Research Articles and Patents
INDEX
Papers relative to the
Microbe Electrifier:
Biocompatible Electric Current
Attenuates HIV-1 Infectivity
PATENT 5,139,684; Electrically
conductive methods and systems for treatment of blood
Papers relative to
the Candida Zapper:
STUDIES ON THE EFFECT OF MEDIKZAP AND
NE 555 DEVICES USED IN NATURAL MEDICINE ON THE CANDIDA ALBICANS FUNGUS
Papers relative to
the DC Electrifier:
Effects of
Microamperage, Medium, and Bacterial Concentration on Iontophoretic
Killing of Bacteria in Fluid
Inactivation of
bacterial population in hide-soak liquors via direct electric
current
Papers
relative to
the Herpes Zapper:
Patent 5,133,352: Method for Treating
Herpes Simplex
Papers relative to the OMF Generator:
2 patents and FDA report
Health Effects of
Electro-Magnetic Fields
from Science News, Vol. 156, No. 20
November 13, 1999, p. 316
http://www.sciencenews.org/sn_arc99/11_13_99/bob2.htm
http://www.sciencenews.org/sn_arc99/11_13_99/bob2ref.htm
Two
previous studies had found that electro-magnetic fields (EMFs) reduce
pain and swelling. EMFs also have that effect in a new trial headed by
orthopedic surgeon Roy K. Aaron. Presumably, he says, it does it "by
changing the chemistry of the joint." Studies by his team and others
indicate that these fields can increase a joint's production of natural
anti-inflammatory agents, such as transforming growth factor-beta. Not
surprisingly, Aaron notes, medical supply companies are now developing
products, such as a glove with coils, to deliver EMFs to
arthritis-ravaged joints. Softer tissues also respond to these fields.
For instance, Arthur A. Pilla, a biophysicist at the Mount Sinai School
of Medicine in New York City, observes that many people with bone
breaks experience significant pain in muscles around their injuries.
Shortly after EMF therapy begins, however, that pain disappears. Though
the mechanism remains elusive, Pilla says, the treatment seems to
affect swelling, which can cause pain. If this proves true, he says,
EMFs might benefit people with carpal tunnel syndrome, where swelling
in the wrist pinches nerves going to the fingers. Indeed, that's a
possibility that Betty F. Sisken of the University of Kentucky College
of Medicine in Lexington would like to explore. Currently, she's
probing EMFs' direct influence on nerves. In their initial studies, she
and her colleagues crushed a nerve in the hind leg of rats and then
treated the animals with EMFs for 4 hours daily.
BIOCOMPATIBLE ELECTRIC
CURRENT ATTENUATES HIV-1 INFECTIVITY
William D. Lyman, Irwin R. Merkatz
William C. Hatch and Steven C. Kaali
Departments of Pathology, and Obstetrics & Gyneclogy
Albert Einstein College of Medicine,
1300 Morris Park Ave. Bronx, N.Y. 10461
Summary
In
this report, we present the results of double-blinded studies on the
use of direct electric current to alter the infectivity of HIV-1 for
susceptible cells in vitro. These experimental currents were equal to
3.85 and 7.7µA/mm2 current densities respectively. The
reduction of infectivity was dependent upon the total electric charge
(µA x min) passing through the chamber to which the virus was exposed.
Viral infectivity was determined by two independent measures: a
syncytium-formation assay which can be used to quantify the production
of infectious particles; and a reverse transcriptase assay which is an
index of viral protein production.
Results
Syncytium-formation assay:
Using this index of HIV-1 infectivity, it was determined that exposing
virus to direct electric current suppressed its capacity to induce the
formation of syncytia. Figure 1 shows a representative experiment and
Table 2 shows the Croup data for 3 separate experiments. As can be
noted in Figure 1, a statistically significant (p<0.001) reduction
in syncytium number was absented and this reduction was dependent upon
the current applied to the viral isolate. At three different viral
dilutions, there were analogous results in that a total charge of 200µA
x min (25µA for 8 minutes) reduced the number of syncytia from 50% to
65% while a charge of 3O0µA x min (50µA for 6 minutes, 75µA for 4
minutes or 100µA for 3 minutes) resulted in 90% reduction.
