
Please watch above video and I have more coming. My goal is to give people Empowering information on how to protect, prevent and even reverse coronavirus disease and symptoms.
SARS CoV-2 is the name of the virus. It stands for Severe Acute Respiratory Syndrome (SARS) Coronavirus (CoV) CoV-2 is the virus. The 2 designates that this is the second major SARS virus outbreak. The first was in 2002-2003.
COVID-19 (Coronavirus Disease 2019) is the name of the disease of those infected with the virus.
This is like HIV is the name of the virus and AIDS is the disease. SARS CoV-2 is the name of the virus and COVID-19 is the disease.
It is called Coronavirus because of the way it looks, like a crown on top.
According to what is reported, the new 2019 type of Corona Virus started in an animal market in Wuhan china. The Genome has been sequenced and it appears to have come from a bat or snake by way of a Pangolin animal.
The Corona virus is an RNA virus, which means it replicates via RNA instead of DNA and unfortunately that also means it mutates more easily.
Corona Viruses all over the place and even cause the common cold.
There is a good chance you have been infected with a Corona virus of some sort in your life as they are the second most common cold virus after rhinovirus.
Globally, about 3.4% of reported COVID-19 cases have died. By comparison, seasonal flu generally kills far fewer than 1% of those infected.
The reason is that it is a Novel virus we have no immunity for yet.
SARS CoV-2 is the name of the virus. It stands for Severe Acute Respiratory Syndrome (SARS) Coronavirus (CoV) CoV-2 is the virus. The 2 designates that this is the second major SARS virus outbreak. The first was in 2002-2003.
COVID-19 (Coronavirus Disease 2019) is the name of the disease of those infected with the virus.
This is like HIV is the name of the virus and AIDS is the disease. SARS CoV-2 is the name of the virus and COVID-19 is the disease.
It is called Coronavirus because of the way it looks, like a crown on top.
According to what is reported, the new 2019 type of Corona Virus started in an animal market in Wuhan china. The Genome has been sequenced and it appears to have come from a bat or snake by way of a Pangolin animal.
The Corona virus is an RNA virus, which means it replicates via RNA instead of DNA and unfortunately that also means it mutates more easily.
Corona Viruses all over the place and even cause the common cold.
There is a good chance you have been infected with a Corona virus of some sort in your life as they are the second most common cold virus after rhinovirus.
Globally, about 3.4% of reported COVID-19 cases have died. By comparison, seasonal flu generally kills far fewer than 1% of those infected.
The reason is that it is a Novel virus we have no immunity for yet.
What is unusual about this one is that it is first NEW and as a species we do not have a collective immunity to it. Also because it mutated from an animal it is overall foreign to the human race's immune system. It mutated to contain a protein (S-protein) than can dock on the cells of the human body via the ACE2 receptors. Many animal viruses are not able to infect us because they have no surface proteins that can interact (like lock and key) to our human cell membrane channels.
Also this particular strain of Coronavirus seems to be much more contagious than ANY Coronavirus ever discovered including the 2002-2003 Outbreak.
It remains in the air up to 3 hours and stays alive on most surfaces for days not hours.
It spreads in many ways:
1) Spread by airborne (up to several hours in small droplets- large or small droplets)
2) Close contact especially with those sick.
3) Also Contaminated surfaces. It is very robust and can stay viable for days, not hours!
Similar symptoms to flu but more severe and much more contagious. Not lethal to most healthy people, but elderly and those with secondary illnesses are very vulnerable.
The Incubation period is 2-11 days and this is important, It Can be contagious with no symptoms!
Cold/Flu symptoms, Fever, Cough, Shortness breath (more severe cases).
Risks are highest elderly and people w/ secondary health conditions.
Influenza thousands of deaths... 56,000/year (7-8th leading killer). Also mainly affects elderly and those with comprised immune systems.
Other corona viruses
SARS 2002 - Bats ---> Civets ---> Human
MERS 2012 - Camel ---> Human (ate or drank milt
COVID-19 --- Who did it come from and how is the host
Sequenced RNA --- Match -- close to one in snakes.
Muhan market -- snake? ---Bats?-- pangolns?
About a 3% mortality compared to 11% for SARS and 34% for MERS but it spreads more easily and is much more contagious!
ARDS Acute Respiratory distress Syndrome
ARDS is the final Pathway for morbidity and mortality in the corona virus (and the flu/pneumonia too).
600,000,000 Alveoli
Finger swells when hit finger on wall...
Viral infection
Entire lung because inflamed and large barrier of fluid in interstitial space.. Blocks. Liquid that prevents oxygen from getting into bloodstream.
Become Hypoxic and put on ventilater.
---->Inflammation is what is causing the problem
These membranes become thick and oxygen cannot get in.
Any virus for beating it.
Also this particular strain of Coronavirus seems to be much more contagious than ANY Coronavirus ever discovered including the 2002-2003 Outbreak.
It remains in the air up to 3 hours and stays alive on most surfaces for days not hours.
It spreads in many ways:
1) Spread by airborne (up to several hours in small droplets- large or small droplets)
2) Close contact especially with those sick.
3) Also Contaminated surfaces. It is very robust and can stay viable for days, not hours!
Similar symptoms to flu but more severe and much more contagious. Not lethal to most healthy people, but elderly and those with secondary illnesses are very vulnerable.
The Incubation period is 2-11 days and this is important, It Can be contagious with no symptoms!
Cold/Flu symptoms, Fever, Cough, Shortness breath (more severe cases).
Risks are highest elderly and people w/ secondary health conditions.
Influenza thousands of deaths... 56,000/year (7-8th leading killer). Also mainly affects elderly and those with comprised immune systems.
Other corona viruses
SARS 2002 - Bats ---> Civets ---> Human
MERS 2012 - Camel ---> Human (ate or drank milt
COVID-19 --- Who did it come from and how is the host
Sequenced RNA --- Match -- close to one in snakes.
Muhan market -- snake? ---Bats?-- pangolns?
About a 3% mortality compared to 11% for SARS and 34% for MERS but it spreads more easily and is much more contagious!
ARDS Acute Respiratory distress Syndrome
ARDS is the final Pathway for morbidity and mortality in the corona virus (and the flu/pneumonia too).
600,000,000 Alveoli
Finger swells when hit finger on wall...
Viral infection
Entire lung because inflamed and large barrier of fluid in interstitial space.. Blocks. Liquid that prevents oxygen from getting into bloodstream.
Become Hypoxic and put on ventilater.
---->Inflammation is what is causing the problem
These membranes become thick and oxygen cannot get in.
Any virus for beating it.
Contagious early on before symptoms.
Large #'s of virus in nose and throat.
After 10 days less and less contagious
14 days no longer contagious
Can stay in air 3 hours, cardboard 24 hours, metal and plastic 2-3 days.
Mainly preventing is not touching things, not touching face, social distancing, and wipe and disinfect surfaces.
Large #'s of virus in nose and throat.
After 10 days less and less contagious
14 days no longer contagious
Can stay in air 3 hours, cardboard 24 hours, metal and plastic 2-3 days.
Mainly preventing is not touching things, not touching face, social distancing, and wipe and disinfect surfaces.

PEMF Helps to Re-establish the biological Terrain
"Bernard was correct. I was wrong. The microbe (germ) is nothing. The terrain (milieu) is everything." - Louis Pasteur on his deathbed.
Just like healthy plants require a healthy soil or terrain, so too, the cells in our body need certain need a healthy milieu, terrain or soil to thrive. Only in the case of our 100 trillion cells, the soil is primarily fluid based.
The quality of our health is dependent on the quality of the health of our cells and the health of the cells is dependent on the health of your terrain or internal fluidic "soil".
In stark contrast to Louis Pasteur’s germ theory of disease, the Biological terrain model is very empowering in that it no longer makes us a victim to germs (just as we saw we are no longer a victim to our genetics). Disease does not come from “out there” outside of us, but is created within, as is our health. Creating a healthy terrain is basically what we have been preaching in this book; give yourself all the elements the body needs: organic whole foods, clean and energized water, sunlight, oxygen, and the earth’s PEMFs (and minimizing toxicity).
The theories of Bernard and Bechamp totally reverse our understanding of disease, by shifting the focus to the terrain within us, and not some microbe outside of us.
"Bernard was correct. I was wrong. The microbe (germ) is nothing. The terrain (milieu) is everything." - Louis Pasteur on his deathbed.
Just like healthy plants require a healthy soil or terrain, so too, the cells in our body need certain need a healthy milieu, terrain or soil to thrive. Only in the case of our 100 trillion cells, the soil is primarily fluid based.
The quality of our health is dependent on the quality of the health of our cells and the health of the cells is dependent on the health of your terrain or internal fluidic "soil".
In stark contrast to Louis Pasteur’s germ theory of disease, the Biological terrain model is very empowering in that it no longer makes us a victim to germs (just as we saw we are no longer a victim to our genetics). Disease does not come from “out there” outside of us, but is created within, as is our health. Creating a healthy terrain is basically what we have been preaching in this book; give yourself all the elements the body needs: organic whole foods, clean and energized water, sunlight, oxygen, and the earth’s PEMFs (and minimizing toxicity).
The theories of Bernard and Bechamp totally reverse our understanding of disease, by shifting the focus to the terrain within us, and not some microbe outside of us.
9 Ways PEMF Improves Biological Terrain & Enhances Immunity!
#1 - Increase Microcirculation - KEY (Blood and Lymph)
#2 - Increase Cellular Voltage (shields up) & ATP
#3 - Enhances Respiration and Increases Oxygen
#4 - Helps to Detox the Body / Clean the Tank
#5 - PEMF Reduces Stress & Improves Sleep
#6 - PEMF Reduces Inflammation
#7 - PEMF Increases # of Immune Cells
#8 - PEMF Enhances Immunity in Many Ways
#9 - PEMF helps with Cell to Cell Communication
#1 - Increase Microcirculation - KEY (Blood and Lymph)
#2 - Increase Cellular Voltage (shields up) & ATP
#3 - Enhances Respiration and Increases Oxygen
#4 - Helps to Detox the Body / Clean the Tank
#5 - PEMF Reduces Stress & Improves Sleep
#6 - PEMF Reduces Inflammation
#7 - PEMF Increases # of Immune Cells
#8 - PEMF Enhances Immunity in Many Ways
#9 - PEMF helps with Cell to Cell Communication
PART 1 - Molecular biology primer - Normal
1) DNA and Replication -
Every cell has a nucleus and 46 chromosomes composed of DNA which is the blueprint for the entire body. The DNA nucleotides contain the code for 20,000+ different proteins that make up a lot of the structure and function of your body.
