Bioholography.org

Bioholo – Tomography (BHT) (former name: BEO-tomography)

is the method, which we use for the acquisition of biological holograms and to study main features of Holo-Informational System (HIS).

HIS presents the dynamic organization of physical waves, which are generated within the bounded space-time of a living body. This regular and multilevel structure of ordinary waves expresses some features of dynamic 3D hologram – it reflects all substantial events like in mirror. A network-like organization of interacting waves of different types and frequencies  is capable to change entire structure much easier, than the domain of those relatively inert and spatially divided substances of a system, which are not mutually interdependent (entangled).

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In a balanced state of a system all fluxes/waves within its space-time are arranged by ranges of frequencies – they form several levels of hierarchy similar to the ”solid” body, the latter being made of intracellular, cellular, tissue, organic and upper levels of the hierarchy. It should be noted that to preserve synchronized state of HIS, the boundary (superficial) processes of a body have to be synchronized with the ambient field/waves as well. Violation of the balanced state in any component of HIS would change entire configuration. Thus, it is possible to study only minor part of integral biohologram (macrolevel of HIS), which reflects and “summarizes” holograms, generated at lower levels of this complex structure. The state of HIS may be studied only non-invasively, using distal areas of living body’s surface/boundary as the source of information. Any perturbing impact of external forces upon fragile structure of the “flowing movement” of the body (HIS) destroys the latter and provides non-informative, fuzzy results while investigating superficial emission. Instant alteration of HIS first occurs in a particular range of frequencies. Numerous and more stable processes of higher frequencies preserve their balanced state for a while thus making it possible to obtain holograms of lower levels of HIS-hierarchy during short-term (2 sec) procedure of a body ”superficial” examination. (more >>>)

We use only remotely located parts of human body for the acquisition of integral holograms. For instance, the short-term, painless and harmless exposure of fingertips’ surface to electromagnetic field of high frequency provides visual information not only on the state of whole body, but also on structural details of main problematic areas (of any location).

The device, which enables the acquisition of holographic information, is known as gas-discharge technique. The pulsed electromagnetic field of relatively high voltage and high frequencies (1000-5000 Herz) transforms invisible emanations of objects into visible glow. Records are transferred to computer for further prosessing. The device (produced in Saint-Petersburg) had been modified to improve the reliability and quality of imaging.

(more info on this subject: http://bioholography.org/blog/wp-content/uploads/2010/01/BHT-vs-GDV-and-Kirlian-photography.pdf )

Modified procedure and perfected device of Gas-discharge enabled us to evaluate some characteristics of dynamic systems, e.g. to detect (or exclude) pathological processes in human body via assessment of a body parts under certain fitted conditions. The processing of captured images makes it possible to detect some pathologies and also to acquire detailed images-holograms of the most affected areas.

The principle of electro-photography is also known as “Kirlian-photography”. Kirlian radiation attracted the attention of scientists in 1940, when Semyon Kirlian in Russia has announced that entire leaf along with its absent part were visualized while capturing the glow of the damaged leaf’s remaining part.

Induced radiation of various living objects, as well as emission of human fingertips were explored by numerous researchers resulting in the widely agreed conclusion that the said approach to the examination of human body is not informative, since it cannot provide repeatable results. The glow of fingertips (pressed to a polarized glass) was sensitive not only towards slight alteration of uncontrollable environmental factors, but it was equally sensitive towards psycho-emotional states of examinees, fingers’ skin state, perspiration and many other factors. Besides, records of one and the same finger varied enormously, because streamers (avalanches of electrons and ions), which appear around fingertips in the moment of external electromagnetic field application, drift apart from the main corona down to the periphery of the glass-screen. Such scattering of charged particles occurs when those persons, whose homeostasis is significantly violated, press their fingers directly to the polished surface of polarized glass.

We managed to modify the existing method and after numerous unsuccessful attempts the reproducibility of results was finally achieved. Thin plastic membranes that were placed between the glass and a finger enabled us to solve the problem of data reliability. We suggest that thin layer of the air between dielectric membrane and the glass plays the role of a “trap” for streamers, as it prevents the scattering of charged particles and makes possible their recombination in the vicinity of the exposed object.