Reverse transcriptase assay:
The direct electric currents to which HIV-l was exposed also reduced
reverse transcriptase activity. Five separate experiments were
conducted and a representative experiment is shown in Figure 2 and the
data are included in Table 3. As can be seen in Figure 2, there was a
significant decrease in the amount of reverse transcriptase activity
after exposure of the virus to either 50A for 3 or 6 minutes. An
equivalent reduction in reverse transcriptase activity was also noted
with exposure to 100µA for 3 minutes and almost ablation of reverse
transcriptase activity was seen with exposure of the viral isolate to
100µA for 6 minutes. The group data (Table 3) show that after exposure
to 50µA for 6 minutes, there was a 44% reduction in activity and
treatment of virus with 100µA for 6 minutes resulted in a 94%
reduction. An analysis of variance indicates that the decrease in
reverse transcriptase activity was statistically significant
(p<0.0001).
DISCUSSION
The results reported here demonstrate that HIV-1 treated with direct
electric currents from 50 to 100µA has a significantly reduced
infectivity for susceptible cells in vitro. This reduction of
infectivity correlates with the total electric charge passing through
the chamber. The therapeutic potential of electric current may reside
in its ability to lower the viral titer to subclinical significance or
in its incorporation into a strategy analogous to that of other
therapies in which repeated cycles of treatment eventually achieve
remission or cure. It may be also feasible to treat AIDS patients with
direct electric current using either extracorporeal [out of body]
systems or self contained indwelling electrodes.
Figure l
Syncytium Formation at 1:160 dilutionexposure (µA/minute)
0/6 25/8 50/6 75/4 100/3
# of syncytium formed 128 45 9 7 2
Five
aliquots of the RF strain of HIV-1 were exposed to direct electric
current. At all the dilutions tested, electrical treatment of the virus
aliquots resulted in a significant decrease in syncytium formation.
Figure 2
Reverse Transcriptase Activity
exposure (µA/minute) 0/3 0/6 50/3 50/6 100/3 100/6 reverse transcriptase 300 205 108 105 100 12
count per million x 10-3
Six
aliquots of the RF strain of HIV-1 were exposed to different amounts of
current for 3 or 6 minutes. A significant decrease (p<0.005) from 0
current levels (0/3 and 0/6) in reverse transcriptase activity is
noted. However, the decrease is more significant (p<0.0001) when
virus is exposed to 100µA for 6 minutes.
Michael's Notes:
Human CD4 immune blood cells were exposed to various amounts of
electric current for various amounts of time and then mixed with HIV-1
virus. The resultant decrease in CD4 infection by the virus (resulting
in cell enlargement [syncytium] and reverse transcriptase production)
is listed in the two tables under the column headings indicating how
much electric current in microamperes (µA= millionths of an ampere) was
applied to the virus for how many minutes. 100µA applied for 3 minutes
to the virus produced only approximately 2% of the number of enlarged
cells (syncytium) as was produced after 6 minutes without electrical
treatment of the virus. 100µA is equal to 7.7µA per square millimeter
(mm2)
of the surface of the electrodes delivering the electric current to the
virus. Explanation of tests: Human CD4 immune cells, when exposed to
HIV-1 virus, normally become infected with the virus and then enlarged
as the virus reproduces itself (with the coerced help of the blood
cell) within the CD4 cell. So anything that can reduce the viral
infectivity (the ability of the virus to infect a cell) can be tested
in the laboratory to see if less enlarged cells (syncytium) are
produced which will show the degree of success of the anti-viral.
Reverse transcriptase is an enzyme used by retroviruses to form a
complementary DNA sequence (cDNA) from their RNA. The resulting DNA is
then inserted into the chromosome of the host cell. A test showing how
much is being produced is a way to quantify approximately how much
viral reproduction has happened as a result of viral infection of the
CD4 cells. So a test result showing reduced reverse transcriptase
activity is one that shows how successful an anti-viral is at reducing
the infectivity of a virus.