DNA is a double helix string of 2 nucleotides. The string of nucleotides tells you what your protein is going to be when you are done.
ATCG are the letters that are used as a code that will be translated into proteins.
Base pairs... If one side is A, other side is binding to a T. If one side there is a C, the other side there is a G. Nucleotides one less Oxygen, hence Deoxyribonucleic acid.
DNA Replicates itself to pass genetic information from one cell to another ( somatic cells divides via mitosis) and from one generation to the next (germ cells).
2) RNA and Transcription
Cytoplasm is rest of the cell outside the nucleus, and instead of DNA, we use RNA. Same as DNA except U instead of T and #2 there is an oxygen. Also, RNA also single stranded. Same language of nucleotides. Nucleotides create the code. DNA is master blueprint.
DNA opens up 5' and 3' ... Enzyme RNA polymerase... Enzyme that polymerizes RNA together.
Makes a long string of RNA. Not a change of language of the code, that is a transcription of the code. We are photocopying.
Code is always kept the same , cannot go from RNA to DNA (dogma)... One way street.
Something happens to RNA... They put a cap on the 5' end to protect it. And also is what we know as a poly AAA tail. This is messenger RNA because it is sending a message out into the cytoplasm as to what needs to happen next.
3) Amino Acids, Proteins and Translation
mRNA It is single stranded because it is ready to be translated.. Translation means we are switching to a new language from the language of nucleotides to the language of protein, polypeptides or amino acids.
What happens is you get a Ribosome.. And a Ribosome, top and bottom and some spaces for another kind of RNA to come in ... tRNA
Many types of tRNAs and what are bound to it is a different type of amino acid.
Codon = 3 base pairs that codes for an amino acid.
20 different amino acids... Than whole structure moves down 3 codons.
End process of this is a long polypeptides or protein that comes out of the ribosomes.
4) Assembly in Endoplasmic Reticulum and Golgi Apparatus
Proteins do everything in the cell. Over 100,000 different proteins in the body. Common ones include Enzymes, Neuropeptides, Collagen, Actin/Myosin and Hemoglobin. Also proteins in cell surface.
1) DNA and Replication -
Every cell has a nucleus and 46 chromosomes composed of DNA which is the blueprint for the entire body. The DNA nucleotides contain the code for 20,000+ different proteins that make up a lot of the structure and function of your body.
DNA is a double helix string of 2 nucleotides. The string of nucleotides tells you what your protein is going to be when you are done.
ATCG are the letters that are used as a code that will be translated into proteins.
Base pairs... If one side is A, other side is binding to a T. If one side there is a C, the other side there is a G. Nucleotides one less Oxygen, hence Deoxyribonucleic acid.
DNA Replicates itself to pass genetic information from one cell to another ( somatic cells divides via mitosis) and from one generation to the next (germ cells).
2) RNA and Transcription
Cytoplasm is rest of the cell outside the nucleus, and instead of DNA, we use RNA. Same as DNA except U instead of T and #2 there is an oxygen. Also, RNA also single stranded. Same language of nucleotides. Nucleotides create the code. DNA is master blueprint.
DNA opens up 5' and 3' ... Enzyme RNA polymerase... Enzyme that polymerizes RNA together.
Makes a long string of RNA. Not a change of language of the code, that is a transcription of the code. We are photocopying.
Code is always kept the same , cannot go from RNA to DNA (dogma)... One way street.
Something happens to RNA... They put a cap on the 5' end to protect it. And also is what we know as a poly AAA tail. This is messenger RNA because it is sending a message out into the cytoplasm as to what needs to happen next.
3) Amino Acids, Proteins and Translation
mRNA It is single stranded because it is ready to be translated.. Translation means we are switching to a new language from the language of nucleotides to the language of protein, polypeptides or amino acids.
What happens is you get a Ribosome.. And a Ribosome, top and bottom and some spaces for another kind of RNA to come in ... tRNA
Many types of tRNAs and what are bound to it is a different type of amino acid.
Codon = 3 base pairs that codes for an amino acid.
20 different amino acids... Than whole structure moves down 3 codons.
End process of this is a long polypeptides or protein that comes out of the ribosomes.
4) Assembly in Endoplasmic Reticulum and Golgi Apparatus
Proteins do everything in the cell. Over 100,000 different proteins in the body. Common ones include Enzymes, Neuropeptides, Collagen, Actin/Myosin and Hemoglobin. Also proteins in cell surface.
PART 2 - Molecular biology primer - Infected with SARS CoV-2
Viruses use all of this to make more viruses... viruses have proteins inside
Golgi Apparatus, Endoplasmic Reticulum.
Virus takes over machinery of the cell. It takes over transcription, translation.
It takes over use of the Golgi apparatus and Rough endoplasmic reticulum.
While we make 100,000s proteins, virus has one goal... make more viruses!!
Viruses use all of this to make more viruses... viruses have proteins inside
Golgi Apparatus, Endoplasmic Reticulum.
Virus takes over machinery of the cell. It takes over transcription, translation.
It takes over use of the Golgi apparatus and Rough endoplasmic reticulum.
While we make 100,000s proteins, virus has one goal... make more viruses!!
SARS-CoV, severe acute respiratory syndrome coronavirus; S, spike; E, envelope; M, membrane; N, nucleocapsid.
In the respiratory tract, ACE2 is widely expressed on the epithelial cells of alveoli, trachea, bronchi - Mainly the lower respiratory tract . The virus enters and replicates in these target cells.
1. ENTRY via ACE2 - SARS-CoV2 enter target cells through an endosomal pathway. The S proteins of SARS bind to cellular receptor angiotensin-converting enzyme 2 (ACE2).
2. Release of RNA genome in Cytoplasm - Following entry of the virus into the host cell, the viral RNA is unveiled in the cytoplasm. It has a 5' Cap and Poly AAA tail and ready for immediate Translation.
3. Translation of RNA to produce Replicase Enzyme - ORF1a and ORF1ab are translated to produce pp1a and pp1ab polyproteins, which are cleaved by the proteases that are encoded by ORF1a to yield 16 non-structural proteins that form the RNA replicase–transcriptase complex.
4. RNA Replication with Replicase -This complex drives the production of negative-sense RNAs [(−) RNA] through both replication and transcription. During replication, full-length (−) RNA copies of the genome are produced and used as templates for full-length (+) RNA genomes.
5. RNA Transcription with Replicase - During transcription, a subset of 7–9 sub-genomic RNAs, including those encoding all structural proteins, is produced through discontinuous transcription.
6. Translation of Viral Structural Proteins - Although the different sub-genomic mRNAs may contain several open reading frames (ORFs), only the first ORF (that closest to the 5′ end) is translated.
7. Assembly of Viral nucleocapsids are assembled from genomic RNA and N protein in the cytoplasm, followed by budding into the lumen of the ERGIC (endoplasmic reticulum (ER)–Golgi intermediate compartment).
8. Release - Virions are then released from the infected cell through exocytosis.
The mature virions are then released from primary cells and infect new target cells. One can enter the body and millions can leave.
In the respiratory tract, ACE2 is widely expressed on the epithelial cells of alveoli, trachea, bronchi - Mainly the lower respiratory tract . The virus enters and replicates in these target cells.
1. ENTRY via ACE2 - SARS-CoV2 enter target cells through an endosomal pathway. The S proteins of SARS bind to cellular receptor angiotensin-converting enzyme 2 (ACE2).
2. Release of RNA genome in Cytoplasm - Following entry of the virus into the host cell, the viral RNA is unveiled in the cytoplasm. It has a 5' Cap and Poly AAA tail and ready for immediate Translation.
3. Translation of RNA to produce Replicase Enzyme - ORF1a and ORF1ab are translated to produce pp1a and pp1ab polyproteins, which are cleaved by the proteases that are encoded by ORF1a to yield 16 non-structural proteins that form the RNA replicase–transcriptase complex.
4. RNA Replication with Replicase -This complex drives the production of negative-sense RNAs [(−) RNA] through both replication and transcription. During replication, full-length (−) RNA copies of the genome are produced and used as templates for full-length (+) RNA genomes.
5. RNA Transcription with Replicase - During transcription, a subset of 7–9 sub-genomic RNAs, including those encoding all structural proteins, is produced through discontinuous transcription.
6. Translation of Viral Structural Proteins - Although the different sub-genomic mRNAs may contain several open reading frames (ORFs), only the first ORF (that closest to the 5′ end) is translated.
7. Assembly of Viral nucleocapsids are assembled from genomic RNA and N protein in the cytoplasm, followed by budding into the lumen of the ERGIC (endoplasmic reticulum (ER)–Golgi intermediate compartment).
8. Release - Virions are then released from the infected cell through exocytosis.
The mature virions are then released from primary cells and infect new target cells. One can enter the body and millions can leave.
One Virus can enter the body and millions can leave!
The coronavirus that’s causing a global pandemic (orange) is shown emerging from a cell (gray). The virus can grow easily in people’s noses and throats and may be transmitted before people are aware they are sick, a new study suggests.
Consider There are 600 Million Alveoli each with dozens of pneuomocyte cells.
Picture below is ONE CELL with 40 SARS-CoV2 being released!
The coronavirus that’s causing a global pandemic (orange) is shown emerging from a cell (gray). The virus can grow easily in people’s noses and throats and may be transmitted before people are aware they are sick, a new study suggests.
Consider There are 600 Million Alveoli each with dozens of pneuomocyte cells.
Picture below is ONE CELL with 40 SARS-CoV2 being released!
How can we stop this replication (virus multiplication) with PEMF?
There are TWO fundamental research proven ways at the cell level where it all starts. This is deeper than your immune response or other body-wide defenses.
What I am talking about here is STOPPING the virus from replicating with PEMF.
There are TWO fundamental research proven ways at the cell level where it all starts. This is deeper than your immune response or other body-wide defenses.
What I am talking about here is STOPPING the virus from replicating with PEMF.
1. Shields Up - PEMF helps prevent Virus Injection
PEMF helps to increase cellular resistance to virus injections. This means the viruses cannot penetrate INTO the cells!! Cellular voltage.
Also production of substances that markedly suppress virus infections when transmitted to unexposed cells. The virus suppressor substances induced by the magnetic field which are important in the regulation of virus replication!
Nonspecific natural inhibitors of viruses, including interferon, can be detected in fluid, tissues and cells in vivo and in vitro after induction by biological and chemical substances. Cellular resistance to virus injections in cultures of animal and human cells exposed to PEMFs and the production and characterization of antivirus substances induced by these exposures were studied.
