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A Short
Synopsis of |
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LifeWave
Patches |
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By Dr. Steven Haltiwanger, MD CCN |
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The lay
public and even professionals
often misunderstand, ignore
and even ridicule radically
different technologies and new
commercial products, when they
appear to deviate too much
from conventional established
approaches. In order for the
marketplace to accept and
embrace a radically different
new commercial product the
public must understand a
product's unique benefits and
how it differs from other
products on the market. |
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The unique nature of LifeWave
patches |
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LifeWave patches are unlike
any other patch technology
currently sold. While other
patches placed on the skin
deliver substances into the
body, LifeWave patches
are not transdermal
patches. Instead this
technology is entirely new
and unique. LifeWave
patches do not put
any substances into the
body. Instead the safe
natural biological
substances contained within
the patches are used to
create specific biosignals
that modulate the body's
natural magnetic field in
order to enhance certain
specific biological
reactions that are already
naturally taking place.
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Stimulation of the body with
electric or magnetic fields
is a well-accepted practice
in medicine. Most people are
aware that electric or
magnetic energy at different
frequencies can be generated
and applied to the body with
electronic devices that are
external to the body. The
application of electric or
magnetic energy to activate
excitable tissues/cells and
subcellular components is
called electric
stimulation or
magnetic stimulation,
respectively. |
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LifeWave patch technology
also uses bioelectric
stimulation, however the
stimulation is due to the
production of specific
electrical frequencies by
the body's natural magnetic
field from materials present
in the patches. Instead of
putting a substance into the
body the patch technology
couples the frequency
signature of the substance
into the body. What David
Schmidt, the inventor of
LifeWave patches, has
essentially done is to use
the electronic and magnetic
features of the body like
a cellular radio to
transmit very weak
bioelectric signals from his
patches into the body to
enhance the production of
energy. His technological
discovery applies research
from many fields of science
to promote the burning of
fat as an energy source to
produce greater stamina.
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LifeWave patches are able
to influence chemical
reactions in the body, such
as converting fats into
energy without placing
chemicals into the body.
Instead of putting chemicals
into the body these patches
have been designed to
deliver specific
bioelectrical signals into
the body. This is done by
placing natural organic
substances in the LifeWave
patches that exactly match
some of the molecules
involved in the regulation
of energy production in the
body. When the patches
interact with the body's
magnetic field the natural
substances in the LifeWave
patches, in a sense, act as
a transmitter of a specific
set of electrical
frequencies. |
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LifeWave patch technology
was invented with the
recognition that the body is
composed of molecules and
that each chemical reaction
in the body uses very
specific combinations of
molecules and that these
molecules will respond to
specific frequency signals
or codes. The frequencies
produced by the interaction
of the patches with the
magnetic field of the body
are in a sense a code that
turns on the body's
production of energy.
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What is the payoff
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for people who buy and use
this product?
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LifeWave patches were
designed to make people
winners. Most people
involved in any type of
physical activity will find
they have more stamina and
energy when they use these
patches. These patches will
also enhance energy and
provide the stamina needed
for carrying out the daily
activities of life.
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Two of
the characteristic effects
that consistently are
produced in individuals who
wear LifeWave patches are
an immediate and physically
demonstrable increase in
energy and strength
endurance that occurs
within minutes of placing
the patches on the body.
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University and College
studies |
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Formal
double-blind placebo
controlled studies of
LifeWave patches have
already been done at Troy
State University in Alabama
and Morehouse College in
Atlanta with athletes.
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The
strength and conditioning
coaches who have performed
these studies have found
that the college athletes
increased their stamina, and
strength endurance while
wearing the patches. These
studies showed that athletes
who wore the patches had
improved athletic
performance.
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This technology can also
enhance |
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the performance of an
average person |
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If you
are running, bicycling,
weight lifting, or playing
tennis, golf, soccer,
baseball, football, etc. you
don't want to be tired in
the middle of your workout,
race or game. Instead you
want to have sustained
stamina, energy and
strength.
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Users
of LifeWave patches have
experienced immediate and
demonstrable increases in
physical stamina within
minutes after wearing the
patches. For any individual
improvements in energy
production and stamina may
be the difference between
winning and losing.
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Performance enhancement
is the most exciting thing
most people who have tried
this technology experience.
This is what the patches are
designed to accomplish!
Whether you are a
professional athlete, a
weekend warrior or just want
to have enough energy to go
shopping and cook dinner
LifeWave patches were
designed for you.
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summary, the LifeWave
Technology in the LifeWave
patches is a new and unique
method of improving human
performance. This technology is
based on the well-known physical
principles of resonant energy
transfer, frequency modulation,
electromagnetic induction and
wireless communication with
these physical principles being
applied in a new and novel way.
