RU2146493C1 - Express method for diagnosing pharmacological preparation impact on human organism - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves evaluating preparation influence on immunity state. Electromagnetic response index is measured before and after administering the preparation. Measurements are carried out in two points located in the vicinity of thymus. Index difference and repeated measurements difference are calculated. The obtained difference values are compared. The results of comparison are used for making conclusions concerning the preparation impact on human immunity. EFFECT: enhanced information capacity of diagnosis method.

Description

 The invention relates to medicine, in particular to measuring or recording bioelectric signals of an organism or its parts, and can be used for diagnostic purposes, in particular for monitoring the state of the immune system.

 A known method for assessing the dynamics of the pathological process on the mucous membrane of the prosthetic bed. The method is based on the property of bilateral symmetry. Paired symmetry points on the upper and lower jaws or on one jaw are selected, in which the bioelectromagnetic reactivity index (BEMR) is measured. Compare the results of measurements at paired points of symmetry. If the values of the BEMR indices differ by no more than 10 ... 20%, the dynamics of the pathological process is assessed as uniform (subcompensation); with a difference of more than 20% - as focal (decompensation) (RF, patent N 2098818, 12/10/97, G 01 N 33/483).

 The method allows to diagnose the effect of a pharmacological preparation on the mucous membrane of the oral cavity and prosthetic bed during treatment, approaching the norm of the difference between the BEMR indices in paired points.

 The disadvantage of this method is that it allows you to evaluate only the local effect of the pharmacological drug on the human body, namely the mucous membrane of the oral cavity and prosthetic bed, and does not allow to evaluate the effect of the drug on the body as a whole, which reduces its information content and requires additional research for example, a blood test of a patient. The latter reduces the efficiency of the method.

 Thus, the known method of rapid diagnosis of assessing the dynamics of the pathological process in the implementation does not ensure the achievement of the technical result, which consists in increasing the efficiency and information content.

 Closest to the proposed is a method for the diagnosis of pathology and its localization, according to which during the treatment process BEMR indices are measured at the studied points of the external part of the human body before and after exposure to the pharmacological preparation. The values of the BEMR indices are compared each time with the clinical scale of the indices, namely: the values of the BEMR indices in the range from 1.1 to 0.65 characterize the pathological process as compensation; in the range from 0.65 to 0.35 - subcompensation; in the range from 0.35 to 0.25 - decompensation; below 0.25 - tissue destruction.

 The method allows, based on the results of comparing the measured values of the BEMR indices with the clinical index scale, to evaluate the effect of the pharmacological preparation on the studied area of the diseased tissue. ("Low-frequency pulsed and electromagnetic fields in medicine and biology", V.I. Bankov et al., Ekaterinburg: Ural State University, 1992, pp. 38-42).

 The disadvantage of this method is that it is based on the method of differential diagnosis, i.e. at each point studied determine the nature of the pathology. This necessitates the development of a special clinical scale of BEMR indices both for a specific case of the disease and for the type of tissue under study (soft tissues, the surface of the mucous membrane of the oral cavity, etc.), i.e. adaptation of the method is required both to the type of test tissue and to the type of disease. This requires additional time and complicates the diagnosis of the action of the pharmacological drug. The need to compare the measured values of the BEMR indices with the values of the BEMR indices of the clinical scale also increases the duration of diagnosis and complicates the rapid diagnosis, which reduces the efficiency. Moreover, since the method allows to evaluate only the local effect of the drug, namely: the effect on the state of the studied tissue and does not allow to evaluate its effect on the body as a whole - this reduces its information content. In addition, the index scale is of an average nature, since it is worked out by examining a group of patients with the same disease. This does not allow to take into account the individual characteristics of the patient’s body and reduces the information content and reliability of the method.

 Thus, the known method for the diagnosis of pathology and its localization in the implementation does not ensure the achievement of a technical result, which consists in increasing the speed of rapid diagnosis of the effects of the pharmacological drug on the human body, as well as in increasing the information content, reliability and simplification of the method.

 The present invention solves the problem of creating a method for rapid diagnosis of the effects of a pharmacological drug on the human body, the implementation of which ensures the achievement of a technical result, which consists in increasing efficiency, increasing information content, reliability and simplifying the method.

 The essence of the invention lies in the fact that in the method of rapid diagnosis of the effects of a pharmacological preparation on the human body, according to which the bioelectromagnetic reactivity indices are measured at the studied points of the external part of the human body before and after exposure to the human body by a pharmacological preparation, the measurement results are compared and by comparison evaluate the effect of the pharmacological drug, evaluate the effect of the pharmacological drug according to the state of immunity, for which, as the studied two points located at a distance from each other are selected on the external part of the human body in the thymus region, in each of which the value of the bioelectromagnetic reactivity indices is measured before and after exposure to a pharmacological preparation, the difference of the primary indices and the difference of the secondary measurement indices are calculated, the obtained difference values are compared, when this, if, as a result of comparison, the difference values differ by 30% and less than 30% - they state, respectively, the absence of a change or a decrease in immunity, and e of a pharmacological preparation is evaluated as not affecting the immune system or as depressing immunity, respectively, if the difference values differ by more than 30%, they indicate an increase in immunity, and the effect of the pharmacological preparation is evaluated as increasing immunity.

 The technical result is achieved as follows.