After PEMF exposure, (1) a state of significant cellular resistance to virus challenge by 4 common viruses - Adenovirus type 5, herpesvirus type 1, coxsackievirus B3 and vesicular stomatitis virus and
(2) the production of substances that markedly suppress virus infections when transferred to unexposed cells. The virus suppressor substances induced by the PEMF field are neither virus- nor species specific, are not apparently interferon-like, and are important in the regulation of virus infection!
Winters, W.D., J.L. Brune, & B. Darnell, Virus inhibitor induction in cultured cells by in vitro 60 hertz alternating current magnetic field exposure, Proceedings of the American Association for Cancer Research Annual Meeting, 27:431, 1986
PEMF helps to increase cellular resistance to virus injections. This means the viruses cannot penetrate INTO the cells!! Cellular voltage.
Also production of substances that markedly suppress virus infections when transmitted to unexposed cells. The virus suppressor substances induced by the magnetic field which are important in the regulation of virus replication!
Nonspecific natural inhibitors of viruses, including interferon, can be detected in fluid, tissues and cells in vivo and in vitro after induction by biological and chemical substances. Cellular resistance to virus injections in cultures of animal and human cells exposed to PEMFs and the production and characterization of antivirus substances induced by these exposures were studied.
After PEMF exposure, (1) a state of significant cellular resistance to virus challenge by 4 common viruses - Adenovirus type 5, herpesvirus type 1, coxsackievirus B3 and vesicular stomatitis virus and
(2) the production of substances that markedly suppress virus infections when transferred to unexposed cells. The virus suppressor substances induced by the PEMF field are neither virus- nor species specific, are not apparently interferon-like, and are important in the regulation of virus infection!
Winters, W.D., J.L. Brune, & B. Darnell, Virus inhibitor induction in cultured cells by in vitro 60 hertz alternating current magnetic field exposure, Proceedings of the American Association for Cancer Research Annual Meeting, 27:431, 1986
Dr. Otto Warburg and Cellular Voltage
According to Nobel Prize Laureate, Dr. Otto Warburg, cells maintain a voltage across their membrane, which is analogous to the voltage of a battery (called transmembrane potential or TMP- trans "across & potential in physics is "voltage") . He found that healthy cells have a measureable voltage from 70- 100 millivolts, with the heart cells having the highest (upwards to 90-100 millivolts). Along with ATP, the TMP is one of the primary ways the body stores energy... and ENERGY = HEALTH!
Dr. Warburg found that due to the constant stress of modern life along with a toxic environment and the aging process, cellular voltage drops (along with many other factors when have been addressing in this course). People with chronic illnesses and chronic fatigue unilaterally had a diminished cellular voltage (30-50 millivolts). Cancer patients displayed the lowest voltage at less than 15-20 millivolts. Ever wonder why there is no heart cancer? The reason is because the heart cells have the highest voltage of any cells in the body. Think about that!
Jerry Tenant MD wrote a book called “Healing is Voltage” In his book he explains that injured / damaged cells require 2x more energy to repair.
So you see, health is literally an energy game at the “CELL”-ULAR level. There truly are no exceptions to this rule; if your cells have energy you are healthy, if not, you get sick. As the graph in figure 21 shows, if we can keep our cellular voltage charged in the healthy range, we can radically extend our lifespan. This is why PEMF therapy devices are one of the most powerful and effective anti-aging tools available today!
According to Nobel Prize Laureate, Dr. Otto Warburg, cells maintain a voltage across their membrane, which is analogous to the voltage of a battery (called transmembrane potential or TMP- trans "across & potential in physics is "voltage") . He found that healthy cells have a measureable voltage from 70- 100 millivolts, with the heart cells having the highest (upwards to 90-100 millivolts). Along with ATP, the TMP is one of the primary ways the body stores energy... and ENERGY = HEALTH!
Dr. Warburg found that due to the constant stress of modern life along with a toxic environment and the aging process, cellular voltage drops (along with many other factors when have been addressing in this course). People with chronic illnesses and chronic fatigue unilaterally had a diminished cellular voltage (30-50 millivolts). Cancer patients displayed the lowest voltage at less than 15-20 millivolts. Ever wonder why there is no heart cancer? The reason is because the heart cells have the highest voltage of any cells in the body. Think about that!
Jerry Tenant MD wrote a book called “Healing is Voltage” In his book he explains that injured / damaged cells require 2x more energy to repair.
So you see, health is literally an energy game at the “CELL”-ULAR level. There truly are no exceptions to this rule; if your cells have energy you are healthy, if not, you get sick. As the graph in figure 21 shows, if we can keep our cellular voltage charged in the healthy range, we can radically extend our lifespan. This is why PEMF therapy devices are one of the most powerful and effective anti-aging tools available today!

So how does PEMF recharge the voltage of your cells and increase TMP.
As you sweep magnetic fields back and forth across the cell membrane at the proper resonant frequencies (0-50 Hz), they generate a whole lot of activity in the cell via induced EMF and resonant energy transfer. (more on resonance in the next module).
3 Ways PEMF Helps
1) Through Faraday's Induction, PEMF generates an EMF or electromotive force that helps drive Sodium out and Potassium in Unidirectionally. This conserves the body's Precious ATP.
2) PEMF helps to OPEN the membrane channels via electroporation to allow charges to move more easily.
3) PEMF increases ATP production directly by enhancing mitochondrial functioning and ATP-ase activities.
Stored Energy is Coherent Energy that life can will into action when needed. Increasing our TMP while conserving ATP might just be one of the MAIN BENEFITS OF PEMF THERAPY!!!
As you sweep magnetic fields back and forth across the cell membrane at the proper resonant frequencies (0-50 Hz), they generate a whole lot of activity in the cell via induced EMF and resonant energy transfer. (more on resonance in the next module).
3 Ways PEMF Helps
1) Through Faraday's Induction, PEMF generates an EMF or electromotive force that helps drive Sodium out and Potassium in Unidirectionally. This conserves the body's Precious ATP.
2) PEMF helps to OPEN the membrane channels via electroporation to allow charges to move more easily.
3) PEMF increases ATP production directly by enhancing mitochondrial functioning and ATP-ase activities.
Stored Energy is Coherent Energy that life can will into action when needed. Increasing our TMP while conserving ATP might just be one of the MAIN BENEFITS OF PEMF THERAPY!!!
PEMF Therapy Stimulates ATP synthesis
Important to our consideration of energy medicine is the fact that ATP synthesis by mitochondria is increased by exposure to weak pulsating magnetic fields that are delivered within certain biological windows. Pulsating magnetic fields do this by increasing ATPase activity. (Blank 1995/50, Lednev 2001/51) ATP synthesis is also increased by electro- magnetic signaling of the cell membrane to open the ion pumps. The increased ATP synthesis continues for a time even after the ion pumps become inactive. (Dertinger/52)
Blank M. Electric and magnetic field signal transduction in the membrane Na-K ATPase. Adv Chem 1995b;
250:339–348.“
Bbbb Lednev, V. V., & Malyshev, S. L. (2001). Effects of weak combined magnetic fields on actin-activated ATPase activity of skeletalmyosin. In Abstract Collection of the Bioelectromagnetics Society Annual Meeting. St Paul, Minnesota, USA, p. 3–4.
Important to our consideration of energy medicine is the fact that ATP synthesis by mitochondria is increased by exposure to weak pulsating magnetic fields that are delivered within certain biological windows. Pulsating magnetic fields do this by increasing ATPase activity. (Blank 1995/50, Lednev 2001/51) ATP synthesis is also increased by electro- magnetic signaling of the cell membrane to open the ion pumps. The increased ATP synthesis continues for a time even after the ion pumps become inactive. (Dertinger/52)
Blank M. Electric and magnetic field signal transduction in the membrane Na-K ATPase. Adv Chem 1995b;
250:339–348.“
Bbbb Lednev, V. V., & Malyshev, S. L. (2001). Effects of weak combined magnetic fields on actin-activated ATPase activity of skeletalmyosin. In Abstract Collection of the Bioelectromagnetics Society Annual Meeting. St Paul, Minnesota, USA, p. 3–4.
2) PEMF Disrupts Virus/Virion Replication
Viruses
Just as with some bacteria, viruses can also cause chronic inflammation of joints and organs. A PEMF applied to herpes virus infected cells did not affect the growth and viability of the cells. However, the viruses developing under PEMF exposure had mainly defective viral particles. This would give the PEMF an opportunity to heal the tissue, while potentially rendering the virus less active.
By contrast, PEMF exposed stimulated cells showed numerous intranuclear incomplete viral particles (Fig. 2D,E) and almost no particles in the cytoplasm or budding from the cell membrane, mimicking a condition of defective virus maturation and/or secretion.
Viruses
Just as with some bacteria, viruses can also cause chronic inflammation of joints and organs. A PEMF applied to herpes virus infected cells did not affect the growth and viability of the cells. However, the viruses developing under PEMF exposure had mainly defective viral particles. This would give the PEMF an opportunity to heal the tissue, while potentially rendering the virus less active.
By contrast, PEMF exposed stimulated cells showed numerous intranuclear incomplete viral particles (Fig. 2D,E) and almost no particles in the cytoplasm or budding from the cell membrane, mimicking a condition of defective virus maturation and/or secretion.
A possible explanation is that the occurrence of cell membrane modifications, which have been previously associated with PEMF exposure [Manni et al., 2002], may interfere with the late phases of virus maturation within infected cells. As a consequence, the increase of cell-free KSHV (Herpes) DNA observed in PEMF exposed cultures may be due to the release of incomplete viral particles in the extracellular medium following cell lysis. Consistently, many incomplete virions bound to the nuclear chromatin or to cellular debris of lysing cells were observed almost exclusively in PEMF exposed cultures (Fig. 2F–H).
PEMF applied to Virus infected cells affected viral replication with resulting defective viral particles. This renders the virus less active and helps the body to heal!
Pica F, Serafino A, Divizia M. Effect of extremely low frequency electromagnetic fields on Kaposi's sarcoma-associated herpes virus in BCBL-1 cells. Bioelectromagnetics. 2006 Apr; 27(3): 226-32.
PEMF applied to Virus infected cells affected viral replication with resulting defective viral particles. This renders the virus less active and helps the body to heal!
Pica F, Serafino A, Divizia M. Effect of extremely low frequency electromagnetic fields on Kaposi's sarcoma-associated herpes virus in BCBL-1 cells. Bioelectromagnetics. 2006 Apr; 27(3): 226-32.