The benefits of the LifeWave
technology include increases in
human energy, stamina and
strength. Any athlete or any
individual interested in
improving their energy or
performance should consider the
use of LifeWave patches. |
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A
double blind placebo
controlled study of the
LifeWave technology
as it relates to the
improvement of strength
endurance in
high performance college
athletics. |
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By David
Schmidt, President |
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LifeWave
Products, LLC |
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Abstract
The LifeWave technology is a
new supplement and method for
the improvement of athletic
performance. LifeWave is a
means by which an individual
may substantially increase
their net strength endurance
within as quickly as the first
use of the product. To
evaluate this statement in an
unbiased manner, a double
blind placebo controlled study
was implemented at Troy State
University in Troy, Alabama.
The principal investigator of
this study was Coach Richard
Shaughnessy, strength and
conditioning coach for the
Troy State department of
athletics. A standardized test
was selected to measure net
gains in strength endurance,
and in this case the exercise
that was performed by all
athletes was a 225 lb. flat
Bench Press. The baseline data
for this test was collected on
Thursday June 26, 2003. The
comparative data was collected
on the following Wednesday
July 2, 2003. Athletes were
divided into three groups:
Control, Placebo and Test. The
Control group was tested "as
is" on both of these testing
days. The Placebo group was
given a set of patches filled
with water; this group was
unaware as to whether or not
the patches were real or water
filled. The Test group was
given a set of patches with
the LifeWave technology;
again, this group was unaware
as to the contents of the
patches. It will be emphasized
that the athletes using the
LifeWave technology used the
product only once; the test
was performed within 10
minutes of first applying the
patches to the athletes.
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Metabolism and ATP production
It is well known that in
humans in order for locomotion
to occur ATP must be available
to the muscle as well as all
other cells. The biochemistry
of metabolism is centered in
the synthesis of
carbohydrates, fats, proteins
and nucleic acids. For the
purpose of this discussion we
shall concern ourselves
primarily with the metabolism,
utilization and transport of
fats as they pertain to the
production of ATP.
In carbohydrate metabolism
that involves the glycolysis
of glucose molecules to
pyruvic acid for the purpose
of feeding the Krebs Cycle
with high-energy molecules, a
process called chemiosmosis is
used to pump protons across a
membrane and provide the
energy for ATP synthesis. The
electron carrying coenzyme
molecules from the Krebs Cycle
enter the chemiosmosis
process, the electrons are
lost from the coenzymes, the
energy is used to pump protons
across the mitochondrial
membrane, and as the protons
flow to the outer compartment
of the mitochondrion the
energy from the electron flow
is used to synthesize ATP
molecules.
In contrast, in the metabolism
of fats - precipitated by
these molecules being first
broken down into fatty acids
and glycerol molecules during
digestion - the glycerol is
converted within the cell to
DHAP, an intermediary
compound. This is important in
that the DHAP may continue
along a metabolic pathway to
pyruvic acid, or the DHAP may
reverse and follow another
pathway towards becoming
glucose.
Of concern in this discussion
is the use of fatty acids as a
metabolic reactant in the
mitochondria of the cell. In a
process known as
beta-oxidation (the fatty acid
spiral) the fatty acids are
converted into 2-carbon units
of acetyl-CoA. A single fatty
acid molecule containing 16
carbon atoms will yield 8
molecules of acetyl-CoA. As
each acetyl-CoA molecule
enters the Krebs cycle it is
metabolized to release its
energy. The ultimate formation
of ATP after beta-oxidation
and the Krebs Cycle is the
same as described above. The
difference in the sources of
energy - carbohydrates or fats
- is in that the energy yield
from a 16-carbon fatty acid
molecule is considerable. With
respect to an athlete, it
would be highly desirable to
be able to utilize fatty acids
as an energy source in ATP
production in that this could
potentially have a desirable
effect on stamina and/or
strength endurance. |
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LifeWave
principal of operation
The LifeWave technology is a
passive non-invasive device
composed of water, Oxygen and
organic compounds that is worn
by the user much in the same
fashion as a band aid. This
product is not a transdermal
patch and it has been
demonstrated by the
manufacturer that none of the
patch active materials
diffuses into or comes in
contact with the user.
The obvious question that
arises is how is it possible
for such a device to function
other than a placebo effect?
It is postulated by the
manufacturer that the LifeWave
patch passively modulates the
oscillating low energy
magnetic field that exists
just above the surface of the
human epidermal layer. This
passive frequency modulation
creates a condition in which
the transport of long chain
fatty acids across the
mitochondrial membrane for
subsequent beta-oxidation and
energy production is triggered
or improved, thereby providing
the user with increased energy
via an increase in ATP
production as described above.
