ATTACK THE CAUSE NOT THE EFFECT
"After reading this you will understand
why the Nobel prize awards committee got so excited about
this
research?
ATP is mostly formed in the presence of carbohydrates
and oxygen. If you don’t eat, you die. If you don’t
breathe, you die. Why? Because your cells can’t
manufacture ATP. Dr Cheng’s research showed a new
way of regenerating ATP, one that did not primarily involve
oxygen or carbohydrates. A weak current was all it took
to increase ATP levels in the cell by 500% or more. . "
ATP is the body’s energy currency. Like
money, you can’t do business without it. The
body’s cells manufacture ATP and then various
cell processes use that ATP for power. Without
ATP, no reactions can take place inside the cell
and the
cell dies |
All cells need energy to function. Adenosine
triphosphate, created using food or sunlight, is
the molecule that cells use to store that energy for
future use.Adenosine triphosphate, also known as ATP,
is the energy molecule of all living cells. When plants
get energy from sunlight and animals get energy from
food, this energy must be converted to ATP before it
can be used by the cells to carry out all necessary functions.
When cells are moderately low
in ATP, the major problem may be fatigue or exercise
intolerance. [Think
of a car engine. If the gas in the tank is good
fuel, the engine runs well. If the gas has water
or sand
in it, the car runs poorly.] Rhabdomyolysis (muscle
cell death) occurs when the cells don’t have
enough ATP (that is, the car runs out of gas).
Constant or on-going weakness may develop as a
result of repeated
low-grade rhabdomyolysis. |
ATP Releases
Energy to Power the Cell
Adenosine triphosphate (ATP) is a compound
which provides energy for virtually all body’s processes.
Its role in health maintenance, especially with regard
to heart health, cannot be underestimated. Among other
crucial functions, ATP is responsible for the heart’s
continual cadence. The human heart contains approximately
700 mg of ATP, enough to fuel one heartbeat per second
for ten seconds, and needs a minimum of 6,000 grams of
ATP per day to function. As the universal cellular energy
currency, ATP is constantly spent and re-made within the
body.
How much ATP the body needs,
as well as how efficiently it produces ATP, depends
on the availability of oxygen
and various nutrients in the blood, as well as
the heart’s ability to continually circulate
blood. Maintaining a healthy cardiovascular system
through
a heart-healthy lifestyle, inhaling enough oxygen,
and obtaining appropriate nutrients through the
diet and nutraceutical supplementation are essential
means
of staying energetic and maintaining wellness. |
The key to the energy-generating activity
of adenosine triphosphate is the chain of three phosphates
at the end of the molecule. In particular, the final phosphate
is the most important one.
When an enzyme in the cell tells ATP to release
energy, that final phosphate breaks off of the molecule.
This breakage causes a huge amount of energy to be generated,
which the cell can then use. This leaves a molecule of
ADP, adenosine diphosphate, which can then lose another
phosphate to release even more energy or can return to
the ribosomes to have another phosphate put back on and
return it to ATP status.
What ATP is and How it Works
Outside the cell, ATP can act as a signaling
molecule itself. An extracellular release of ATP in different
areas of the body can signal pain, oxygen depletion and
other biological needs.All of these important functions
are the result of the conversion of ATP into ADP, a cellular
process that works 24 hours a day to keep organisms functioning
and healthy. That's why adenosine triphosphate is often
considered the most important molecule in living cells.
CES/PEMF aides
sleep, greatly enhancing
levels of naturally derived ATP
A sleep study published in the Proceedings
of the National Academy of Sciences could provide a mechanism
; that artificially create Delta rhythm magnetic signals
which enhance and prolong deep sleep. University
of Wisconsin sleep study disclosed that "With
a single pulse, we were able to induce a wave that looks
identical to the waves the brain makes normally during
sleep." The study shows that magnetic signals may
produce exactly the same effects as weak electric signals
used in a recent sleep study from the University of Lubeck,
Germany.
low cardiac output secondary to
mitochondrial malfunction
In November 2006 the University
of Lubeck sleep study disclosed that slowly oscillating
Delta rhythm electric stimulation applied via surface
electrodes on the scalp induced an immediate increase
in spectral power at the same slow wave (Delta) frequency
band, increased endogenous cortical slow oscillations,
and increased slow spindle activity in the frontal cortex,
resulting in improved slow wave sleep and subsequently
better memory consolidation.
Mitochondria
- Mitochondrian
Our health is directly related
to the integrity of our mitochondria. Mitochondria, “powerhouse” organelles
within all of our cells, are responsible for producing
90 percent of the body’s energy. Highly concentrated
in the heart, mitochondria comprise 35 percent
of myocyte, or heart, cells. While a skeletal muscle
cell will only contain, on average, 200 mitochondria,
a typical myocyte contains approximately 5,000
mitochondria. |
ATP recycles approximately every 10 seconds in
a normal person
Low ATP is
reportedly involved in many illnesses
There are more than 50 inherited diseases
of metabolism that are known to affect mitochondria. Taken
together, more than 1 in 4,000 children born in the United
States each year will develop a mitochondrial disease by
10 year of age. Four million children are born in the US
each year. This means that 1000 to 4000 children will be
born each year with mitochondrial disease. By comparison,
about 8000 new cases of childhood cancer are reported each
year. Both mitochondrial disease and childhood cancer range
in mortality from 1O to 50 percent per year, depending
on the specific disease. Leigh's syndrome, for example,
is one of the more lethal mitochondrial diseases. It has
a mortality of about 50 percent per year after diagnosis.
