. After Watered with non activated water and not exposed.

CONCLUSION All Plants exposed to PAP IMI pulses grow significantly faster in comparison to twin non exposed plants.

Sowing Beans after one Month

Both plants, exposed (white pot) and non exposed (black pot) developed to about the same size finally after a month, indicating their DNA growth schedule developed the same for both seeds exposed and non exposed. However, the exposed plant grew up much faster, too, as it was indicated in the previous pictures. Nevertheless the new clones of second generation of the exposed plant in the white pot grow significantly taller and faster. Experiments are in progress 14/4/1999

COMPARISON RESULTS
Seeds watered by "activated" pure water
by 5 minutes PAP IMI exposures,
Seeds watered with pure water - not activated.

Activating water in a jar with PAP IMI Probe for watering seeds.	Activating water in a cup with PAP IMI Probe for watering seeds.
Beans 7 Day 1. Watered with Activated water. 2. Watered with Non Activated water.	Beans 7 Day 1. Watered with Non Activated Pure Water. 2. Watered with Activated Pure Water
Lentis 6 Day 1. Watered with Activated Pure Water. Stays clear. 2. Watered with Non Activated Pure Water. Gets rotten.	Hard Wheat 6 Day 1. Watered with Activated Pure Water. It never gets rotten. 2. Watered with Non Activated Pure Water. It gets rotten by the 13th day.
Lentils 27 Day 1. Watered with Non Activated Pure Water. Finally, both seeds develop at the same hight. 2. Watered with Activated Pure Water. Much Harder, slightly taller, and developed much quicker.

Seeds watered with activated pure water grow faster and taller.

Seeds watered with activated water tend to get rotten and to develop parasites, significantly less, compared to the seeds watered with non exposed pure water.

APPLICATION OF THE PAPIMI DEVICE
IN PLANTS.

PAP IMI device has unbelievable results in the growth of plants and seeds. Bibligraphy has references to similar cases in growing of plants using magnetic pulses. The results as well as previous evidences, were not always replicable, and some results failed to work in practical applications. On the contrary the results of the PAP IMI device in plants are replicable and significant, as this is proved in related research by the Agriculture University of Athens. In addition there did not appear any genetic anomalies, toxicity or harm in the exposed plants, on the contrary it proved to be very effective in speeding up the growth of plants, even under unfavorable conditions that did not surpass the expected mainsail growth of the plants. Related results have also been found for three years in succession by the Papnikolau Institute of the Hospital Saint, Savva, in small animals that grew up and multiplied to serial generations, without genetic or other anomalies. The Agriculture University of Athens continues the research on practical application with the PAP IMI device in the grouth of plants and seeds. Related dissertations are the most elaborate cooperation with the Educational and Technologic Institute of Pirea. Below are shown photos of experiments on the grouth of plants and seeds using the PAP IMI device. Each experiment lasts for about 5 minutes to 1 hour.

Source : www.papimi.gr www.papimiuk.blogspot.com