RU2308879C2 - Method for investigating radiation emitted by living organism for diagnosing cancerogenesis processes - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves placing device having single-crystal circular Z-slice quartz wafer on facial head region. Electromagnetic signals are recorded. Pulses or pulse groups, which amplitudes exceed noise amplitude level, being detected, preliminary diagnosis of cancerogenesis process availability is to be set.

EFFECT: wide range of functional applications.

6 dwg

Description

The invention relates to medicine and is intended for the early detection of malignant oncological diseases, including before the formation of conditions providing the possibility of detecting the fact of the formation of a malignant tumor using currently accepted diagnostic methods.

There is a method of studying the radiation of a living organism in order to diagnose carcinogenesis processes, which includes receiving thermal radiation from a human body emanating from atoms of polymerized, oncological cell molecules, while the presence of cancer is judged by the excess of radiation intensity from the background (see AS USSR No. 1363996 , 1996).

The disadvantage of this solution is the difficulty in recognizing cancer against the background of other pathologies.

There is a method of studying the radiation of a living organism in order to diagnose carcinogenesis processes, including receiving radiation in the ultraviolet frequency range emanating from atoms of polymerized, oncological cell molecules, while the presence of cancer is judged by the excess of radiation intensity from the background level (see Pat. RF № 2128337, CL A61B 1/00, G01N 33/483, 1999).

The method is based on the fact established by the inventors that, in the presence of cancer, an increased background of ultraviolet radiation is observed. This phenomenon is indirectly confirmed by the studies of A.A. Gurvich who discovered that during mitogenesis of the cell, i.e. ultraviolet radiation is observed during its division (see Gurvich A.A. The problem of mitogenetic radiation as an aspect of molecular biology. - L., 1968, p. 240. The patent authors claim the possibility of diagnosing cancer, including early, at the initial stage of 6-30 years before the formation of a malignant tumor, however, it is clear that the power and intensity of radiation (providing the ability to highlight a diagnostic sign against the general background of a signal of a similar nature generated by the body), ceteris paribus ditions depends on the volume of the object generating the signals, i.e. the number of cells containing polymerized oncological molecule. Hence, the diagnosis of the early stages of cancer development is insufficiently reliable.

In recent years, in physiology, an informational approach to the analysis of various human functions has been increasingly used. Considering only physical and chemical factors, it is not always possible to explain the processes occurring in the human body. From the point of view of the information approach, along with physicochemical processes in the human body, information processes are formed and closely interact, transmitted, stored and analyzed. The theory of functional systems, proposed by P.K. Anokhin, opens up new possibilities for an objective assessment of the information activity of an organism. Functional systems according to P.K. Anokhin are dynamic, self-regulating organizations, all the components of which are closely interconnected and interact to achieve various beneficial results for the body. It is the adaptive results that are useful to the body that act as system-forming factors in the organization of functional systems at various levels. The activity of various functional systems determines the levels of various indicators of homeostasis, such as pH, gas composition, osmotic and blood pressure, temperature, nutrient levels, etc. The concept of homeostasis was introduced into physiology by W. Canon, who understood by homeostasis the harmonic interaction in the internal environment of the human body of various physical and chemical factors of vital activity. However, it is information in living organisms that is closely related to the activities of the various components of its functional systems, which is a common denominator for all the physicochemical processes taking place in the body. Only in self-regulating functional systems during the long evolution of living organisms can an information evaluation apparatus be formed - an acceptor of performance results. The apparatus for accepting activity results on the basis of mechanisms ahead of actual events allows living organisms to constantly evaluate various parameters of achieved results and build adaptive activities on an information basis. Moreover, the informational assessment in the functional systems of the homeostatic level acts as informational signals that control processes in the human body. Research in microbiology in the field of redox systems: excited molecules and key signal-transmitting proteins of electron acceptors (Science Journal 1998, N 5, v.280, p.1723), confirmed the leading role of information processes in the regulation of homeostasis. As a rule, living organisms objectively and quantitatively evaluate the results of activities of functional systems that determine various indicators of homeostasis. Thus, information and / or energy-information processes that are organically inherent in any living organism, manifesting themselves in the external environment in the form of radiations of various physical nature, can be used to diagnose the state of the human body and its individual organs.

Thus, it seems possible to use the body’s own radiation for diagnostic purposes.