Dr David Price of Cornell Medical Center
Reproductive Number
R0 refers to the average number of people that one sick person goes on to infect, among a group that has no immunity to the virus. Coronavirus is 2-2.5 (flu is 1).
Aerosolized Particles (3 hours) vs Respiratory Droplets - 20 times larger and travel up to 6 feet but fall right away on surfaces. 3 days on plastic and steel ... Cardboard 24 hours but porous so not to worry about delivery.
Most common mode of transmission is coming in contact with respiratory droplets. This occurs when they are “either coughed into the hands or onto a high-touch surface, and then transferred by the hand to the nose or mouth” of the recipient.
From Chinese and New York Hospitals reports that very small percentage of transmission is airborne or it would be much worse!
Asymptomatic can spread 1-2 days.
Incubation period 2-14 days ... so between 2 and 14 days you are spreading disease to the environment.
couple days if heavy viral load up to 14 days if mild
Usually if you are ok after 14 days you are OK!
This is not a disease of old people ... hits everyone ages 15-100
Younger less likely, older more likely.
If you catch
3-5 Days of feeling like shit than usually better day 7
Symptoms:
Main 3:
1) Fever - 100 degrees at least
2) Cough- Dry Cough from Lungs... Feel irritation/inflammation
3) Shortness of Breathe/Trouble Breathing (worst!)
and trouble breathing/shortness breathe (10%). bluish lips/face
Pressure or pain in chest
Can feel like drowning.
4) Body aches, headache
5) Sore Throat
6) Diarrhea and GI tract issues
7) runny nose
Unusual Symptoms
7) anosmia-(e-noz-mia) Losing taste and Smell could be an early sign - Self quarantine!
8) Conjunctivitis (1-3% in China)- Contacts - Switch to Glasses to Spread
Shortness of breathe is only reason you need to go to hospital.
Fever Stay home... Muscle aches stay home... Runny nose/sore throat stay home.
10% get shortness of breathe. 1-3% of those need to go to ICU
Vast Majority of Those that need a ventilator come off in 7-10 days.
Coronavirus is a wimp, it dies as soon as you disinfect it.
Learn the rules - It's empowering!!
External and Internal Protection
Reproductive Number
R0 refers to the average number of people that one sick person goes on to infect, among a group that has no immunity to the virus. Coronavirus is 2-2.5 (flu is 1).
Aerosolized Particles (3 hours) vs Respiratory Droplets - 20 times larger and travel up to 6 feet but fall right away on surfaces. 3 days on plastic and steel ... Cardboard 24 hours but porous so not to worry about delivery.
Most common mode of transmission is coming in contact with respiratory droplets. This occurs when they are “either coughed into the hands or onto a high-touch surface, and then transferred by the hand to the nose or mouth” of the recipient.
From Chinese and New York Hospitals reports that very small percentage of transmission is airborne or it would be much worse!
Asymptomatic can spread 1-2 days.
Incubation period 2-14 days ... so between 2 and 14 days you are spreading disease to the environment.
couple days if heavy viral load up to 14 days if mild
Usually if you are ok after 14 days you are OK!
This is not a disease of old people ... hits everyone ages 15-100
Younger less likely, older more likely.
If you catch
3-5 Days of feeling like shit than usually better day 7
Symptoms:
Main 3:
1) Fever - 100 degrees at least
2) Cough- Dry Cough from Lungs... Feel irritation/inflammation
3) Shortness of Breathe/Trouble Breathing (worst!)
and trouble breathing/shortness breathe (10%). bluish lips/face
Pressure or pain in chest
Can feel like drowning.
4) Body aches, headache
5) Sore Throat
6) Diarrhea and GI tract issues
7) runny nose
Unusual Symptoms
7) anosmia-(e-noz-mia) Losing taste and Smell could be an early sign - Self quarantine!
8) Conjunctivitis (1-3% in China)- Contacts - Switch to Glasses to Spread
Shortness of breathe is only reason you need to go to hospital.
Fever Stay home... Muscle aches stay home... Runny nose/sore throat stay home.
10% get shortness of breathe. 1-3% of those need to go to ICU
Vast Majority of Those that need a ventilator come off in 7-10 days.
Coronavirus is a wimp, it dies as soon as you disinfect it.
Learn the rules - It's empowering!!
External and Internal Protection
I. External/ DEFENSE
1) Wash Hands Frequently - every 20 Minutes for 20 seconds (after bathroom, public transportation, grocery, gym, pharmacy/hospital). Regular Soap works wonders. Or Hand sanitizer 60% alcohol. Purell is good.
2) Cough Ettiquette. Do not cough into your hands! Cough into tissue or elbow/upper sleeve... NEVER YOUR HANDS, and not into the air! Make sure to cover BOTH mouth and nose!
3) Avoid touching things as much as possible... Use elbow elevator
4) Avoid touching face - use mask to help and send message to others. Wearing a mask when you go out mainly helps prevent face touching and sending message to others to take this disease seriously. Do not need N95 mask.
5) Practice Radical Social Distancing (at least 6 feet)
6) Stay Home if you have symptoms Self Quarantine if symptoms
7) Be careful who you let in your house/car
8) Clean surfaces with disinfectant. Wash metallic surfaces very carefully... Be vigilant about NOT touching doors and handrails, etc.
9) Breathe through Nose and mask
10) Virus attaches itself to hair and clothes. Fabric 6-12 hours.
When you go out for groceries, leave shoes at the door, immediately take clothes to the washer and then immediately take a shower. Do not sit down or walk into the house with shoes on.
If you cannot wash clothes daily, hang them in sunlight which neutralizes virus.
Need to practice social distancing and these hygiene practices a least 3-9 months
1) Wash Hands Frequently - every 20 Minutes for 20 seconds (after bathroom, public transportation, grocery, gym, pharmacy/hospital). Regular Soap works wonders. Or Hand sanitizer 60% alcohol. Purell is good.
2) Cough Ettiquette. Do not cough into your hands! Cough into tissue or elbow/upper sleeve... NEVER YOUR HANDS, and not into the air! Make sure to cover BOTH mouth and nose!
3) Avoid touching things as much as possible... Use elbow elevator
4) Avoid touching face - use mask to help and send message to others. Wearing a mask when you go out mainly helps prevent face touching and sending message to others to take this disease seriously. Do not need N95 mask.
5) Practice Radical Social Distancing (at least 6 feet)
6) Stay Home if you have symptoms Self Quarantine if symptoms
7) Be careful who you let in your house/car
8) Clean surfaces with disinfectant. Wash metallic surfaces very carefully... Be vigilant about NOT touching doors and handrails, etc.
9) Breathe through Nose and mask
10) Virus attaches itself to hair and clothes. Fabric 6-12 hours.
When you go out for groceries, leave shoes at the door, immediately take clothes to the washer and then immediately take a shower. Do not sit down or walk into the house with shoes on.
If you cannot wash clothes daily, hang them in sunlight which neutralizes virus.
Need to practice social distancing and these hygiene practices a least 3-9 months

II. Internal / OFFENSE
1) Drink Plenty of Spring Water and herbal teas. Hydration is so important!
Sip hot tea and warm water throughout the day, helps to wash virus into stomach and gastric juices neutralize before it can get into lungs.
2) Eat Clean Plant Based Foods and Soups (easy to digest)
3) Take Immune Boosting Herbs - ginger, astragalus, Echinacea, Vitamin C (at least 4-7.5 grams a day if you feel symptoms come on, D3, tumeric, Propolis Inhaler (Klinghardt). Zinc picolinate.
4) Gargle with salt water in warm water or better yet, propolis
5) Get Plenty of Rest
6) Get Plenty of Sunlight and spend time outdoors (fresh air = better immunity)
Vitamin D3 increases Immunity... Best if from the Sun.
Coronavirus hates the SUN!!
7) Stay relaxed and Manage stress. Stay Positive! Fear Weakens Immune System, be positive and use power of placebo and not nocebo.
8) Move your lymph - Practice Skin Brushing, Rebounding, WBV
9) Use Sauna Therapy/ Red Light Therapy -133 degrees kill temp
10) Walk Barefoot/Antinflammatory, electrons
11) Breathe through nose, Use Sleep Tape. Air Purifier. Don't smoke.
12) Take a Good Probiotic, your gut is a major layer of the immune system
13) Avoid 5G and Minimize Electrosmog as it weakens the immune system.
14) Mastet Light - Full Spec Light in Day / Low Blue Light at Night.
20) USE PEMF 2-3x a Day
Settings and application
For immune support, use the whole body mat applicator 1-3 times per day for 8-16 minutes. Initial intensity settings should be 25-50 for morning applications, and 10 at night. Intensities in the morning and at midday can increase to 50-150 as tolerated. The pad applicator can be used over the chest at a setting of 50-150 for eight minutes twice daily.
Study Showing that Zinc Interrupts SARS
https://www.ncbi.nlm.nih.gov/pubmed/21079686
Zinc Picolinate Study
https://www.ncbi.nlm.nih.gov/pubmed/3630857
1) Drink Plenty of Spring Water and herbal teas. Hydration is so important!
Sip hot tea and warm water throughout the day, helps to wash virus into stomach and gastric juices neutralize before it can get into lungs.
2) Eat Clean Plant Based Foods and Soups (easy to digest)
3) Take Immune Boosting Herbs - ginger, astragalus, Echinacea, Vitamin C (at least 4-7.5 grams a day if you feel symptoms come on, D3, tumeric, Propolis Inhaler (Klinghardt). Zinc picolinate.
4) Gargle with salt water in warm water or better yet, propolis
5) Get Plenty of Rest
6) Get Plenty of Sunlight and spend time outdoors (fresh air = better immunity)
Vitamin D3 increases Immunity... Best if from the Sun.
Coronavirus hates the SUN!!
7) Stay relaxed and Manage stress. Stay Positive! Fear Weakens Immune System, be positive and use power of placebo and not nocebo.
8) Move your lymph - Practice Skin Brushing, Rebounding, WBV
9) Use Sauna Therapy/ Red Light Therapy -133 degrees kill temp
10) Walk Barefoot/Antinflammatory, electrons
11) Breathe through nose, Use Sleep Tape. Air Purifier. Don't smoke.
12) Take a Good Probiotic, your gut is a major layer of the immune system
13) Avoid 5G and Minimize Electrosmog as it weakens the immune system.
14) Mastet Light - Full Spec Light in Day / Low Blue Light at Night.