Further clinical and experimental research resulted in the conclusion that it is possible to extract information from various levels of a system hierarchy (this process might be compared to tomography).

The modified method described above, which provides relatively stable results allowing the acquisition of replicas – holograms of functionally and structurally the most disordered areas, is already patented and implemented into everyday diagnostic practice. More than 11000 patients were examined during 1999 – 2009 (more about clinical results >>>).

The procedure of patients BHT-examination is short-term (2-3 min), non-invasive and absolutely painless. It is safe for patients, operators and the environment (as stated by special comission at the Institute of Metrology, Georgia); Electromagnetic field used for these purposes is totally harmless, since the current does not exceed several microAmpers. Patients put their fingers one after another upon the plastic membrane, the latter being positioned on the surface of the optic part. The operator presses a button 10 times. Another button activates analytical module of the software displaying results of data analysis almost instantly; entire process is controlled by special software (Biocalcon). Each finger is exposed to electromagnetic field for 2 seconds.

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More on BHT

All living systems function and preserve their integrity due to the unique effect of Holo-diffraction, thus making it possible to explore any physiological or anatomical process via surface emissions serving as actual representations of the living organism’s internal conditions.

It is widely unknowledged that holograms present self-similar (fractal) structures. Any local violation of the balance in a dynamic 3D holographic entity may affect entire structure, causing corresponding deformation of its other parts and vice versa. The said effect has been determined while conducting clinical work: coronas of patients’ fingertips display replicas of both – major organs and microscopic structures with equal resolution being dependent  only upon the degree of local misbalance on this or that level of a system-hierarchy.

We do not need to scan whole body part by part – biological holograms perform this task perfectly. Details of the most actual problems may be visualized with high resolution due to the unique capability of HIS to rearrange entire organization according to the structure of its misbalanced part.

Records of a person fingertips’ glow captured in normal state and in the course of infectious process are shown on figure 1. One can see how the geometry of coronas is altered because of acute rhinitis.

The example presented above is indicative regarding the similarity of coronas’ shapes in case there is significant misbalance in the HIS. The similarity of coronas deformities is characteristic for subacute and acute states.

Figure 2 demonstrates how non-processed BHT-records of various patients’ fingertips differ from each other.

The distribution of brightness, as well as the “texture” and shapes of fingertip coronas are altered in accordance with the structure of the most misbalanced areas in the body. Replicas – bioholograms of corresponding organs and tissues are being displayed on fingertip coronas with high quality disregarding their actual size, density or location. The brightness of replicas depends upon the amount of internal energy within the area of misbalance. Thus, haemorroidal piles of a patient are displayed in the form of bright rounded spots (inflammation), whereas replicas of traumated tissues are not bright due to the deterioration of blood circulation in affected area (swallen foot).

On the figure 3 some other cases  of inflammation and infection are shown.

We would like to mention that it is rather difficult to interpret holograms by coronas if one does not know main principles of the “holo-imaging”. Nevertheless, even non-trained person might see significant difference between geometry, fractality and “texture” of coronas, which belong to patients having organic and/or intracellular disorders.

Visual interpretation of holographic information requires not only practical experience and good knowledge of various medical fields (anatomy, pathology, morphology etc.), but also the knowledge of principles of HIS-functioning. Sometimes it might be necessary to process raw images before their comparative analysis. The processing of coronas implies the enlargement and contrasting (sometimes inversion) of those parts of coronas, where one can either recognise shapes of particular anatomic structures, or where the background radiation is altered the most.

The figure 4 demonstrates the emission of a person’s left thumb, where a polyp-like structure is visible in the most disordered part of the corona.  The enlargement, contrasting and inversion of this part enabled analysts to diagnose the problem (a case of intestinal diverticle).

It should be also noted that any inanimate object, being incorporated into the living system, would provide appropriate replicas in case it irritates surrounding tissues thus causing local misbalance in HIS (fig. 5).