This idea is realized by the invention that we used as a prototype (see Pat. RF No. 2144781, class A61B 5/00, 2000), while the method for studying the radiation of a living organism in order to diagnose carcinogenesis involves fixing its own radiation from organs and / or tissues human, and subsequent processing and analysis of the measurement results, with the allocation of the diagnostic signs of the disease.

The disadvantages of the method include the multioperational nature of both the directly measuring process and the mathematical processing of the results. In addition, the diagnosed organ itself is used as a signal source and the energy-informational characteristics of the carcinogenesis process that is already occurring in the diagnosed organ are “removed”; there is no possibility of early diagnosis of the disease (i.e., the initial stage - before the formation of a malignant tumor).

The task to which the proposed technical solution is directed is to provide the possibility of diagnosing a cancer, including early, at the initial stage before the formation of a malignant tumor, simplifying the diagnostic procedure.

The technical result that is achieved when solving the problem is expressed in ensuring high reliability of diagnosis on the earliest steel of the carcinogenesis process, providing the ability to diagnose a wide range of cancer diseases. In the future, with the accumulation of statistical material, accurate differentiation and localization of oncopathology at any stage of its development will be possible.

To solve this problem, a method for studying the radiation of a living organism in order to diagnose carcinogenesis processes is characterized in that a device containing a single-crystal quartz, round Z-slice plate is positioned on the front of the head, records electromagnetic signals and when pulses or groups of pulses appear, the amplitude of which exceeds the amplitude level of the noise track, make a preliminary diagnosis of the presence of the carcinogenesis process.

A comparative analysis of the totality of the features of the proposed solution and the totality of the features of analogues and prototype indicate that the proposed technical solution meets the criterion of "novelty."

In this case, the distinguishing features of the formula solve the following functional tasks:

Signs indicating the use of a device containing a single-crystal quartz, round Z-slice plate, provide the ability to convert part of the total spectrum of the intrinsic emissions of organs and / or human tissues of radiation corresponding to energy-information processes of the body during carcinogenesis into an information electromagnetic signal suitable for processing with the aim of forming diagnostic signs.

Signs “position on the front of the head, record electromagnetic signals”, provide maximum binding of the recorded signal to the processes of carcinogenesis and reduce the attenuation of this signal by body tissues. In addition, it is possible to fix the carcinogenesis process at the earliest stages even before the formation of cancer cells (even before the appearance of malignant cancer cells whose radiation is used to solve diagnostic problems) - at the stage when the nervous system only “gives a command” to form such molecules. At the same time, the volume of malignant formation becomes insignificant (from the point of view of the reliability of the diagnosis), since the signals generated by a powerful radiation source, the brain, are received.

The sign “record electromagnetic signals” provides the possibility of their subsequent electronic processing and analysis, using computer technology, which allows to speed up and simplify the diagnostic procedure.

The signs “when pulses or groups of pulses appear, the amplitude of which exceeds the amplitude level of the noise track, make a preliminary diagnosis of the presence of the carcinogenesis process” disclose the contents of the processing of the electromagnetic signal to obtain a diagnostic sign and the subsequent diagnostic conclusion about the presence of carcinogenesis processes in the patient’s body. The criteria used as diagnostic features are disclosed.

The claimed invention is illustrated by graphic materials, while figure 1 shows a functional diagram of the installation, providing the implementation of the method; figure 2 schematically shows a radiation receiver; figure 3 schematically shows the location of the radiation receiver during operation, figure 4 shows a fragment of a patient examination with a diagnosis of malignant neoplasm (the upper graph is the impulse characteristic of a cancer patient, below is the same pulse, increased and extended in time); figure 5 shows a fragment of an examination of a patient with a diagnosis of malignant neoplasm (the upper graph shows the groups of impulses characteristic of a cancer patient, below the same groups of impulses, enlarged and extended in time); figure 6 shows a fragment of the examination of a healthy patient (the upper graph is a record of only the noise track, below is the same record, enlarged and extended in time).

The method is based on the effect established by the authors, namely, that single-crystal quartz round Z-slice plates placed in the radiation field of a living organism having a malignant disease (confirmed by known diagnostic methods) are capable of detecting specific signals induced by the brain in a certain frequency range the patient, while in the patients examined by us who do not have a diagnosis of malignant neoplasm, these signals are absent.