20) USE PEMF 2-3x a Day
Settings and application
For immune support, use the whole body mat applicator 1-3 times per day for 8-16 minutes. Initial intensity settings should be 25-50 for morning applications, and 10 at night. Intensities in the morning and at midday can increase to 50-150 as tolerated. The pad applicator can be used over the chest at a setting of 50-150 for eight minutes twice daily.
Study Showing that Zinc Interrupts SARS
https://www.ncbi.nlm.nih.gov/pubmed/21079686
Zinc Picolinate Study
https://www.ncbi.nlm.nih.gov/pubmed/3630857

**Aside Importance of Handwashing
Ignaz Philipp Semmelweis was a Hungarian physician and scientist, now known as an early pioneer of antiseptic procedures. Described as the "saviour of mothers", Semmelweis discovered that the incidence of puerperal fever could be drastically cut by the use of hand disinfection in obstetrical clinics.
When Semmelweis proposed that obstetricians wash their hands before delivering babies, the idea was considered preposterous. He was in effect introducing a new and invisible factor at working in healing, which today we call infection. At the time, however, the theory of an infectious disease did not exist. So Semmelweis did a simple experiment to prove his point. For a year the midwives on one obstetrical ward washed their hands, and the obstetricians on another ward did not. On the hand washing ward mortality from childbirth fever declined by 1000%. But, alas, the data made no difference. Skeptical physicians still would not accept the conclusion that there was a lethal factor lurking on the hospital wards that they were helping to spread and that could be controlled by washing one's hands. Semmelweis was regarded a troublemaker and was vilified. He fled Vienna for Budapest and eventually committed suicide as a result of the emotional straing he experienced.
Ignaz Philipp Semmelweis was a Hungarian physician and scientist, now known as an early pioneer of antiseptic procedures. Described as the "saviour of mothers", Semmelweis discovered that the incidence of puerperal fever could be drastically cut by the use of hand disinfection in obstetrical clinics.
When Semmelweis proposed that obstetricians wash their hands before delivering babies, the idea was considered preposterous. He was in effect introducing a new and invisible factor at working in healing, which today we call infection. At the time, however, the theory of an infectious disease did not exist. So Semmelweis did a simple experiment to prove his point. For a year the midwives on one obstetrical ward washed their hands, and the obstetricians on another ward did not. On the hand washing ward mortality from childbirth fever declined by 1000%. But, alas, the data made no difference. Skeptical physicians still would not accept the conclusion that there was a lethal factor lurking on the hospital wards that they were helping to spread and that could be controlled by washing one's hands. Semmelweis was regarded a troublemaker and was vilified. He fled Vienna for Budapest and eventually committed suicide as a result of the emotional straing he experienced.

Soap -
Any soap absolutely annihilates viruses like the coronavirus.
This is what a virus like coronavirus looks like:
It is a bit of material surrounded by protein and fat.
Viruses easily stick to things like your hands but when you wash your hands with just water, it rushes right over the virus.
Thats because that layer of fat makes the virus behave kind of like a drop of oil. Oils are liquid fats, when you pour oil into water, it floats and does not mix.
But add soap and suddenly that fatty oil dissolves into the water.
That is because inside soap has two sided molecules. One end of the molecule is attracted to water and the other to fat. So when the soap molecules come into contact with water and fat, these dual attractions literally pull the fat apart, surrounding the oil particles and dispersing them through the water.
Lets go back to our coronavirus molecule with that layer of fat holding everything together. When it interacts with soap... BAM ... that fat gets pulled out by the soap.
Soap literally pulls apart and demolishes these viruses.
And then the water rinses the harmless leftover fragments of virus down the drain.
BUT, it takes time for this to happen, 20 seconds to be specific.
Any soap absolutely annihilates viruses like the coronavirus.
This is what a virus like coronavirus looks like:
It is a bit of material surrounded by protein and fat.
Viruses easily stick to things like your hands but when you wash your hands with just water, it rushes right over the virus.
Thats because that layer of fat makes the virus behave kind of like a drop of oil. Oils are liquid fats, when you pour oil into water, it floats and does not mix.
But add soap and suddenly that fatty oil dissolves into the water.
That is because inside soap has two sided molecules. One end of the molecule is attracted to water and the other to fat. So when the soap molecules come into contact with water and fat, these dual attractions literally pull the fat apart, surrounding the oil particles and dispersing them through the water.
Lets go back to our coronavirus molecule with that layer of fat holding everything together. When it interacts with soap... BAM ... that fat gets pulled out by the soap.
Soap literally pulls apart and demolishes these viruses.
And then the water rinses the harmless leftover fragments of virus down the drain.
BUT, it takes time for this to happen, 20 seconds to be specific.
Hand sanitizer works too because it is mostly alcohol and alcohol works like soap to break down that fatty layer. You need at least 60% alcohol to make that work.
But if your hands are dirty or sweaty, than the hand sanitizer won't work as well.
Soap doesn't need to be antimicrobial even according to the CDC... Just wash for a full 20 seconds. The ultimate virus annihilator, SOAP!
But if your hands are dirty or sweaty, than the hand sanitizer won't work as well.
Soap doesn't need to be antimicrobial even according to the CDC... Just wash for a full 20 seconds. The ultimate virus annihilator, SOAP!
How Coronavirus Kills: Acute Respiratory Distress Syndrome (ARDS)
& How PEMF Can Help Prevent this From Happening!!
& How PEMF Can Help Prevent this From Happening!!
Oxygen - The Breathe of Life!!
Most of us know we can only go a few minutes without oxygen versus a few days without water or a few weeks or months without food.
Think of 37 trillion cells in your body EACH performing upwards to 100,000 reactions a second. All these reactions need energy and are the basis for EVERYTHING we do, think, feel and heal, etc. Everything in the body requires energy which requires oxygen as we'll see. And because we cannot "store" oxygen like we can store food calories (glycogen/fat etc), we need it each and every moment and HOW you breathe will determine how efficiently and well you take in and use oxygen.
We take about 20,000-25,000 breathes a DAY! That’s 10-20 kg of air passing in and out of our system each day, which is ten times more than the amount of food we eat.
While most people who get the coronavirus just get a fever, dry cough and some aches and pains, people with compromised systems can end up with severe pneumonia or ARDS - Acute Respiratory Distress Syndrome.
Most of us know we can only go a few minutes without oxygen versus a few days without water or a few weeks or months without food.
Think of 37 trillion cells in your body EACH performing upwards to 100,000 reactions a second. All these reactions need energy and are the basis for EVERYTHING we do, think, feel and heal, etc. Everything in the body requires energy which requires oxygen as we'll see. And because we cannot "store" oxygen like we can store food calories (glycogen/fat etc), we need it each and every moment and HOW you breathe will determine how efficiently and well you take in and use oxygen.
We take about 20,000-25,000 breathes a DAY! That’s 10-20 kg of air passing in and out of our system each day, which is ten times more than the amount of food we eat.
While most people who get the coronavirus just get a fever, dry cough and some aches and pains, people with compromised systems can end up with severe pneumonia or ARDS - Acute Respiratory Distress Syndrome.
Preventing Inflammation and ARDS
How the coronavirus kills and how PEMF can help.
The coronavirus and many other viruses like pneumonia kill people via ARDS - Acute Respiratory distress syndrome.
And I'll explain to you how that happens and prevention steps you can take.
To understand this we first need to understand lung anatomy and physiology.
To understand that I want to show you a tree... A tree has a tree stump that branches and those branches branch until finally you get to the leaves ... 23 stories! {Get Facts}
How the coronavirus kills and how PEMF can help.
The coronavirus and many other viruses like pneumonia kill people via ARDS - Acute Respiratory distress syndrome.
And I'll explain to you how that happens and prevention steps you can take.
To understand this we first need to understand lung anatomy and physiology.
To understand that I want to show you a tree... A tree has a tree stump that branches and those branches branch until finally you get to the leaves ... 23 stories! {Get Facts}
This increases the surface area of the leaves on the tree, an amazing property of what is called fractal branch.
Simply put as we'll see, the coronavirus and other flu virus break down this fractal branching tree!
Surface area of leaves much greater than surface area of shadow on the ground. Same with your lungs.
Instead of leaves, our lungs have Alveoli on the end
Although the volume of a pair of human lungs is only ~4 - 6 litres, the surface area of the same pair of lungs is between 50 and 100 square meters. That's about the same area as a tennis court!
Comprised lungs end up with the surface area of a ping-pong table.
Lungs are like a tree upside down.
Same branching happens with lungs.
Simply put as we'll see, the coronavirus and other flu virus break down this fractal branching tree!
Surface area of leaves much greater than surface area of shadow on the ground. Same with your lungs.
Instead of leaves, our lungs have Alveoli on the end
Although the volume of a pair of human lungs is only ~4 - 6 litres, the surface area of the same pair of lungs is between 50 and 100 square meters. That's about the same area as a tennis court!
Comprised lungs end up with the surface area of a ping-pong table.
Lungs are like a tree upside down.
Same branching happens with lungs.
You have your main trachea airway which then divides into a left and right bronchi.
Then you have a left and right upper lobe, left middle lobe and left lower lobe.
And then these main lobes keep dividing and dividing and instead of leaves at the end of all these things, is what you have is what you have is something called an alveoli, which is a small little tiny grape-like structure that the air gets into and the air of course has oxygen.
So what does this look like on a large scale...
600 million Alveoli in the human body and are very very small.
Here is what an alveolus looks like:
Deoxygenated blood comes by and it is its job to pick up the oxygen that comes in the alveoli. And when that oxygen comes in it oxygenates the blood and then that blood goes back to the heart and then to all your organs and muscles.
Thats how you get oxygen!
So you can image this is very very thin because oxygen which comes down here has to diffuse into the bloodstream.
Then you have a left and right upper lobe, left middle lobe and left lower lobe.
And then these main lobes keep dividing and dividing and instead of leaves at the end of all these things, is what you have is what you have is something called an alveoli, which is a small little tiny grape-like structure that the air gets into and the air of course has oxygen.
So what does this look like on a large scale...
600 million Alveoli in the human body and are very very small.
Here is what an alveolus looks like:
Deoxygenated blood comes by and it is its job to pick up the oxygen that comes in the alveoli. And when that oxygen comes in it oxygenates the blood and then that blood goes back to the heart and then to all your organs and muscles.
Thats how you get oxygen!
So you can image this is very very thin because oxygen which comes down here has to diffuse into the bloodstream.
So far so good, so what happens?
