Common
sense in medicine says if it’s not broke, don’t fix it…
unless it it's going to create a problem. Something that creates a problem
requires attention; the trick is to be able to distinguish between the symptom
and the problem to determine what requires fixing. Logically, if you don’t know
what’s wrong with a patient, and you can’t identify how the ailment is
affecting the body, working towards a meaningful cure turns into a game of
medical roulette. Thus, obtaining reliable information about the state of
health becomes the cornerstone of any comprehensive, effective plan for
prevention and treatment of ailments.
Bioelectrography serves as an extremely
powerful and comprehensive medical diagnostics tool, capable of showing
malfunctions of the body and mind long before any physical symptoms become
evident. Through proper and timely use of bioelectrography, a practitioner may
take preventive measures rather than wait until emergency treatments and
surgery are required.
One of the most general
and most universally used methods in science is so-called perturbation
technique. Response to a well chosen perturbation can reveal object
properties that are not obvious when the perturbation is absent. For example,
listening to the response of a gentle knock will help to determine if a wall is
solid or hollow. The response of the wall (the sound it emits) reveals the
wall's internal properties. This approach is used to investigate properties of
extremely wide range of objects in all imaginable scientific disciplines: from
physical, biological, Real World objects and systems to objects of purely
hypothetical and imaginary nature such as mathematical models.
Much like a sound of a disturbed wall reveals its internal properties, the
visible electrophotonic glow of an object in response to pulsed electrical
field excitation, the Kirlian Effect, contains information about the object. In
1996 Prof Korotkov developed a range of instruments for stimulation, recording
and processing of electrophotonic images and called his technique Gas Discharge
Visualization (GDV). One of the most significant applications of the GDV
technique today is assisting health professionals in quick and accurate
assessment of human state and in comparing effectiveness of various therapies.
A wealth of information about many
processes that occur in the human body can be obtained from a single drop of
blood. In a similar fashion, stimulated electrophotonic glow around a
representative sample of the human body (typically 10 fingertips) contains
information about nearly every major organ and function of human organism. Prof Korotkov confirmed
earlier observations of other researchers, such as Semion Kirlian, Dr Mandel
from Germany and Prof Milhomens in Brazil, that the stimulated electrophotonic
glow around human fingertips contained astonishingly coherent and comprehensive
information about the human state - both physiological and psychological, encoded in the shape and
location of the electrophotonic glow.
Modern
GVD instruments use glass electrodes to provide stable, reliable imaging in a
wide range of environmental conditions. The practitioner can then focus on the
information revealed by those images. Accurate analysis of Kirlian imagery reveals
the physiological state or the patient and determines bio-energetic
electro-photonic performance of the body and mind. Clinical correlation between
GDV and conventional diagnostic techniques rated at 98% or better. Following
clinical trials and the recommendation of The Russian Academy of Science, GVD
has been approved by health authorities in
The GDV Pro system of Korotkov consists of hardware and software for the direct
computer recording processing and interpretation of GDV images. GDV pictures
are created using unique patented optical system and CCD camera in daylight
conditions with real-time processing. The camera is portable, can be battery
operated and is safe for both the patient and the operator.
The
GDV Software offers advanced features and yet it is easy to use. It has a
friendly state-of-the-art graphic interface and is supplied with manuals and
help. Real time recording of a GDV-gram can be performed as a photo-style
snapshot, in a form of a GDV movie or as timed series of images.
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The GDV Camera Pro system hardware includes GDV Camera Pro,
test-object for system calibration and reproducibility tests, and GDV
triggering system with serial port, USB and GDV cables. Software (for Windows 2k/XP) includes GDV Capture
for interactive capturing of
Kirlian (GDV) images,GDV Energy Field (Aura) for processing &
interpretation of Kirlian Aura images of 10 human fingertips, GDV Diagram for
comparative performance analysis of systems and organs of the human body
on the basis of GDV images of 10 fingertips, GDV Scientific Laboratory for
a suite of GDV processing and
interpretation tools, and all appropriate manuals, documentation, USB drivers
and utilities. |
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Acu Scanner system hardware includes GDV Acu-Scanner
instrument, Reference electrode for calibration and reproducibility tests,
and required all required cables.
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The
"GDV Material testing Kit" is a set of devices complimentary to the
GDV Camera designed for testing water, blood samples, liquids, seeds, plants,
stones, and much more.
User manual describes methodology for recording and comparative analysis of GDV
images of various objects.
The
Material testing kit contents include user manual, "GDV Compare"
software, Key #7, screwdriver, 3 syringes, device for taking
GDV-grams of big
objects, plug for GDV lens cover, metal holder for glass cans, Isolation plate
for big flat subjects, GDV lens cover,
calibration glass, glass
with an opening (3 pcs), syringe holder, syringe holder cover, 3 small glass
cans, and 3 kinds of electrodes.