To understand how this
phenomenon could be possible,
let us re-examine the
metabolic process involving
fatty acid energy sources
within the human body. Fatty
acids, a hydrocarbon in which
one of the hydrogen atoms has
been replaced by a carboxyl
group, are also described as a
monobasic aliphatic acid made
up of an alkyl radical
attached to a carboxyl group.
The metabolic role of fatty
acids may be described in part
in that fatty acids are one of
the primary sources of energy
for humans, and through
Beta-Oxidation, are broken
down into basic units of
energy. Of interest here is
that in order for this process
to work, fatty acids need to
enter the mitochondria for
Beta-Oxidation, and they are
unable to penetrate the inner
mitochondrial membrane by
themselves.
In addition to lipid
metabolism, the mitochondria
is involved with protein
synthesis, and by using either
phase-contrast microscopy or
electron microscopy, the
mitochondrial filaments or
rods are seen to be 0.5
micrometers in diameter. This
information is significant in
that it is reported by the
manufacturer that in the
LifeWave technology,
materials and structures must
be selected based upon the
resonant and sympathetic
frequencies of the
mitochondria during lipid
metabolism. In the human body,
to overcome the problem of the
inability of fatty acids to
transport from the cytosol
(soluble portion of the cell)
across the mitochondrial
membrane, it has been
determined by several
researchers that various
nutrients are essential to
transport long chain fatty
acids from the cytosol across
the mitochondrial membrane for
fatty acid
oxidation/metabolism and
energy production.
To obtain the desirable effect
of improving cell metabolism
passively (specifically,
increasing the rate of fatty
acid Beta-Oxidation by
allowing fatty acids to
transport across the
mitochondrial membrane) the
manufacturer constructed a
device consisting of
orthomolecular organic
structures designed to
passively interact with the
human magnetic field for the
purpose of creating a system
of frequency modulation, much
in the same way that radio
waves are modulated to
communicate audio information.
Context:
At the time prior to the
beginning of this study the
relationship between the
LifeWave technology and
increases in stamina or
strength endurance was known
by LifeWave Products, LLC but
not known by the athletes
participating in this study.
Objective:
To quantitatively assess the
effectiveness of the LifeWave
technology in improving the
bench press performance of
college football athletes
during team training.
Methods:
Using a double blind
randomized placebo controlled
study, a total of 25 subjects,
ages 18 to 22 years,
volunteered to participate for
this test study. Subjects'
baseline bench press data was
colleted after a brief warm up
period. Subjects were asked to
bench press a fixed 225 lb.
weight until failure. In the
next session, subjects were
randomized into three groups
using a numbering system that
labeled participants as test
group, placebo group or
control group members with 25
completing this two session
study. The test group was
provided with non-transdermal
patches that contained the
LifeWave technology. The
Placebo group was provided
with non-transdermal patches
that contained water. A
collection team independent of
the players collected and
monitored data throughout the
study process.
Main Outcome Measures:
The LifeWave technology is a
non-invasive patch that
demonstrated the ability to
improve strength endurance in
the majority of athletes that
utilized it during a strenuous
weight lifting activity.
Results:
Raw data collected from the
two-day study was as follows;
all numbers listed are
repetitions performed:
From the raw data collected in
the above table, and by
removing the highest and
lowest scores from each group,
it was determined that (1) The
average percentage change in
strength endurance in the
Control group was an increase
in performance of 8.9% from
the baseline tests to the
comparative tests (average
0.875 rep improvement); (2)
The average percentage change
in strength endurance in the
Placebo group was an increase
in performance of 13.8% from
the baseline tests to the
comparative tests (average
1.67 rep improvement); (3) The
average percentage change in
strength endurance in the Test
group was an increase in
performance of 43.2% from the
baseline tests to the
comparative tests (average 2.6
rep improvement).
In addition, the data shows
the following:
The above table gives us the
breakdown of athletes in each
group as it pertains to
showing whether or not an
athlete showed a decrease in
performance from baseline to
comparative test, remained the
same in performance from
baseline to comparative test,
or showed an increase in
performance from baseline to
comparative test.
In the Control group we see
that 20% of the participants
showed a decrease in
performance during the two-day
study, 10% of the participants
maintained the same level of
performance during the two-day
study, and 70% of the
participants showed an
increase in performance during
the two-day study. In the
Placebo group we see that
12.5% of the participants
showed a decrease in
performance during the two-day
study, 25% of the participants
maintained the same level of
performance during the two-day
study, and 62.5% of the
participants showed an
increase in performance during
the two-day study. In the Test
group we see that 14.3% of the
participants showed a decrease
in performance during the
two-day study, 0% of the
participants maintained the
same level of performance
during the two-day study, and
85.7% of the participants
showed an increase in
performance during the two-day
study.
