The Principle of Biophilia Tracker

The use of Eastern reflexology methods has led researchers and practitioners to consider the possibility of using electric current and electromagnetic radiation instead of metal needles or wormwood cigars as influencing factors. However, some questions have arisen regarding the possible and necessary variables for these influencing factors. Based on this, a complete field of electropuncture diagnostics has been formed using different methods (Foll, Nakatany, Nechushkin), based on measurements of skin conductivity at bioactive points (BAPs). Currently, there is no experimental data on practically effective BAP substrates. The most objective evidence for BAP morphology is P.P. Garyaev's view of the intercellular network as a specific signaling system in the human body, including BAPs. The intercellular network, or intercellular substance, can act as a special supramolecular analogue of neural networks, ensuring the directed introduction of information into certain cellular and tissue associations, including the "acupuncture capacity matrix."

Unlike Foll's electrostimulation diagnostic method, where the energy potential of organs and tissues is measured indirectly (often with significant errors) through bioactive points (BAPs), a method in nonlinear diagnostics (NLS) developed by the Institute for Applied Psychophysics (IPP), the approach directly assesses organ status due to the resonant amplification of radiation emitted by the studied organ and by acquiring readings non-contactly through trigger sensors.

To realize the indicated possibilities, we formulated medical technology requirements and technical tasks to develop a new generation of diagnostic devices based on low-frequency quantum generators and developed the Metatron device.

The Biophilia Tracker device aims to definitively assess bodily condition through changes in the reordering of organ and histological structures, dynamically control homeostasis, and predict the stages of treatment and complication development. This diagnostic device allows physicians to significantly reduce the time required for definitive assessment of the body's condition as a holistic system. This device is designed to record changes in organ and histological structures, enabling it to:

- Qualitatively assess the body's functional state based on local analysis;

- Examine the effectiveness and outcomes of treatments;

- Assess the body's adaptability;

- Analyze the dynamic changes in the body's functional state during treatment;

- Reveal the primary nature of functional impairment lesions;

- Define pathological features using an expert system;

- Assess key homeostatic variables.

The device is designed for use only with a computer complex based on IBM-compatible computers and software developed by its parent company. The device operates based on the principle of amplifying the initiation signal and the decomposition of metastable structures.

The magnetic moment of the molecular current in the mixing centers of cortical neurons, influenced by an external electromagnetic field, loses its original orientation, causing the spin structure of delocalized electrons to become misaligned, resulting in unstable metastable conditions. This decomposition acts as the initiation signal.

Physically speaking, the device is an electronic oscillator system that resonates at the wavelength of electromagnetic radiation, with energy sufficient to break the key bonds that maintain the structure of the organism.

This device is capable of generating specific bioelectrical activities in the patient's brain neurons. It possesses the ability to selectively amplify signals targeting these activities, signals whose static fluctuations are virtually undetectable (resonance phenomena).

Information about specific temporary organ conditions is collected non-contactly using trigger sensors developed with the aid of new information technologies and microcircuits. The sensors detect weak, detectable signal fluctuations selected from the characteristics of an average statistical noise field and convert them into digital sequences, which are processed by a microprocessor and transmitted to a computer via an interface cable.

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