In 1995, the entire program of the 25th annual
meeting of the American Aging Association and the
American College of Clinical Gerontologv was devoted
to the role of mitochondria in the chronic diseases
of aging. Even so, most physicians in America are
not yet aware of the connection between chronic diseases
and abnormalities in mitochondrial function. Fortunately,
this is changing through education. But real change
in medicine requires two elements- education and
the availability of effective treatment. Progress
will be slow until effective treatments for mitochondrial
diseases are developed. |
How Common
is Adult Mitochondrial Disease?
Defects in mitochondrial function have
now been I inked to many of the most common diseases of
aging. These include Type II Diabetes Mellitus,
Parkinson Disease, Atherosclerotic Heart Disease, Stroke,
Alzheimer Dementia, and Cancer. Over 50 million
people in the US suffer from these chronic degenerative
disorders. While it cannot yet be said that mitochondria
cause these problems, it is clear that mitochondria are
involved because their function is measurably disturbed.
Even autoimmune diseases such as Multiple Sclerosis, Systemic
Lupus Erythematosus, and Rheumatoid Arthritis appear to
have mitochondrial components. Source
Chemo Niclosamide
Drugs FOR treating Parkinson's disease
More |
Liver
disease
Heart
disease
So patients with angina, high blood pressure, heart failure, cardiomyopathy,
some valve defects as well as patients with cardiac dysrhythmias also
have mitochondrial problems and will respond in the same way to nutritional
therapies and detox therapies The first effect of poor micro-circulation
to the heart is disturbance of the electrical conductivity which causes
dysrhythmias. Many patients complain of palpitations, missed heart
beats etc
Hepatitis C
Metabolic
myopathies
Fibromyalgia
Weight gain
Unexplained seizures
Low blood counts
dystonia
Cancer
Parkinson's Disease
Chronic
fatigue syndrome
Thyroid and Adrenal Malfunction
MORE Symptoms of low ATP
Fatigue
Pain
Palpitations
Depression
Tinnitus
General Low body temperature. Coldness. Low Energy or Fatigue. Weight
problems (can't lose or gain it). Slow healing .
Brain Depression. Anxiety. Poor memory, focus, or concentration. Sleep
disorders.
Immune system Under-Reactive or Over-Reactive: Frequent infections
(skin, sinus, bladder, bowel, yeast problems, etc.). Allergies. Auto-immune
disease.
Musculoskeletal Fatigue. Fibromyalgia (muscle or joint pains). Generalized
aches/pains. Repetitive use injury and carpal tunnel syndrome. Weak
connective tissues (ligaments, bones, etc). Headaches.
Sexual Loss of Libido and function. Menstrual disorders. Infertility.
Vascular Low blood pressure. High blood pressure. Raynaud’s disease.
Bowels Constipation. Gas or bloating. Digestive disorders, Irritable
Bowel Syndrome (IBS)
Nervous system Numbness of hands and/or feet (usually symmetrical).
Dulling or loss of senses such as vision, taste or smell. Skin Dry.
Acne. Pallor in light skin, darkening or dark patches in dark skin.
Hair Hair loss, brittle, coarse, dry or oily.
"Microcurrent stimulation TENS and CES to
the body causes radically increased production of ATP levels.
This
allows
the body
to perform whatever healing process it has undertaken in
an accelerated fashion. It may even allow one to get over
the proverbial "hump" that was unachievable,
due to insufficient ATP concentrations to perform the changes
needed.
Microcurrent therapy, which is used from one to usually
600 uA clinically, is the modality of choice for increased
tissue healing. Research and clinical trials have shown
that with microcurrent stimulation, there is a 40-50% reduction
in healing time of ulcers and sprain/strains; fractures
heal faster and stronger; and that even bad scarring (keloid
scars) remodel to become a healthier, stronger scar. Other
ATP related microcurrent stimulatory effects include decreased
inflammation, edema and swelling, and increased physical
endurance in sports.
Clinically, microcurrent stimulation is not
at all limited to its effects of increased ATP production
in its capacity
as a treatment modality, but its effects to reduce injury
healing time in half are truly dramatic."
Chronic fatigue syndrome is
the symptom caused by mitochondrial failureThe
job of mitochondria is to supply energy in the
form of ATP (adenosine triphosphate). This is the
universal currency of energy. It can be used for
all sorts of biochemical jobs from muscle contraction
to hormone production. When mitochondria fail,
this results in poor supply of ATP, so cells go
slow because they do not have the energy supply
to function at a normal speed. This means that
all bodily functions go slow.
|
In 1989 David
Hood found chronic (30+ days) 10-10.2 Hz stimulation
TRIPLED two critical enzymes of final stages of cell
respiration, citrate synthase and cytochrome c oxidase..