If we remove the data for the
individuals who both decreased
in performance and maintained
the same level of performance
we find that (1) in the
Control group, with respect to
the 7 individuals who did show
an improvement in performance
from the baseline to the
comparative test the average
increase in strength endurance
was 19.7%; (2) in the Placebo
group, with respect to the 5
individuals who did show an
improvement in performance
from the baseline to the
comparative test the average
increase in strength endurance
was 30.8%; (3) in the Test
group, with respect to the 6
individuals who did show an
improvement in performance
from the baseline to the
comparative test the average
increase in strength endurance
was 63.8%.
If we remove the data for the
individuals who both increased
in performance and maintained
the same level of performance
we find that (1) in the
Control group, with respect to
the 2 individuals who
decreased in performance from
the baseline to the
comparative test the average
decrease in strength endurance
was 27.8%; (2) in the Placebo
group, with respect to the 1
individual who decreased in
performance from the baseline
to the comparative test the
decrease in strength endurance
was 42.8%; (3) in the
Experiment group, with respect
to the 1 individual who
decreased in performance from
the baseline to the
comparative test the decrease
in strength endurance was
6.2%.
Discussion:
Based on the data collected it
is evident that there are
several distinct differences
in athletic performance
between the three groups. With
respect to the simple
averaging of performance
numbers, it is not unusual
that all three groups
experienced an increase in
strength endurance given the
nature of the test (athletes
were in a training session for
the upcoming football season).
With respect to the Placebo
group, a case could be made
that there was indeed a
"Placebo Effect" that took
place; athletes that wore the
patch product thought that
they had the real technology
so hence they made more of an
effort to perform. Given the
data of the average group
performance improvement of the
Placebo group of 13.8% (as
compared to 8.9% in the
Control group) this would be a
reasonable spread in terms of
attainable improvements from
the baseline day to the
comparative day. With respect
to the Test group, there was
indeed a legitimate effect of
the LifeWave technology on
athletic performance; athletes
that wore the patch product
experienced an average
improvement of 43.2% in
strength performance. The
spreads in average performance
numbers between the three
groups is significant and
would tend to indicate that
the LifeWave technology
played an important role in
improving strength endurance
in the test group.
Another indicator that the
LifeWave technology was
having a legitimate effect on
athletic stamina is evidenced
in the chart on page 4. In all
three groups we see that the
majority of the athletes
improved in performance;
however, the Control group and
Placebo group showed nearly
identical percentages of
athletes that improved, with
70% of the Control group and
62.5% of the Placebo group. By
comparison in the test group
we see that 85.7% of the
participants experienced an
improvement in performance.
Given that the Test group had
the highest percentage of
members who recorded an
improvement in performance,
with 85.7% of the members
demonstrating an improvement,
and that the average
improvement was significantly
higher than the other two
groups (43.2%) this would
again indicate that the
LifeWave technology was
having a beneficial effect on
athletic performance.
Another important indicator
with respect to examining that
the LifeWave technology was
having a beneficial effect on
athletic performance is found
when looking at only those
individuals who increased in
performance or only those
individuals who decreased in
performance. In the Control
group we find that of those
individuals who did show an
improvement the average gain
was 19.7%. In the Placebo
group we find that of those
individuals who did show an
improvement the average gain
was close to the Control group
at 30.8%. In the Test group we
find that of those individuals
who did show an improvement
the average gain was more than
triple the Control group and
double the Placebo group at
63.8%. This information would
indicate that the LifeWave
technology was having a
beneficial effect on strength
endurance. This improvement is
dramatic in that the
individuals tested had only
used the LifeWave technology
for 10 minutes prior to the
test.
Conclusion:
Based on the data collected
and the results obtained it
was demonstrated that the
LifeWave technology is a
method for the improvement of
athletic performance, and more
particularly a means by which
an individual may increase
their net stamina/strength
endurance output. The model
utilized to evaluate the
technology was a double-blind
placebo controlled study, with
25 college athletes from the
Troy State University football
team volunteering to
participate in this study. In
this evaluation of strength
endurance involving
competitive athletes both
baseline and comparative tests
were performed prior to any
other type of physical
activity. Being that the
athletes had a very brief
usage of the LifeWave
technology, an additional
study would prove to be of
interest as a comparison to
this test study to determine
what effect the LifeWave
technology has on athletes
that incorporate LifeWave
into their daily training
regime.
It was demonstrated that the
Test/LifeWave group using the
LifeWave technology showed
the highest percentage of
improvement in strength
endurance when averaging all
members, the highest
percentage of improvement in
strength endurance when
averaging only those members
who showed an improvement, and
the lowest percentage of
decreased performance when
averaging only those
individuals who showed a
decline in performance. |
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