Well, just like you hit your finger on the door, your finger swells thats because there is inflammation occurring where you hit your finger in the door and inflammation and inflammation causes a leakage of fluids into the tissue space so what happens here is that you get a viral infection the virus affects your lungs and with ARDS, the entire lung becomes inflamed not just in one area like you would have with a pneumonia, or one particular area in your finger and your whole hand won't swell.
No with ARDS, the entire lung goes crazy with inflammation!
This is called a Cytokine Storm
So what happens is that instead of having a nice thin area, inflammation goes everywhere and you get a large barrier of fluid that goes into the interstitial space and furthermore these capillaries start to become leaky and fluid starts to leak into the alveolar space as well and this starts to fill up with liquid... Proteinaceous liquid. Liquid that prevents oxygen from getting into the bloodstream and so instead of having nice oxygenated blood, this blood becomes hypoxic and you become hypoxic if you have ARDS and you have a hard time breathing and thats when you get placed on the ventilator.
Besides a ventilator what can you do to get oxygen.
#1 PEMF - Reduces inflammation and increases oxygenation!
AMAZING
(To clarify: viruses such as the SARS COV2 and influenza often do cause pneumonia (and not ARDS) in some patients.
The key is keeping you supported until the fluid goes away.
So here's another look at that. We get oxygen that's going down through the bronchi and bronchioles down into the alveoli and they cause deoxygenated blood to turn into oxygenated blood and then go back to the heart.
Well, just like you hit your finger on the door, your finger swells thats because there is inflammation occurring where you hit your finger in the door and inflammation and inflammation causes a leakage of fluids into the tissue space so what happens here is that you get a viral infection the virus affects your lungs and with ARDS, the entire lung becomes inflamed not just in one area like you would have with a pneumonia, or one particular area in your finger and your whole hand won't swell.
No with ARDS, the entire lung goes crazy with inflammation!
This is called a Cytokine Storm
So what happens is that instead of having a nice thin area, inflammation goes everywhere and you get a large barrier of fluid that goes into the interstitial space and furthermore these capillaries start to become leaky and fluid starts to leak into the alveolar space as well and this starts to fill up with liquid... Proteinaceous liquid. Liquid that prevents oxygen from getting into the bloodstream and so instead of having nice oxygenated blood, this blood becomes hypoxic and you become hypoxic if you have ARDS and you have a hard time breathing and thats when you get placed on the ventilator.
Besides a ventilator what can you do to get oxygen.
#1 PEMF - Reduces inflammation and increases oxygenation!
AMAZING
(To clarify: viruses such as the SARS COV2 and influenza often do cause pneumonia (and not ARDS) in some patients.
The key is keeping you supported until the fluid goes away.
So here's another look at that. We get oxygen that's going down through the bronchi and bronchioles down into the alveoli and they cause deoxygenated blood to turn into oxygenated blood and then go back to the heart.
Cytokine Storm - The Problem behind ARDS
Cytokines are a group of proteins made by the immune system that act as chemical messengers.
They play a major role in cell to cell communication.
Their major functions are to mediate and regulate immune response and inflammatory reactions.
Cytokines are a group of proteins made by the immune system that act as chemical messengers.
They play a major role in cell to cell communication.
Their major functions are to mediate and regulate immune response and inflammatory reactions.
Cytokines are a diverse group of small proteins that are secreted by cells for the purpose of intercellular signaling and communication.
Cytokines tell the white blood cells to travel to the point of infection.
Cytokine Storm - when large #'s of white blood cells are activated and release these inflammatory cytokines in response to infection and/or injury.
When our body detects foreign microorganisms indicating an infection, it might over-protect our lungs. We race so many antibodies to the site that they collect in a Cytokine storm, potentially blocking airways and causing suffocation. Medical researchers have identified the stages of the Cytokine storm and are working on treatments, other than flu vaccines, to weaken an overactive immune response.
white blood cells, that are the first to sense if a virus or bacteria has infiltrated. Immediately, our body sends defenders from the immune system, T-cells, to the site of the infection. During this stage, our immunity functions properly, and T-cells attack the microbes so they do not get too strong a foothold in our lungs.
However, the mere presence of T-cells clustered at one site, especially the lungs, alerts other T-cells that a full-scale war has started.
In the second stage, even more T-cells flood the lungs. This propagates a Cytokine storm where far too many immune cells are caught in an endless loop of calling even more. The Cytokine storm ends up inflaming the tissue of the lungs and crowding air passages, causing breathing difficulties....This is what makes the Cytokine storm so deadly in certain epidemic strains, such as coronavirus
The term “cytokine storm” calls up vivid images of an immune system gone awry and an inflammatory response flaring out of control.
The intensity of the inflammatory response in the lungs reflects a balance between proinflammatory cytokines (e.g., TNF and IL-1β) and their cognate soluble receptors or inhibitors (TNFR1, TNFR2, and IL-1RA), which inhibit the activity of these inflammatory cytokines in the aqueous phase of alveolar fluid
Cytokines tell the white blood cells to travel to the point of infection.
Cytokine Storm - when large #'s of white blood cells are activated and release these inflammatory cytokines in response to infection and/or injury.
When our body detects foreign microorganisms indicating an infection, it might over-protect our lungs. We race so many antibodies to the site that they collect in a Cytokine storm, potentially blocking airways and causing suffocation. Medical researchers have identified the stages of the Cytokine storm and are working on treatments, other than flu vaccines, to weaken an overactive immune response.
white blood cells, that are the first to sense if a virus or bacteria has infiltrated. Immediately, our body sends defenders from the immune system, T-cells, to the site of the infection. During this stage, our immunity functions properly, and T-cells attack the microbes so they do not get too strong a foothold in our lungs.
However, the mere presence of T-cells clustered at one site, especially the lungs, alerts other T-cells that a full-scale war has started.
In the second stage, even more T-cells flood the lungs. This propagates a Cytokine storm where far too many immune cells are caught in an endless loop of calling even more. The Cytokine storm ends up inflaming the tissue of the lungs and crowding air passages, causing breathing difficulties....This is what makes the Cytokine storm so deadly in certain epidemic strains, such as coronavirus
The term “cytokine storm” calls up vivid images of an immune system gone awry and an inflammatory response flaring out of control.
The intensity of the inflammatory response in the lungs reflects a balance between proinflammatory cytokines (e.g., TNF and IL-1β) and their cognate soluble receptors or inhibitors (TNFR1, TNFR2, and IL-1RA), which inhibit the activity of these inflammatory cytokines in the aqueous phase of alveolar fluid
When it gets out of control pneumonia, ARDS, and organ failure, then even death can result.
Preventing the Cytokine Storm is an important aspect of controlling the more severe possibilities of COVID19!
VITAMIN C IV can help
High Doses of Vitamin D can help
But I mainly want to talk about PEMF.
PEMFs reduce inflammation by reducing the cytokine burden and also repair the damage tissue.
PEMF increases antiinflammatory cytokines AND increase tissue repair and healing. This means PEMFs can help people withstand the COVID19 infection even if they get it.
As a daily prevention, it keeps tissue healthy.
Weak tissues, organs and cells are most vulnerable.
Healthy plants do not get bugs!
Also a healthy body will resist bugs and won't get severly affected.
1) Reduce Inflammation
2) Repair Tissue
3) Suppresses virus and Blocks Viral Injection
4) Impair Viral Assembly
Preventing the Cytokine Storm is an important aspect of controlling the more severe possibilities of COVID19!
VITAMIN C IV can help
High Doses of Vitamin D can help
But I mainly want to talk about PEMF.
PEMFs reduce inflammation by reducing the cytokine burden and also repair the damage tissue.
PEMF increases antiinflammatory cytokines AND increase tissue repair and healing. This means PEMFs can help people withstand the COVID19 infection even if they get it.
As a daily prevention, it keeps tissue healthy.
Weak tissues, organs and cells are most vulnerable.
Healthy plants do not get bugs!
Also a healthy body will resist bugs and won't get severly affected.
1) Reduce Inflammation
2) Repair Tissue
3) Suppresses virus and Blocks Viral Injection
4) Impair Viral Assembly
One of the most common uses of PEMFs is to reduce chronic inflammation. Inflammation is at the root or a major part of a majority of health conditions in humans and animals.
Because of their actions on inflammation, PEMFs have been found to help with a number of other health conditions as well, though in this video we are going to focus on inflammation due to COVID19.
A very important part of control of inflammation is through a molecule in the body called adenosine acting through its receptor, the adenosine receptor (AR). Adenosine is a building block for RNA/DNA and a part of the energy molecule ATP (Chen). Adenosine regulates the function of every tissue and organ in the body and is considered a “guardian angel” in human disease (Borea).
Once released into the extracellular space, adenosine functions as an alarm or danger signal; It then activates specific adenosine receptors, causing numerous cellular responses that aim to restore tissue homeostasis.
Adenosine acts through four subtypes of adenosine receptors: A1, A2A, A2B and A3. These receptors are widely distributed throughout the body and have been found to be part of both physiological and pathological biological functions.
PEMFs appear to primarily influence A2A and A3 ARs. They do not appear to influence A1 or A2B ARs (Varani, 2002). PEMFs stimulate the activation of adenosine receptors, increase their functionality.
Varani K, Gessi S, Merighi S, et al. Effect of low frequency electromagnetic fields on A2A adenosine receptors in human neutrophils. Br J Pharmacol. 2002 May;136(1):57-66.
Stimulation of A2A and A3 ARs by PEMFs in cells throughout the body results in reduction of inflammation by lowering many proinflammatory tissue cytokines, including reduction of:
The levels of tumor necrosis factor-α (TNF-α)
Interleukin (IL): IL-1β, IL-6, and IL-8 in microglial cells (Vincenzi, 2017)
IL-6 and IL-8 in cartilage and bone cells (Vincenzi, 2013)
IL-8 and NF-kappa B in skin cells (Vianale)
Synovial fibroblasts (Ongaro)
The role of adenosine receptors and adenosine in modifying inflammation is well accepted (Varani, 2017). A2A receptors are plentiful in the membranes of neutrophils. Neutrophils play a major role in inflammation and tissue repair.
Because of their actions on inflammation, PEMFs have been found to help with a number of other health conditions as well, though in this video we are going to focus on inflammation due to COVID19.
A very important part of control of inflammation is through a molecule in the body called adenosine acting through its receptor, the adenosine receptor (AR). Adenosine is a building block for RNA/DNA and a part of the energy molecule ATP (Chen). Adenosine regulates the function of every tissue and organ in the body and is considered a “guardian angel” in human disease (Borea).
