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Re: Why cant we feel RF burns?

Original poster: "Mike" <induction@xxxxxxxxxxx>

Hi Sam,
The RF has quite a deep skin effect depth, also the nerve path being nothing more than a digital one or zero needs time for the sodium pump to get a reset mode back in effect. When you feel "more pain" or when you tell an arm to "lift more"
the nerves which carry this data do not change amplitude beyond on and off, rather the pulse rep rate increases.
Once you go outside of the bandwidth nerves respond to and you are being RF burned, you will get this information (say it is a finger tip) in the form of thermal transfer, you feel heat. Of course as the heat has had a time advantage, your finger tip is already burned and you can now smell this as well.
At some point you may have noticed that if you touch ever so lightly a RF connection, you feel it, yet if you have placed a larger area on it, you do not. The lightly touched case is a result of less area, greater heat per smaller surface area and you react to the heat. Either case, you got nailed, in one, you knew sooner.
RF can be friend and foe; Frequency range is a big player, too.
I work for an induction heating equipment company, servicing or rebuilding for clients or resale.
We had a call from a university looking to buy or lease a MHz machine but wanted to run tests on it first to see if it would do what they wanted. These tests would take 2 days, require one of our technicians to run the trials these 2 days, so we agreed upon charging them the regular in-shop repair rate for the time involved.
Because I had negotiated the call, I got the job of doing the tech work as well.
They had been elsewhere and tried this at 13.56 MHz but things got too warm, 450 kHz did not heat some items well enough, now they wanted to try 2.5 through 8 MHz and we were up at bat.
These were breast cancer researchers doing a feasibility study of injecting nano sized gold particles of various size ranges into a breast cancer tumor, then RF induction heating the tiny gold particles within so that via thermal transfer to the tissues, it would kill the cancer but not burn the patient, if it worked.
When the graduate student I would be working with arrived from the airport by taxi, he had all the items we spoke of on the phone and while we were setting up., I wrote down a few web addresses and links to files, handed the paper to him.
He was a bit confused; I told him that when, not if, when, this experiment did not work, if he was serious about the desired end result go look at www.ukrin.com and read.
Regarding the RF heating, he had DI water as a control, DI water with gold nano particles, Distilled water with and without nano gold particles, normal saline (0.9 percent sodium chloride) with and without gold nano particles. He also had tissue of close to the same fat content as breast tissue.
We were to give each the same time at the same power and frequency in the 5 turn coil around the test tube. Same volumes within each tube per test.
He had a very precision temperature probe used before and after each timed RF exposure, logging all power, frequency and temperature data.
The DI and distilled waters alone did nothing of importance, the gold in each gave very slight heating, the 0.9 percent sodium chloride without gold, for the 30 second run, within a few seconds formed a steam bubble in the base to the test tube of such size and so quickly that it ejected nearly all the liquid out of the test tube. It burped the test tube nearly dry.
We were at ~ 5 MHz, 500 watts output. Later, reducing power, we found that the sodium chloride heated so fast, we could not find the gold heating as measurable. It may well also be the salt was shunting the energy from the gold.
Knowing that the sodium chloride, at exact levels as in our body , heated so much, the tests were doomed but still, we continued to run for data. The fatty tissue also heated to a point it slightly browned at the contact point of the test tube.
To place a field from an induction coil into a tumor at typical depths and heat the gold within to where it needed to be for effect meant a minimum power level, but this minimum power level by far heated the sodium chloride in the tissue and blood to excess.
But, RF is not always a bad thing, if used right. At a frequency within Tesla coil range, 120 kHz, there is some very interesting work going on to help people. Download and read 3288.pdf which describes not an induction usage as above, but a dielectric usage. Between two insulated electrodes and only between the electrodes, accounting that a body thick attenuation of ~ 7 dB
is expected, fast cell growth is disrupted. Not normal cells, just fast cells, like cancer. The e-field need only be ~2.7 volts CM
at the tumor site, after attenuation and at 120,000 Hz. The E-field bends parts of the bad cells as they divide, dooming them to fail. Good reading, well done paper by MD's with EE, pictures included.
Trials now in Europe, next year to the US, getting good results.
So, RF can be bad or it can be good, you just need to know where it will flow.
Mike


----- Original Message ----- From: "Tesla list" <tesla@xxxxxxxxxx>
To: <tesla@xxxxxxxxxx>
Sent: Sunday, September 18, 2005 1:51 PM
Subject: Why cant we feel RF burns?


Original poster: d a <btoc3000@xxxxxxxxxxxx>


I quote this from a website I came across:

Burns: Due to the high frequencies involved, Tesla coils can cause severe burns without the sensation of pain. These burns are typically very deep and need long term medical attention.

Does it mean that RF (because of the high frequencies), can induce the current to flow along the blood vessels without flowing along the membranes. As such, we wont be able to feel the pain because the nerve cells, etc are located along the membranes and not inside any blood vessels...

Is it only RF current can be able to flow in the inner parts of the body without flowing along the membranes (exterior) first? If so, how is that possible? Do we just take it for granted that RF current has this special property of allowing the current to flow in the inner parts w/o any flowing along the exterior?

Thanks
Sam