U.S. PATENT 5,139,684
By Steven Kaali and Peter Schwolsky
Filed 11-16-1990, approved 8-18-1992
Electrically conductive methods and systems for treatment of blood and
other body fluids and/or synthetic fluids with electric forces
Claimed:
"...applying...
no biologically damaging electric potentials... to the electrically
conductive electrode segments whereby electric field forces are
produced... that induce biologically compatible current flow through
the blood... to attenuate bacteria, virus, parasites, fungus contained
in the blood... to render the bacteria, virus, parasites, fungus
ineffective while not impairing the biological usefulness of the fluids"
Summary:
"...to attenuate such contaminants to the extent that bacteria, virus,
or fungus, or parasites contained in the blood... are rendered
ineffective to infect or affect healthy cells."
Best Mode of Practicing Invention:
"For example, treatment of AIDS virus in media at 100 microamperes for
3 minutes has been observed to substantially attenuate (render
ineffective) the AIDS virus."
Experimental Results:
"In conclusion, these experiments... indicate at a statistically
significant level that direct electric current... can attenuate the
ability of HIV-1 to infect normally healthy cells which are susceptible
to the HIV-1 AIDS virus." "Both of these assays (syncytia & reverse
transcriptase) are widely used as reproducible measures of viral
infection and can be used to determine if alternations in viral
infectivity as a product of this electrical treatment can be detected."
"...it is believed obvious that other modifications and variations of
the invention will be suggested to those skilled in the art in the
light of the above teachings." "...it is possible that certain virus
may be attenuated (or attenuated at a faster rate) if they are exposed
to a greater electric current magnitude of the order of 500
microamperes for shorter time periods."
Michael's Notes:
The patent's 1st laboratory test used electrically treated (at
100µA/3min which is 7.7µA per square millimeter for 3 minutes) HIV-l
virus mixed with human T cells (immune cells which the HIV likes to
infect) and showed 99% less infected & enlarged T cells (syncytia)
by viruses after 4 days compared to T cells mixed with HIV-1 not
electrically treated. The patents 2nd lab test used electrically
treated (l00µA/6min) HIV-1 mixed with blood T cells and showed 72% less
virus associated enzymes (reverse transcriptase produced as a result of
viral reproduction) after 4 days, compared to T cells mixed with HIV-1
not treated. So to equate 7.7µA/sqmm (the most important parameter)
through blood in your arms brachial artery* (that runs from elbow to
elbow) that has an average cross sectional area of 16 square mm you
need to multiply 16 by 7.7 to get .124mA, whereas 50µA equates to
.062mA from a blood electrifier. But the electricity winds up in both
arteries crossing the body between the shoulders and so this amount
needs to be doubled in order to maintain the same current density.
2x.062=.124 and 2x.124=.248. Using the electrodes wrist to wrist does
not necessitate applying more than .25mA for optimal effectiveness. Due
to the short durations of exposure to the electricity, as the blood
passes through the main arteries (~ 1 minute), it is necessary to do
treatments of up to 1 - 2 hours. [see more
of this patent]>
Quotes
from Various Electromedicine Patents
Patent 6,675,047
Electromagnetic-field therapy method and device
Pulsed
[electromagnetic] field therapy produces a complex effect on the living
organism, because it contributes to an improvement in the energy
metabolism, increases the mobility of lymph, enhances the blood supply
of capillaries, and, as a consequence, improves nutrition of all
tissues of the organism. The pulse field therapy liquidates stagnation
of energy in tissues, whereby painful sensations are eliminated. The
pulse therapy improves ion exchange on the level of cells, regulates
the intracellular pressure, this contributing to normalization of the
overall metabolism.
Patent 7,024,239
Pulsed electromagnetic energy treatment apparatus and method
Electrotherapy
includes various means for applying an electric or electromagnetic
field to a wound area to facilitate growth and proliferation of new
tissue, i.e., healing. Application of external electrical and
electromagnetic fields is now an increasingly standard therapy for the
treatment of non-union bone fractures, but these devices have seen
limited use in other areas of healing. The present invention may also
be utilized in other treatment areas where increasing the rate of
growth and proliferation of cells is essential, including the treatment
of burns and surgically implanted skin or soft tissue grafts,
rehabilitation medicine, post surgical repair, and
neuronal/brain/spinal injury repair and regeneration.