Once released into the extracellular space, adenosine functions as an alarm or danger signal; It then activates specific adenosine receptors, causing numerous cellular responses that aim to restore tissue homeostasis.
Adenosine acts through four subtypes of adenosine receptors: A1, A2A, A2B and A3. These receptors are widely distributed throughout the body and have been found to be part of both physiological and pathological biological functions.
PEMFs appear to primarily influence A2A and A3 ARs. They do not appear to influence A1 or A2B ARs (Varani, 2002). PEMFs stimulate the activation of adenosine receptors, increase their functionality.
Varani K, Gessi S, Merighi S, et al. Effect of low frequency electromagnetic fields on A2A adenosine receptors in human neutrophils. Br J Pharmacol. 2002 May;136(1):57-66.
Stimulation of A2A and A3 ARs by PEMFs in cells throughout the body results in reduction of inflammation by lowering many proinflammatory tissue cytokines, including reduction of:
The levels of tumor necrosis factor-α (TNF-α)
Interleukin (IL): IL-1β, IL-6, and IL-8 in microglial cells (Vincenzi, 2017)
IL-6 and IL-8 in cartilage and bone cells (Vincenzi, 2013)
IL-8 and NF-kappa B in skin cells (Vianale)
Synovial fibroblasts (Ongaro)
The role of adenosine receptors and adenosine in modifying inflammation is well accepted (Varani, 2017). A2A receptors are plentiful in the membranes of neutrophils. Neutrophils play a major role in inflammation and tissue repair.
4) Detoxification/Antioxidants
PEMF Increases Glutathione and Endogenous Antioxidants which helps with Protection and Detox
In one study mice were exposed to PEMFs to observe liver and lung protection and detoxification. Detoxification enzymes were enhanced in the Liver with PEMF therapy.
Also the important enzyme and antioxidant Glutathione was increased in the lungs by PEMF exposure.
The overall benefits of PEMF from this study showed that PEMF enhanced detoxification, which was also accompanied by an increase in the levels of a strong endogenous antioxidant.
Singh S, Khanduja KL, Mittal PK. Influence of 50 Hz sinusoidal electromagnetic field on hepatic and pulmonary phase I and II drug metabolizing enzymes in mice. Electro Magnetobiol 17 (3): 343-350, 1998.
PEMF Increases Glutathione and Endogenous Antioxidants which helps with Protection and Detox
In one study mice were exposed to PEMFs to observe liver and lung protection and detoxification. Detoxification enzymes were enhanced in the Liver with PEMF therapy.
Also the important enzyme and antioxidant Glutathione was increased in the lungs by PEMF exposure.
The overall benefits of PEMF from this study showed that PEMF enhanced detoxification, which was also accompanied by an increase in the levels of a strong endogenous antioxidant.
Singh S, Khanduja KL, Mittal PK. Influence of 50 Hz sinusoidal electromagnetic field on hepatic and pulmonary phase I and II drug metabolizing enzymes in mice. Electro Magnetobiol 17 (3): 343-350, 1998.
Innate and adaptive immunity.
Innate - Fever and Inflammation
Adaptive - immunological memory.
The Immune Cells develop from a single pluripotent stem cell from bone marrow... the hematopoietic stem cell.
Lymphoid and Myeloid progenitors
Lymphocytes - B Cells, T Cells and NK Cells
Lymphocytes are white blood cells that are also one of the body’s main types of immune cells. They are made in the bone marrow and found in the blood and lymph tissue.
The immune system is a complex network of cells known as immune cells that include lymphocytes. These cells work together to defend the body against foreign substances, such as bacteria, viruses, and cancer cells that can threaten its functioning.
There are two categories of lymphocytes known as B lymphocytes and T lymphocytes. These are commonly referred to as B cells and T cells.
Both types originate from stem cells in the bone marrow. From there, some cells travel to the thymus, where they become T cells T=Thymus. Others remain in the bone marrow, where they become B cells.
The job of B cells is to make antibodies, which are proteins produced by the immune system to fight foreign substances known as antigens.
The job of T cells is to help the body kill cancer cells and control the immune response to foreign substances. They do this by destroying cells in the body that have been taken over by viruses or become cancerous.
A third type of lymphocyte, known as a natural killer or NK cell, comes from the same place as B and T cells. NK cells respond quickly to several foreign substances and are specialized in killing cancer cells and virus-infected cells.
Helper T cells secrete cytokines/interleukins that boost the adaptive immune response. Play an important role in B cell activation.
The normal lymphocyte range in adults is between 1,000 and 4,800 lymphocytes in 1 microliter (µL) of blood. In children, the normal range is between 3,000 and 9,500 lymphocytes in 1 µL of blood.
Innate - Fever and Inflammation
Adaptive - immunological memory.
The Immune Cells develop from a single pluripotent stem cell from bone marrow... the hematopoietic stem cell.
Lymphoid and Myeloid progenitors
Lymphocytes - B Cells, T Cells and NK Cells
Lymphocytes are white blood cells that are also one of the body’s main types of immune cells. They are made in the bone marrow and found in the blood and lymph tissue.
The immune system is a complex network of cells known as immune cells that include lymphocytes. These cells work together to defend the body against foreign substances, such as bacteria, viruses, and cancer cells that can threaten its functioning.
There are two categories of lymphocytes known as B lymphocytes and T lymphocytes. These are commonly referred to as B cells and T cells.
Both types originate from stem cells in the bone marrow. From there, some cells travel to the thymus, where they become T cells T=Thymus. Others remain in the bone marrow, where they become B cells.
The job of B cells is to make antibodies, which are proteins produced by the immune system to fight foreign substances known as antigens.
The job of T cells is to help the body kill cancer cells and control the immune response to foreign substances. They do this by destroying cells in the body that have been taken over by viruses or become cancerous.
A third type of lymphocyte, known as a natural killer or NK cell, comes from the same place as B and T cells. NK cells respond quickly to several foreign substances and are specialized in killing cancer cells and virus-infected cells.
Helper T cells secrete cytokines/interleukins that boost the adaptive immune response. Play an important role in B cell activation.
The normal lymphocyte range in adults is between 1,000 and 4,800 lymphocytes in 1 microliter (µL) of blood. In children, the normal range is between 3,000 and 9,500 lymphocytes in 1 µL of blood.
MORE Immune Cells - Myeloid Lineage
Neutrophils are innate immune cells that specialize in the capture and killing of microorganisms throughout the body.
Eosinophil release cytokines/interleukins to defend against parasites
Macrophages (big eater) are tissue resident phagocytic cells (phage / eat cyto/cells). They patrol the body and assist in cleaning up infection.
How are immune cells activated?
Antigen - small peptitdes to T cells for inform a specific immune response
Neutrophils are innate immune cells that specialize in the capture and killing of microorganisms throughout the body.
Eosinophil release cytokines/interleukins to defend against parasites
Macrophages (big eater) are tissue resident phagocytic cells (phage / eat cyto/cells). They patrol the body and assist in cleaning up infection.
How are immune cells activated?
Antigen - small peptitdes to T cells for inform a specific immune response
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Lymphocytes are important immune cells that fight unwanted invaders. When lymphocytes are removed from the body and kept alive in a cell culture they can no longer divide or replicate. However, if a pulsating magnetic field is applied the ability to replicate is restored. (Whitney 1972/69)
Among lymphocytes drawn from young and old people alike, lymphocytes have been found to proliferate in response to exposure to weak, low frequency magnetic fields. (Cossarizza 1989/70) These effects are explained by the increased influx of calcium ions and protein kinase activity we have reviewed earlier. (Byus 1984/72, Luben 1982/71, Monti 1991/73).
Whitney, R. Sutherland, R. Requirement for calcium ions in lymphocyte transformation stimulated by phytohemagglutinin. Journal of Cellular Physiology. 1972; 80: 329-332
Cossarizza, A., S. Angioni, et al. (1993). Exposure to low frequency pulsed electromagnetic fields increases
interleukin-1 and interleukin-6 production by human peripheral blood mononuclear cells. Exp Cell Res 204(2): 385-7.
Journal Proceedings of the National Academy of Sciences.
May 20, 2013

Scientific literature on immune system support:
1) In a study of 91 patients with benign prostatic hyperplasia treated operatively, the application of pulsed magnetic field therapy immediately after surgery eliminated deficiency of T- and B-cell immunity, raised functional activity of the lymphocytes and the phagocytic ability of neutrophils, reduced androgen and intoxication, tissue edema, bacterial contamination, and the number of thrombohemorrhagic complications.
Neimark, A. I., I. V. Snegirev, et al. (2006). [Transrectal magnetotherapy of the prostate from Intramag device in prophylaxis of postoperative complications of transurethral resection of prostatic adenoma]. Urologiia(2): 75,77-9.
2) Lymphocytes are white blood cells that have an important role in the immune response. In vitro studies that show bone-healing acceleration from electromagnetic field therapy also show T-lymphocyte proliferation. (Johnson 2001/199)
Johnson, M. T., A. Vanscoy-Cornett, et al. (2001). Electromagnetic fields used clinically to improve bone healing also impact lymphocyte proliferation in vitro. Biomed Sci Instrum 37: 215-20.
3) In an in vitro study of the blood of 103 patients with multiple myeloma, acute leukemia, chronic lymphocytic leukemia and non-Hodgkin’s disease, magnetic fields
lowered the level of immunological deficiency. In acute leukemia a combined application of magnetic fields increased the T-lymphocyte population. In addition, the phagocytic activity of leukocytes increased significantly.
Bessmel’tsev, S. S., K. M. Abdulkadyrov, et al. (2001). [The in-vitro effect of constant and pulsating magnetic field on immunocompetent blood cells of hematologic patients]. Vopr Onkol 47(1): 59-65.
1) In a study of 91 patients with benign prostatic hyperplasia treated operatively, the application of pulsed magnetic field therapy immediately after surgery eliminated deficiency of T- and B-cell immunity, raised functional activity of the lymphocytes and the phagocytic ability of neutrophils, reduced androgen and intoxication, tissue edema, bacterial contamination, and the number of thrombohemorrhagic complications.
Neimark, A. I., I. V. Snegirev, et al. (2006). [Transrectal magnetotherapy of the prostate from Intramag device in prophylaxis of postoperative complications of transurethral resection of prostatic adenoma]. Urologiia(2): 75,77-9.
2) Lymphocytes are white blood cells that have an important role in the immune response. In vitro studies that show bone-healing acceleration from electromagnetic field therapy also show T-lymphocyte proliferation. (Johnson 2001/199)
Johnson, M. T., A. Vanscoy-Cornett, et al. (2001). Electromagnetic fields used clinically to improve bone healing also impact lymphocyte proliferation in vitro. Biomed Sci Instrum 37: 215-20.