To implement the method, a device developed by the authors is used, the main element of which is a radiation receiver made in the form of a single-crystal round plate, which is a thin quartz plate 1 Z-section, on both sides 2 of which a thin coating 3 of silver is applied (thickness not more than 0 , 1 mm). The plate is installed in the cavity of the confuser reflector 4, the axis of symmetry 5 of which passes through the center 6 of the quartz plate 1. In this case, the confuser reflector 4 or its inner surface 7 is made of silver (in the second case, the reflector body is made of non-magnetic material coated with silver on the inner surface) . In addition, the coating of the quartz plate 1 is electrically connected to the input of the signal preamplifier 8, the output of which is connected through an analog-to-digital converter 9 to the computer 10.

Known means are used as elements 8-10 of the device, the operating characteristics of which correspond to the operating parameters of the device, while the signal preamplifier 8 is made according to the known scheme, a 12-bit ADC is used as an analog-to-digital converter 9, it is desirable to provide an acceptable processing speed of the measurement results, so that the computer processor is at least Pentium-4.

The device is used as follows: it is positioned so that the wide base of the cone of the reflector 1 is in close proximity to the front of the head. In this case, the potential difference is constantly removed from the silver-plated surfaces of the quartz round plate 2. When a malignant oncological process is formed, a potential difference arises from the silver coatings 3 of the quartz round plate 2, in the presence of which it is concluded that there is a malignant oncological disease.

The claimed method is implemented in the following order.

Survey Process:

1. The patient removes all metal objects from the head and neck and is located on the examination couch, lying on his back with his head slightly thrown back through a soft cushion-pillow.

2. Position the sensor on the front of the head (orienting its longitudinal axis to the central region of the brain) at a distance of 3-9 mm from the skin.

3. Start recording signals from the receiving sensor to the computer.

4. After registration, recording stops for 20-30 minutes.

Deciphering the results:

1. All fragments of the record are viewed page by page. Currently, decoding one study takes up to 20-30 minutes.

2. In the absence of impulses exceeding the level of the amplitude of the noise track, a conclusion is drawn that the patient does not have a diagnosis of malignant neoplasm.

3. If pulses and / or their sequences appear repeatedly, they conclude that there is a diagnosis of a malignant neoplasm, or a stage preceding a malignant form of cancer, and the patient is recommended to undergo a detailed additional examination with other diagnostic tools.

Recorded Signals:

Recorded "oncosignals" look like relatively short burst sequences of various configurations (Figs. 4-5). The duration of these packets can be from tens of microseconds to milliseconds. As the experience of examining patients shows, during its conduct (20-30 minutes), these signal packets appear repeatedly (up to 10 or more), although there have been cases when only one impulse was recorded for the time indicated. In this connection, to increase the reliability of the diagnosis, the duration of the examination is set within the above limits.

Example 1. Patient M., a woman, 53 years old. Complaints of pain in the stomach. When examining our method from the brain, repeated pulse packets were recorded, indicating the presence of a malignant cancer. The given fragments of the study indicate the orderliness and repeatability of individual amplitude-frequency characteristics of the signals corresponding to a malignant disease with a diagnosis of gastric cancer. Further examinations through fibrogastroscopy, surgery confirmed the presence of a malignant disease - cricoid cancer of the body of the stomach.

Example 2. Patient D., male, 77 years old. When examining our method from the brain, repeated pulse packets were recorded, indicating the presence of a malignant cancer. The given fragments of the study indicate the orderliness and repeatability of individual amplitude-frequency characteristics of the signals corresponding to a malignant disease with a diagnosis of prostate adenocarcinoma. Further examinations confirmed this diagnosis.

In healthy patients, these impulse groups are absent (Fig.6). The result of their examination looks like a solid line, due to the noise of the equipment.

To date, over 300 patients have been examined, of which about 90 people with a diagnosis of malignant cancer have been identified (the rest are either healthy or have a non-cancerous pathology). The reliability of the diagnosis is currently about 87%, and this figure tends to increase, since our diagnosis (which we initially assigned to negative statistics) over time (from one month to years) is nevertheless confirmed.

Claims (1)

A method for studying the radiation of a living organism in order to diagnose carcinogenesis processes, characterized in that the device containing a single-crystal quartz, round Z-slice plate is positioned on the front of the head, records electromagnetic signals and when pulses or groups of pulses appear, the amplitude of which exceeds the noise amplitude level paths, make a preliminary diagnosis of the presence of the carcinogenesis process.

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