Patent 6,261,221
Flexible coil pulsed electromagnetic field (PEMF) stimulation therapy
system
PEMF
therapy has been satisfactorily used in treating spinal fusion, failed
arthrodeses, osteonecrosis, and chronic refractory tendonitis,
decubitus ulcers and ligament, tendon injuries, osteoporosis, and
Charcot foot. During PEMF therapy, an electromagnetic transducer coil
is generally placed in the vicinity of the musculoskeletal injury
(sometimes referred to as the "target area") such that pulsing the
transducer coil will produce an applied or driving field that
penetrates to the underlying damaged bone or other body tissue.
Effects
of
Microamperage,
Medium, and Bacterial Concentration on Iontophoretic Killing of
Bacteria in Fluid
C P Davis, S Weinberg, M D Anderson, G M Rao
and M M Warren
Department of Microbiology, University of Texas Medical Branch,
Galveston
Antimicrobial Agents and Chemotherapy, April 1989, p. 442-447
An ionotophoretic generator was
used to
provide microamperage (10 to 400uA) to vials [by 2cm long thin metal
electrodes] containg either synthetic urine or supplemented synthetic
urine. Bacteria were added to vials [volume 10ml]. E coli and Proteus
species were both inhibited and killed at various microamperages and
with several electrode types. In general, ionotophoresis at 10, 50,
200, and 400uA killed the bacterial inocula within 2 days. Usually, the
organisms were undetectable within 4 hours, except for K. pneumoniae,
for which survivors were detected after 1 to 2 days.
This work suggests that even very low microamperage can be effective in
reducing or eliminating bacterial growth. Klebsiella pneumoniae in
supplemented synthetic urine was least inhibited in growth, and higher
microamperage (200 to 400 µA) was most effective in killing the
bacteria. Bacterial growth reduction and killing were directly related
to increasing microamperage.
Click here for the full study.
Journal of
Electrostatics
Volume 66, Issues 7-8, July 2008, Pages 355-360
Inactivation of bacterial population
in hide-soak liquors via direct electric current
Inactivation of bacteria by electric currents has received
much attention due to its high efficiency, low cost, and ease
of application.
Mesophilic bacteria in the first (seven samples) and main
(three samples) hide-soak liquors were inactivated after 20-30 min
of electrical treatment. In the other four main hide-soak liquors,
the inactivation occurred after 50 min of treatment.
Click
here for the full study.
The Electricidal Effect
Is
Active in an Experimental Model of Staphylococcus epidermidis Chronic
Foreign Body Osteomyelitis
Jose L. Del Pozo, Mark S. Rouse, Gorane Euba, Cheol-In Kang, Jayawant
N. Mandrekar, James M. Steckelberg, and Robin Patel
Division of Infectious Diseases,Infectious Diseases Research
Laboratory,Division of Biomedical Statistics and Informatics,Division
of Clinical Microbiology, College of Medicine, Mayo Clinic, Rochester,
Minnesota
Abstract
Treatment with low-amperage (200 µA) electrical current was compared to
intravenous doxycycline treatment or no treatment in a rabbit model of
Staphylococcus epidermidis chronic foreign body osteomyelitis to
determine if the electricidal effect is active in vivo. A stainless
steel implant and 104 CFU of planktonic S. epidermidis were placed into
the medullary cavity of the tibia. Four weeks later, rabbits were
assigned to one of three groups with treatment administered for 21
days. The groups included those receiving no treatment (n = 10),
intravenous doxycycline (n = 14; 8 mg/kg of body weight three times per
day), and electrical current (n = 15; 200 µA continuous delivery).
Following treatment, rabbits were sacrificed and the tibias
quantitatively cultured. Bacterial load was significantly reduced in
the doxycycline (median, 2.55 [range, 0.50 to 6.13] log10 CFU/g of
bone) and electrical-current (median, 1.09 [range, 0.50 to 2.99] log10
CFU/g of bone) groups, compared to the level for the control group
(median, 4.16 [range, 3.70 to 5.66] log10 CFU/g of bone) (P <
0.0001). Moreover, treatment with electrical current was statistically
significantly more efficacious (P = 0.035) than doxycycline treatment.