3) In an in vitro study of the blood of 103 patients with multiple myeloma, acute leukemia, chronic lymphocytic leukemia and non-Hodgkin’s disease, magnetic fields
lowered the level of immunological deficiency. In acute leukemia a combined application of magnetic fields increased the T-lymphocyte population. In addition, the phagocytic activity of leukocytes increased significantly.
Bessmel’tsev, S. S., K. M. Abdulkadyrov, et al. (2001). [The in-vitro effect of constant and pulsating magnetic field on immunocompetent blood cells of hematologic patients]. Vopr Onkol 47(1): 59-65.
Interleukins/Cytokines
The term interleukin derives from (inter-) "as a means of communication", and (-leukin) "deriving from the fact that many of these proteins are produced by leukocytes and act on leukocytes.
Interleukins are a group of signaling molecules called cytokines that, while first discovered in white blood cells, have been identified as a product of a wide variety of bodily cells, most of which have a role to play in the immune system. In fact, the function of the immune system depends in large part on interleukins. Interleukins play a role in co-stimulation, maturation, proliferation, activation, growth and differentiation of immune cells.
Interleukins (cytokines) are messenger substances of the immune system. For example, IL-1 stimulates the T-and B-lymphocytes. In addition, IL-1 and IL-6 increase the activity of bone and cartilage cells. However, IL-1 is a signal substance for inflammatory processes within the framework of chronic polyarthritis, whereas IL-6 is a messenger substance that is released in large quantities especially in the case of infections.
Studies show that the quantity certain interleukins in biological systems, namely IL-1 and IL-6, increase following magnetic field exposure. (Cossarizza 1993/85) In addition, T-cells also increase in number, and therefore the activity of the phagocytes increase. The result is that a larger number of intruders are destroyed by macrophages – a more robust immune response.
A pulsating magnetic field generally stimulates the immune system. Specific pre-species immune cell messengers are formed, namely the interleukins. These potentiate a strong immune response, and thus pulsating magnetic fields modulate the function of immune cells via the cytokines.
The term interleukin derives from (inter-) "as a means of communication", and (-leukin) "deriving from the fact that many of these proteins are produced by leukocytes and act on leukocytes.
Interleukins are a group of signaling molecules called cytokines that, while first discovered in white blood cells, have been identified as a product of a wide variety of bodily cells, most of which have a role to play in the immune system. In fact, the function of the immune system depends in large part on interleukins. Interleukins play a role in co-stimulation, maturation, proliferation, activation, growth and differentiation of immune cells.
Interleukins (cytokines) are messenger substances of the immune system. For example, IL-1 stimulates the T-and B-lymphocytes. In addition, IL-1 and IL-6 increase the activity of bone and cartilage cells. However, IL-1 is a signal substance for inflammatory processes within the framework of chronic polyarthritis, whereas IL-6 is a messenger substance that is released in large quantities especially in the case of infections.
Studies show that the quantity certain interleukins in biological systems, namely IL-1 and IL-6, increase following magnetic field exposure. (Cossarizza 1993/85) In addition, T-cells also increase in number, and therefore the activity of the phagocytes increase. The result is that a larger number of intruders are destroyed by macrophages – a more robust immune response.
A pulsating magnetic field generally stimulates the immune system. Specific pre-species immune cell messengers are formed, namely the interleukins. These potentiate a strong immune response, and thus pulsating magnetic fields modulate the function of immune cells via the cytokines.
PEMF seems to directly limit the growth of bacteria even without your immune system
Moore RL , Biological Effects of magnetic fields: studies with microorganisms. Can J Microbiol 25(10): 1145-1151. 1979
Better Hunters - Stress Proteins
PEMF Improves Macrophage activity which are immune cells that kill bacteria (phagocytes). In one study PEMF increases the levels of stress proteins which help the macrophages to become better bacterial hunters.
Akan Z., Aksu B., Tulunay A. Extremely low frequency electromagnetic fields affect the immune response of monocyte derived macrophages to pathogens. Bioelectromagnetics 31: 603-612, 2010.
Better Hunters2 - NETS (Neutrophil Extracellular Traps
Magnetic field stimulation has been shown to improve the function of the specific type of white blood cell that traps bacteria (Neutrophils). These neutrophils create neutrophil extracellular traps (NETS) that act like spider webs to bind pathogens. Studies show that PEMF therapy enhances the formation of these NETS which improves the innate immune system.
Golbach LA, Sheer MH, Cupen JJ. Low Frequency Electromagnetic Field Exposure Enhances Extracellular Trap Formation by Human Neutrophils through NADPH Pathway. J Innate Immun. 2015: 7(5):459-65.
These and others are examples of how PEMF deal with infections in a number of ways even if they do not kill the bacteria, viruses or fungi directly.
Moore RL , Biological Effects of magnetic fields: studies with microorganisms. Can J Microbiol 25(10): 1145-1151. 1979
Better Hunters - Stress Proteins
PEMF Improves Macrophage activity which are immune cells that kill bacteria (phagocytes). In one study PEMF increases the levels of stress proteins which help the macrophages to become better bacterial hunters.
Akan Z., Aksu B., Tulunay A. Extremely low frequency electromagnetic fields affect the immune response of monocyte derived macrophages to pathogens. Bioelectromagnetics 31: 603-612, 2010.
Better Hunters2 - NETS (Neutrophil Extracellular Traps
Magnetic field stimulation has been shown to improve the function of the specific type of white blood cell that traps bacteria (Neutrophils). These neutrophils create neutrophil extracellular traps (NETS) that act like spider webs to bind pathogens. Studies show that PEMF therapy enhances the formation of these NETS which improves the innate immune system.
Golbach LA, Sheer MH, Cupen JJ. Low Frequency Electromagnetic Field Exposure Enhances Extracellular Trap Formation by Human Neutrophils through NADPH Pathway. J Innate Immun. 2015: 7(5):459-65.
These and others are examples of how PEMF deal with infections in a number of ways even if they do not kill the bacteria, viruses or fungi directly.
Neutrophils are white blood cells that hunt and kill bacteria.
The video below shows a neutrophil “chasing” a staphylococcus aureus bacterium in the midst of red blood cells. Through a combination of chemotaxis and vibrational sensibility, the neutrophil identified the enemy and chased it. The bacterium, perceiving the threat somehow, tried to escape. When the bacterium turned right to elude its pursuer, the neutrophil turned right and closed in for the kill. The neutrophil overtook the bacterium, and once fully engulfed (through a process called phagocytosis), the neutrophil released enzymes in what appeared to be an internal explosion. The barrage of enzymes destroyed the bacterium completely.
This was an amazing process to watch! In the words of Dr. Bruce Lipton, our cells are truly “sentient beings".
This entire vignette of internal warfare – the immune system in action and the chasing down of invading infectious organisms – was intended to display the amount of energy expended by our immune cells. The entire “chase,” start to finish, requires ATP as fuel. The corollary truth is that anything that can stimulate the production of more ATP within the body will, therefore, most assuredly strengthen the immune system, among a host of other benefits.
Happily, pulsed magnetic field therapy has been shown to increase the production of ATP within the mitochondria by signaling the cells and their organelles directly and in an all-encompassing fashion. The body, so energized, is able to ward off infection with a bolstered and revitalized immune system.
The video below shows a neutrophil “chasing” a staphylococcus aureus bacterium in the midst of red blood cells. Through a combination of chemotaxis and vibrational sensibility, the neutrophil identified the enemy and chased it. The bacterium, perceiving the threat somehow, tried to escape. When the bacterium turned right to elude its pursuer, the neutrophil turned right and closed in for the kill. The neutrophil overtook the bacterium, and once fully engulfed (through a process called phagocytosis), the neutrophil released enzymes in what appeared to be an internal explosion. The barrage of enzymes destroyed the bacterium completely.
This was an amazing process to watch! In the words of Dr. Bruce Lipton, our cells are truly “sentient beings".
This entire vignette of internal warfare – the immune system in action and the chasing down of invading infectious organisms – was intended to display the amount of energy expended by our immune cells. The entire “chase,” start to finish, requires ATP as fuel. The corollary truth is that anything that can stimulate the production of more ATP within the body will, therefore, most assuredly strengthen the immune system, among a host of other benefits.
Happily, pulsed magnetic field therapy has been shown to increase the production of ATP within the mitochondria by signaling the cells and their organelles directly and in an all-encompassing fashion. The body, so energized, is able to ward off infection with a bolstered and revitalized immune system.

The Immune System has many layers and components.
The Cells of the immune system are only a part of the Total body
The Cells of the immune system are only a part of the Total body

It has been discovered that in addition to the traditionally viewed lock-and-key structure of receptors on cell membranes that receive and respond to physical molecules, there are also antenna like structures that respond to vibrational frequencies.
Receptor antennas can also read vibrational energy fields such as light, sound, and radio frequencies. The antennas on these energy receptors vibrate like tuning forks. If an energy vibration in the environment resonates with a receptor's antenna, it will alter the protein's charge, causing the receptor to change shape. Because these receptors can read energy fields, the notion that only physical molecules can impact cell physiology is outdated. Biological behavior can be controlled by invisible forces as well as it can be controlled by physical molecules like penicillin, a fact that provides the scientific underpinning for pharmaceutical free energy medicine like PEMF!!
Receptor Proteins: Receive Chemical information (hormones) and act like a radio antenna to send information inside the cell.
Marker Proteins: Identify the cell. They are "name tags".
Channel Proteins: bring polar or large compounds (ie glucose) into the cell. The compound has to fit the shape of the channel.
Receptor antennas can also read vibrational energy fields such as light, sound, and radio frequencies. The antennas on these energy receptors vibrate like tuning forks. If an energy vibration in the environment resonates with a receptor's antenna, it will alter the protein's charge, causing the receptor to change shape. Because these receptors can read energy fields, the notion that only physical molecules can impact cell physiology is outdated. Biological behavior can be controlled by invisible forces as well as it can be controlled by physical molecules like penicillin, a fact that provides the scientific underpinning for pharmaceutical free energy medicine like PEMF!!
Receptor Proteins: Receive Chemical information (hormones) and act like a radio antenna to send information inside the cell.
Marker Proteins: Identify the cell. They are "name tags".
Channel Proteins: bring polar or large compounds (ie glucose) into the cell. The compound has to fit the shape of the channel.