Testing systemic oxygen consumption via breath-hold-test
since 2005 we have found routine improvements in as
little as 2-3 days. Cell's burn oxygen more efficiently,
drawing oxygen from blood slower, producing more energy
and less waste from every breath; thus you are able
to hold your breath up to 20% longer the first week
or two; 2/3rds longer after a year or two and up to
100% longer after several years.
The 1991 Nobel Prize in Physiology or Medicine was
awarded to two German scientists, Neher and Sakmann,
who discovered that electrical activity belonged to
the essential nature of all cells and that it was not
limited to muscle and nerve tissue. By 1995, Mercola
and Kirsch were the first to define weak electric current
treatment as Microcurrent Electrical Treatment (MET),
confirming that MET stimulated the growth of cells
and that it had no significant side-effects.
The 1997 Nobel Prize for chemistry was awarded to
a Chinese researcher, Dr Ngok Cheng, who in 1982
published a paper showing how microcurrent stimulation
increased the level of ATP in cells by 500%. However,
since ATP refers to the name of a molecule and your
eyes will probably glaze over if I start mentioning
the names of molecules. ATP is no ordinary molecule
(if there is such a thing as an ordinary molecule,
that is)
"Now you understand why the Nobel prize awards
committee got so excited about his research? ATP
is mostly formed in the presence of carbohydrates
and oxygen. If you don’t eat, you die. If you
don’t breathe, you die. Why? Because your cells
can’t manufacture ATP. Dr Cheng’s research
showed a new way of regenerating ATP, one that did
not primarily involve oxygen or carbohydrates. A
weak current was all it took to increase ATP levels
in the cell by 500% or more. " |
NASA
Uses Frequencies to Enhance Neural Tissue
Regeneration
of nerve cells using 10-10.2 Hz square EM fields
In 2003 NASA-Goodwin
found 10-10.2 Hz square wave stimulation caused neural
tissue regeneration @ 4x baseline, w/better 3-D orientation;
cell DNA signature reverted from maturation to developmental
(more than 175 maturation genes and 150 developmental
genes pgs. 15-18)..
Cells that are mature are literally "tricked" into
believing they are younger than they are. Mitochondrial
DNA (mtDNA) may have been repaired through some unidentified
mechanism or to adequate detoxification of mitochondrion
itself or cell protoplasm within which the mitochondria
reside |
In NASA study above, mitochondrial robustness
due to 10-10.2 Hz stimulation provided the energy to support
regeneration at 4 times baseline. There
is related information in that author's patents at US 6485963
and 6673597, both of which are titled "Growth stimulation
of biological cells and tissue by electromagnetic fields
and uses thereof".
NASAs CONCLUSION:
"We have clearly demonstrated the bioelectric/biochemical potentiation of
nerve stimulation and restoration in humans as a documented reality".
Final Recommendation: "One may use square wave EM fields for":
a. repairing traumatized tissues
b. moderating some neurodegenerative diseases
c. developing tissues for transplantation
*the first study to clarify technologies
and efficacy parameters for tissue growth and restoration
Exposure to 10-10.2 Hz has an immediate and direct
effect on the mitochondria as demonstrated in the studies
above. Pure organic ATP according to biological paradigm
on planet Earth in both plants and animals.
A 10-10.2 Hz pulsed (square-wave) field increases
cell's organic production of ATP (the fuel that fires all
cellular processes). This is the premise behind the theoretical
proposition we call instantATP (organisms under the influence
of pulsed electromagnetic fields 10-10.2 Hz).
|
BTPro ATP package
Microcurant
Stimulator at 10-10.2 Hz
Magnetic Field
Stimulation to any part of the body at 10-10.2 Hz
CES stimulation at at 10-10.2 Hz
Plus Alpha Theta Delta Beta frequencies
0.5 Hz Panic Attacks,,Stress,,Anxiety,,Fast Relaxation,,Sleep
1.0Hz This frequency can lead you to
an " altered
state of conscience"
1.5 Hz Quiet sleep
more
5.0 Hz-Increased DNA synthesis; cellular
signalling; repair healing, optimum learning frequency.,Endorphin Lymph
drainage
7.83 Hz Alpha
/ Theta, "Schumann
Resonance.":
10.2 Hz ATP Stimulation
20 Hz Depression Beta: outward awareness
100.00 Hz
Plus
the Full BT6-BT11 Beck
Protocol For Depression, anxiety
Over 500 Harmonic frequencies
Fully Rechargeable Batteries
Timer
Intensity Control
High Quality Ear clips
Magnastim Headset
Tens Pads
GSR Biofeedback
Very portable
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Personal DNA ATP
PEMF Resonator
PEMF
Frequency 10-Hz – ATP generation
PEMF
Frequency 528 Hz – Love Transformation
and Miracles ( DNA Repair)
Is
Automaticaly Triggered by the presence of DNA
damaging magnetic fields
Wear
around your neck or close to
skin
Light
weight
Fully
rechargable battery and charger
included
|
Sources