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2764171/
STUDIES
ON THE EFFECT OF MEDIKZAP
AND NE 555 DEVICES USED IN NATURAL MEDICINE ON THE CANDIDA ALBICANS
FUNGUS CELLS
Laboratory of Microbiology
Diagnostics Clinical Hospital no. 1
ul. Staszica 16, 20-081 Lublin, Poland
Abstract
The
aim of the study was to evaluate the effect of two positive off-set
type current generating by devices, available on the natural medicine
market, on the Candida albicans (fungus cells). In the course of the
study, broth cultures of Candida albicans were subjected to the
influence of these two devices for a period of 10 days. Every day, the
culture density and growth on an agar medium were determined. The
effects of each of the two devices on Candida albicans cells were found
to be different.
Conclusion
There
are many cleansing devices available on the natural medicine market but
their effect on specific micro-organisms is different. This assumption
was confirmed by our in vitro studies on the effect of two different
devices. Our analysis of both Medikzap and NE 555 effects on Candida
albicans cells has proved a greater efficacy of Medikzap device in
fungi control than that of the NE 555 device. The NE 555 device was
proved to have a static effect on Candida albicans cells but it does
not eliminate them completely.
[read full report]
Lathrop , et
al.
July 28, 1992
Method for Treating Herpes Simplex
Abstract
The
present invention provides an apparatus and method for treating
infectious skin conditions, such as Herpes Simplex 1 and 2. By the
application of an electrical field and current to the area of the
manifestation of the disease on the body there is activated a reaction
at the cell level to combat the virus and disrupt its attack on the
healthy cell structure. The present method comprises a direct
application of a low voltage direct current, low amperage stimulation
to the skin about the infected location for a few seconds every hour
for a length of time sufficient to prevent formation and/or heal the
resultant lesion.
Examples and Methods of Treatment
86 men and women between the ages of 19 and 37 participated in the
study over a period of 3 months.
Subjects were placed in one of 3 groups as follows:
Group One:
23 control subjects. These received no electrical stimulation and
reported onset, progress, and resolve of their lesions on a daily basis.
Group Two:
42 subjects. These were seen in a medical clinic with their electrical
treatment supervised by a medical doctor. These patients took no drugs
and were treated in the clinic commencing with the onset of each lesion
and 4 times a week until the lesion resolved.
Group Three: 21 subjects. These were each issued
a small electrical stimulation device (the same as the Herpes Zapper
)
and were told to always keep them handy. They were also told to be
acutely aware of the onset of the next occurrence of itching, tingling,
pain, or ache in the area. Once they noticed oncoming symptoms they
were told to "use the electrical stimulator to make contact with the
potential lesion site for 15 seconds. Continue this procedure once per
hour for 8 hours without interruption on the first day of recognition
of preliminary symptoms." They were also told to continue this
procedure until the lesion resolved itself.
All of the subjects in
this study suffered from either Herpes Simplex 1 (mouth herpes) or 2
(genital herpes). Prior onset of the disease ranged from 1.5 to 5 years.
RESULTS
Comparison of Treatment Procedures
Herpes Simplex 1 Herpes Simplex 2
-------------------- --------------------
# of avg. days # of avg. days
patients of lesions patients of lesions ---------- ------------ ---------- ------------
Group 1 controls
Men 7 9 6 10
Women 4 7 6 8
(total patients=23. Average lesion duration per
patient=8.5 days)
Group 2 clinically treated
Men 13
3 4 12 Women 15 4 10 3
(total patients=42.
Average lesion duration per patient=5.5 days)
Group 3 self treated
Men 5
0 4 0 Women 4 0 8 1
(total patients=21.
Average lesion duration per patient=.25 day)
----------------------------------------------------------------
As can be seen the most
successful group were those who treated themselves prior to lesion
onset, group #3.
The
average duration of lesion existence for this group was only 1/4 day.
It was also discovered that the sooner treatment starts after symptoms,
the better the results. To prevent lesion formation it's necessary to
start treatment within the first 12 hours after onset of symptoms.
Group 2 averaged 5 1/2 days lesion duration, and Group 1 averaged 8 1/2
days.
The data presented demonstrates that low voltage electrical current,
when applied to the lesion site, can significantly reduce the time of
persistence of that herpes lesion.
The data also shows more dramatically that self treatment with low
voltage electrical current within the first 15 minutes of the
occurrence of a symptom can prevent the occurrence of a lesion at that
site of stimulation.
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