1. Diagnostics of human state
GDV system of Prof Korotkov has unergone extensive clinical trials in Russia and its diagnostic accuracy has been found to be better than 95%. The system has been approved by Russian Academy of Science for use in medical industry without limitations. GDV acceptance in Finland and Sweden will soon be followed in other advanced countries.
On the basis of the above, the most obvious application of the GDV system is an aid in medical diagnostics. GDV data acquisition and analysis can be performed in seconds, without a need to undress a patient.
The weakest organs/subsystems in the body/mind system can be identified at a glance as a disruption in harmony and coherence of the recorded electrophotonic glow. GDV sofware assists in data analysis.
The speed, accuracy and comprehensiveness of GDV diagnostics are stunning. They cannot be matched using any other human state monitoring technology available on Earth today.
2. Monitoring response to treatment
Since electrophotonic GDV images contain comprehensive information about human state at the moment of recording, they can be used to monitor human response to treatments.
It doesn't actually matter what treatment you choose to investigate using GDV. It can be chemical/hormonal, herbal or homeopatic medicine, accupuncture, remote healing or a placebo treatment.
GDV technique enables us to explore and quantify response of any person to any treatment.
A typical procedure involves recording a person's initial state and the state after the treatment has been applied. In most cases it is obvious within a few minutes whether the treatment has a positive, disruptive or neutral effect for a given person. It is important to minimize all other influences during the test.
3. Estimating treatment effectiveness
By recording the human state at some time intervals after a treatment has been applied (typically minutes or hours), it is possible to estimate if the treatment has a temporary or a systematic effect on the human state.
4. Comparing therapies
GDV method of human state assessment enables comparing various therapies and estimating the best therapy for any given person/condition.
5. Testing new treatments
Since electrophotonic GDV glow seems to reflect the state of human consciousness, rather than just the body, it is possible to estimate the effect of a new treatment BEFORE actually applying it.
For example, it is sufficient for a person to hold a medicine in his/her hand and IMAGINE taking it to estimate what would happen if the medicine was really taken.
This method is being used to study the effectiveness and applicability of homeopatic medicines at Melbourne College of Natural Medicine in Australia.
Kirlian Effect
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, if you need to know if a wall next to you is solid or hollow, all you need to do is to "knock" it gently and listen to its response. The response of the wall (the sound it emits) reveals the wall's internal properties.
Similar 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.
Kirlian Effect is a visible electro-photonic glow of an object (see the picture on the right) in response to pulsed electrical field excitation.
The magnitude of the excitation is adjusted to induce the avalanche effect in the gas surrounding the object. The avalanche effect amplifies the response of the object so that it can be observed as a visible glow. The effect has been observed by Tesla late in 19th century, but named after Semion Kirlian who investigated it since 1930s.
Note, that there is no point exciting object in vacuum, since the avalanche effect amplification of the object response can only occur in ionised gas.
Much like a sound of a disturbed wall reveals its internal properties, the visible electro-photonic glow contains information about the object that was excited to glow.
In early days, Kirlian images were recorded on photographic emulsion. Since the sensitivity of a photographic emulsion varies greatly with environmental factors such as humidity, recordings were not reproducible. As a result, some scientists dismissed the Kirlian effect as useless.
Modern GDV instruments developed by Prof Korotkov use glass electrodes and their recordings are highly reproducible in a wide range of environmental conditions.
Using reproducible recording techniques we can focus on the INFORMATION encoded
in stimulated electro-photonic images
Software screenshots
| Electro-photonic Kirlian glow around a human fingertip recorded using GDV camera. View from underneath, through a semi-transparent glass electrode that provided electrical field excitation. | |
Diagnostic potential of GDV technique
Prof Korotkov confirmed earlier observations of other researchers, such as Semion Kirlian, Dr Mandel from Germany and Prof Milhomens in Brazil, that the stimulated electro-photonic glow around human fingertips contained astonishingly coherent and comprehensive information about the human state - both physiological and psychological.
For example, by analyzing correctly stimulated and recorded Kirlian images it seems possible to quantify whether a person is stressed, tired or unwell and determine bio-energetic electro-photonic performance of the body and mind.
In brief, stress and other negative factors seem to disrupt the uniformity, coherence and the magnitude of the human electro-photonic glow measured with the GDV instrument.
Even though the pattern recognition methodology of the electro-photonic glow is still at an early stage of development, extensive clinical trials conducted across Russia since 1997 demonstrated that the correlation between the GDV and conventional diagnostic techniques can be as high as 98%. Following clinical trials and the recommendation of The Russian Academy of Science the GDV technique and equipment have been approved in 1999 by health authorities in Russia for general clinical use without limitations. Today GDV systems of Prof Korotkov are in use in some 20 countries.
The GDV diagnostic system of Prof Korotkov is based on stimulating and recording 40 ms of the electro-photonic glow around all ten fingertips, one at a time.
Using clinically verified charts and methods developed by Prof Korotkov it
seems possible to determine, not only what happens in the human body, but also
where it happens – by examining specific sectors of the electro-photonic
glow.
| Clinically verified sectors of the Kirlian glow around human fingertips seem to contain information about relative bio-energetic performance of various organs. |  |
Bio-electrography has the potential to serve 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.
By utilising the potential of bioelectrography it should be possible to take
preventive measures, rather than wait until emergency treatments and surgery
are required.