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CLINICAL STUDIES FOR THE VIRAL INHIBITOR PRO AT NATIONAL PREVENTION, A CALIFORNIA STATE
LICENSED MEDICAL OFFICE
Low voltage electrical current actually recharges the
energy level of the cell, which changes the biochemical
working of the cell at micro levels. This has been shown
in recent studies to increase ATP energy production by
up to 500%, and increased protein absorption into the
cell between 30 and 40 %.
Recent studies have shown that
diseased or damaged cells give off mitogenic radiation
at a different frequency than healthy cells. Treating
the cell with a defined frequency can oscillate the cell
back to its healthy state. As an aside, this may be
demonstrated by laser research. The property of
semi-conductivity is ascribed to biological structures
due to intricately organized zones of conductants and
delocalized electrons that create a bioplasma; this
gives the cell the properties of a crystal. When a
homogenous substance such as a crystal or metal tuning
fork vibrate at one frequency, it will affect another
substance or tuning fork some distance away. Both will
end at some harmonious, but different vibration. Taking
into account that particles and waves are believed to be
completely interchangeable at the atomic and subatomic
levels, the electrodynamic field is the
interrelationship of particles that are affecting each
other through change and movement. These relationships
are refineable in terms of oscillation and vibrations.
During electrical stimulation of
pathological tissue, the electrons react with water
molecules at the cathode side to produce hydroxyl ions,
while at the anode side, protons are formed. Thus,
between the anode and cathode interface, a proton
gradient and a potential gradient across the tissue and
the medium are created. Hence, protons under the
influence of the concentration difference should move
from anode to cathode. Since the rate of proton
formation at the anodic interface is equal to the rate
of proton consumption at the cathodic interface, the net
pH of the system, medium and tissue, remains
undisturbed. As the migrating protons reach the
mitochondrial membrane-bound ATPase, AD will be formed.
Thus, when we discuss the current
passing through the membrane capacitance, the changes
haven't physically penetrated the membrane itself; the
current can pass through the membrane even though ions
cannot. And so, by increasing the cell's potential, we
increase the cell's own ability to produce energy.
Thus, it would appear that we may use
low voltage electrical fields to penetrate the protein
envelope of the Herpes virus, stimulate the cell
capacitance via the increase of mitochondrial function,
return the cell to normal functioning, and break up the
polypeptide structure of the virus core.
In order to test this theory, the
subject, to the potential lesion site created a small
low voltage electrical device.
The subjects
carried on clinical studies over a period of six years
both in-house, and privately.
SUBJECTS
Ninety-six men and women between the
ages of 19 and 37 participated in the study that took
place over a period of five years of clinical trials.
Subjects were placed in one of three
groups as follows: Group One -23 controls. These
subjects were administered no electrical stimulation.
Some of these subjects sporadically used some form of
drug therapy. Group Two consisted of 50 subjects who
were seen in a medical clinic with their treatment
supervised by a MD. These patients took no drugs and
were treated solely with electrical stimulation. Group
Three consisted of 23 subjects who were issued a small
electrical stimulation device.
All of the subjects in this study
suffered from either Herpes Simples 1 (mouth herpes), or
Herpes Simplex 2 (genital herpes). Prior onset of the
disease ranged from 1.5 to 5 years. Other staff included
Chiropractors, RN's, Medical Scientists, a California
licensed Psychologist and Licensed Medical Assistants.
This facility was one of 19 offices participating in a
Nationwide Herpes Research and Treatment program.
Group One subjects reported onset,
progress and resolve of their lesions on a daily basis.
Group Two subjects were treated in
the clinic commencing with the onset of the lesion and
four times a week until the lesion resolved. Treatment
consisted of the application of low voltage electrical
stimulation delivered to the lesion by the use of a
non-invasive stainless steel probe.
Group Three
subjects were issued low voltage electrical stimulators
and told to take them with them and keep them handy at
all times. These subjects were further instructed to be
acutely aware of the onset of the next occurrence of
itching, tingling, pain, or ache in the area. They were
further instructed that it was crucial that they be not
only aware of the onset, but immediately be able to
access the stimulation unit and use it at the site of
the potential lesion as follows: "Use the Viral
Inhibitor Pro to make contact with the potential lesion
site for 15 seconds. Continue this procedure once per
hour for eight hours without interruption on the first
day of recognition of preliminary symptoms." These
subjects were further told that if a lesion should begin
to occur, they should continue this procedure until the
lesion resolved itself.
