Some principles of Biophilia Tracker X4 MAX

The use of Eastern reflexology methods has led researchers and practitioners to consider the possibility of replacing metal needles or absinthe cigars with electrical currents and electromagnetic radiation as influencing factors. In any case, some questions have arisen about the possible and necessary variables of these influencing factors. On this basis, a whole field of electropuncture diagnostics was formed using different methods (Foll, Nakatany, Nechushkin) based on the measurement of skin conductivity in bioactive points (BAPs). There are currently no experimental data on actually potent BAP substrates. The most objective evidence for BAP morphology is P.P. Garyaev's view of the intercellular network as a specific signaling system of the human body, including BAP. The intercellular network or intercellular substance can function as a special supramolecular analog of the neuronal network, ensuring the directed introduction of information into certain cellular and tissue associations, including the "acupuncture competence matrix".

Unlike Foll's electrical stimulation diagnostic approach, in which the energy potential of organs and tissues is measured via bioactive points (BAPs) that indirectly (often with serious errors) reflect the state of the organ, in non-linear diagnostics ( The NLS) method, developed by the Institute of Practical Psychophysics (IPP), directly assesses the state of the organ due to resonant amplification of radiation from the organ under study and by taking readings in a non-contact manner involving triggering sensors.

In order to realize the indicated possibilities, we formulated medical technical requirements and technical tasks to develop a new generation of diagnostic equipment based on low-frequency quantum generators and developed the Biophilia Tracker X4 MAX device.

The Biophilia Tracker X4 MAX device is designed to unambiguously assess body conditions through reordering changes in organ and histological structures, to exercise dynamic control over homeostasis states, and to predict stages of treatment and development of complications. This diagnostic device allows the physician to greatly reduce the time required for a definitive assessment of the condition of the body as a whole system. Designed to record changes in organ and histological structures, the device is capable of:

- Qualitative assessment of the functional state of the body based on local analysis;

- Check the effectiveness and results of the treatments used;

- Assess the body's ability to adapt;

- Analysis of dynamic changes in the functional state of the body during treatment;

- reveal the main nature of the dysfunctional focus;

- Definition of pathological features using an expert system;

- Assess the main variables of steady state.

This device is designed to be used only in conjunction with computer complexes based on IBM compatible computers and software developed by the parent company. The device works according to the principle of amplification of the activation signal and decomposition of the metastable structure.

The magnetic moments of the molecular currents in the mixed centers of cortical neurons affected by an external electromagnetic field lose their original orientation, leading to a misalignment of the spin structure of the delocalized electrons and thus their unstable metastable conditions, whose decomposition acts as an initiation signal.

In terms of physics, the device is a system of electronic oscillators that resonate at wavelengths of electromagnetic radiation with energies sufficient to destroy the primary bonds that maintain the structural organization of objects.

The device was able to form the prescribed bioelectrical activity of neurons in the patient's brain, and for these they acquired the ability to selectively amplify signals whose static fluctuations were barely detectable (resonance phenomenon).

Information about the condition of a specific temporary organ is collected in a non-contact manner through trigger sensors developed with the help of new information technology and microcircuits. The sensor detects weak detectable signal fluctuations picked out from the average statistical noise field characteristics and converted into a digital sequence, which is processed by a microprocessor and transmitted to a computer via an interface cable.

Ensure equipment operating mode, adjustment and control according to installed procedures. Information about the results of a specific patient's diagnostic procedure is displayed on a monitor screen and stored in a separate file on the computer's hard disk and can be transferred to a separate floppy disk.