RESULTS
The results of this study are
outlined in Table 1.
Table 1: Comparison of Treatment
Procedures |
|
STUDY GROUPS |
SEX
Males Females |
HERPES SIMPLEX |
AVG LENGTH OF LESION
(DAYS)
Males Females |
|
Controls |
7 |
4 |
I |
9 |
7 |
|
6 |
6 |
II |
10 |
8 |
|
Total = 23 |
Average = 8.5 |
|
Clinically - Treated |
13 |
15 |
I |
3 |
4 |
|
12 |
10 |
II |
4 |
3 |
|
Total = 50 |
Average = 3.5 |
|
Self - Treated (Viral Inhibitor Pro)
|
5 |
6 |
I |
0 |
0 |
|
4 |
8 |
II |
0 |
1 |
|
Total = 23 |
Average = 0.25 Days |
As can be seen, the three groups studied were
compared as to sex, number of days of persistence of lesion, and
type of herpes.
The most successful treatment groups were
those subjects who treated themselves with the Viral Inhibitor
Pro prior to onset of the lesion. Average length of the
lesion for this group was .25 days.
Group Two, or the clinically treated
subjects, averaged 3.5 days of persistence of lesion.
Group One controls fared the worst in
comparison with the treatment groups' average length of lesion
for this group was 8.5 days.
A three-way analysis of variance was
performed in order to compare the results of the three groups.
When compared with the control group, both the clinically
treated and the self-treated groups demonstrated a shorter time
of persistence significant at the .001 level. The self-treated
group demonstrated an even more significant reduction in time of
lesion persistence than the clinically treated group at the .001
level.
The data presented appears to support the
hypotheses that low voltage electrical current, when applied to
the lesion site, can significantly reduce the time of
persistence of that lesion resulting from either Herpes Simplex
1 or 2.
Data further demonstrates more dramatically
that self-treatment with low voltage electrical current within
the first 15 minutes of the occurrence of a Herpes Simplex
lesion, can prevent the occurrence of a lesion at the site of
stimulation.
Data further indicates
that there was no significant difference in results of treatment
with regard to sex or type of simplex manifested.
DISCUSSION
The hypothesis proposed at the beginning of
the paper was supported by the data. The average length of
persistence of a Herpes Simplex lesion in controls who underwent
no electrical stimulation, average 8.5 days (this figure being
affected somewhat by the spurious use of drugs by some of the
patients some of the time). As can be seen in Table 1,
intervention by low voltage electrical current appeared to have
a significant effect on shortening the length of persistence of
the lesion, the self-treated group demonstrating the most
significant results in terms of little or no manifestation of
the lesion. Low voltage electrical current, when applied to the
lesion site, or the possible lesion site, appears to, as
proposed earlier, penetrate the protein envelope barrier which
protects the virus from destruction.
As the herpes virus manifests itself via the
nervous system. a treatment route was designed to pervade that
system and attack the virus using the electrical properties of
the nervous system at the cell level to combat the virus.
An electrical current can, therefore, be
assumed to be able to radically change the response of the
healthy cell to the invading virus. This appears to be
accomplished by stimulating the mitochondrial function of the
cell to return to normal the ionic balance inside and outside
the cell. This study has been an example of the electrical
manipulation of the biochemistry of pathological cells in a
viral medium. It was found that both pathological cells and
virus might possibly be affected to a significant extent with
the application of low voltage electrical stimulation at the
site of the interaction. The most significant affect appears to
be created by the treatment of a virus produced pathological
state at the onset, whereby the virus has not had an opportunity
to fully invade the system, or reach its fullest strength.
The key to effective treatment of the Herpes
virus, whether it is Herpes Simplex 1 or Herpes Simplex 2, is
the treatment by low voltage electrical stimulation at the
possible site of a lesion, as indicated by tingling or other
pre-lesion symptoms, as soon as the symptoms are felt.
The results of this study would further indicate the need for
the Herpes virus patient to be provided with and carry with them
at all times, the Viral Inhibitor Pro, that they would be able
to use immediately upon manifestation of a pre-lesion condition.
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