 The use of the BEMR index as a controlled parameter makes it possible to evaluate the effect of a pharmacological preparation on the human body by the functional and morphological state of the tissue at the studied points. This is because the measurement of the BEMR index is based on the property of living tissue to convert electromagnetic waves induced in it by external electromagnetic fields, namely, geo- and heliomagnetic, which are low-frequency pulsed complex-modulated fields that are most appropriate for a living organism. As a result of the bioelectric activity of living tissues when exposed to external electromagnetic fields in a living organism, a low-frequency pulsed complex-modulated electromagnetic field in the form of electromagnetic vibrational processes is also induced in its tissues, but its spectral composition differs from the spectral composition of the acting electromagnetic field. This made it possible to diagnose the state of tissues by analyzing the appearance or disappearance of one or another harmonic “interacting” with the tissue, and the method was called: determination of bioelectromagnetic reactivity (BEMR) of living tissues (V.I. Bankov et al. "Low-frequency pulsed, highly modulated electromagnetic fields in medicine and biology ", Ekaterinburg: Publishing house of Ural State University, 1992, p. 39 - 42). It is known that intrinsic vibrational processes in living tissue are due to metabolic processes and microcirculation, which is based on certain parameters of homeostasis. Therefore, the parameters of electromagnetic vibrational processes in living tissue correspond to a well-defined functional and morphological state of living tissue (Sent - Dierry A. "Bioenergetics" (Theory of energy transfer), Moscow: Izdatelstvo fizmash, 1960, pp. 3-14). Thus, in the proposed method, the values of the BEMR indices measured at the studied points correspond to the functional and morphological state of the tissues at these points. Due to the fact that the test points are selected in the thymus region, which is responsible for the state of the body's immunity, the values of primary and secondary measurements, BEMR indices at the studied points characterize the functional and morphological state of the tissue in the thymus region before and after the drug exposure, which makes it possible to assess the effect of the drug on the body as immunity. Moreover, since all layers of the tissue participate in the formation of the parameters of electromagnetic oscillations, the depth of the tissue under investigation increases, which makes the measured value of the BEMP index informatively filled. In addition, the parameters of the deeper layers of the tissue are more stable than the surface layers of the tissue, which virtually eliminates the influence of external factors on the measurement result and increases the reliability of the method. This is because the state of the inner layers of the tissue is determined by homeostasis, while the surface layers of the tissue are subject to external influences and their receptor systems are highly reactive. In addition, the inner layers of the tissue are more inert and their relaxation time is longer than the surface tissues. As a result, the distinguishing ability of the proposed method is increased, which makes it possible to diagnose by changes in the BEMR index not only the fact of the action of the pharmacological preparation, but also its effect in dynamics, which increases the information content of the method. Correspondence of the BEMR index to the functional and morphological state of the tissue at the point under study causes differentiation in the results of measurements of the BEMR indices, which allows the difference in the indices at the points under study to be used in the method. A comparison of the differences between the BEMR indices of the primary and secondary measurements allows us to identify the fact of the presence of an action on the body of a pharmacological preparation. Moreover, due to the fact that the studied points are located at a distance from each other, the calculated value of the difference in the indices characterizes the functional and morphological state of the tissue layers not only at the points themselves, but also at the tissue site between the points, which increases the information content and reliability of the method. Since by measuring BEMR indices only at two points receive information about the functional and morphological state of the tissue site - the method is simplified, the efficiency, information content and reliability of the method are increased.

 Analysis of the state of immunity before and after exposure to the drug allows you to evaluate the nature of the action of the drug on the human body as a whole, which increases the information content of the method and increases the reliability of diagnosis. Moreover, since for each patient the values of the BEMR indices are measured individually, individual characteristics of the patient’s body are taken into account, which also increases the reliability of the method.

 It was experimentally obtained that differences in the values of differences in BEMR indices by 30% and less than 30% correspond to maintaining the previous level of immunity or reducing it, respectively; the difference in difference values by more than 30% corresponds to an increase in immunity. Accordingly, the effect of the pharmacological preparation is evaluated as not affecting the immune system, inhibiting the immune system, and enhancing the immune system. Evaluation of the action of a pharmacological preparation by the state of immunity allows not only to evaluate the nature of the action of the drug, but also to assess the state of the human immune system, which increases the information content of the method and the reliability of the diagnosis. Due to the fact that the fact of coincidence or difference in the results of comparing differences between BEMR indices before and after exposure to a pharmacological preparation is used as a criterion for assessing the state of immunity, this eliminates the need for laboratory studies, does not require additional processing and interpretation of the comparison results, and as a result simplifies the method and reduces time costs for diagnosis, improves the efficiency of the proposed method.

 In addition, the proposed method for the rapid diagnosis of the effects of a pharmacological drug on the human body provides an additional technical result, namely the possibility of non-invasive monitoring of the effectiveness of the immune pharmacological drug on the human body. The achievement of this technical result is due to the fact that in the proposed method assess the effect of the pharmacological preparation on the human body according to the state of immunity.

 Thus, the proposed method for the rapid diagnosis of the effects of a pharmacological preparation on the human body during implementation ensures the achievement of a technical result, which consists in simplifying the method, increasing the information content, reliability and efficiency, as well as providing an additional technical result: the possibility of non-invasive monitoring of the effectiveness of the immune pharmacological preparation on the human body.

 The method is as follows.

 The effect of the pharmacological preparation is assessed by the state of immunity. In the thymus region, two points at a distance from each other are selected as the subjects. At each point, BEMR indices are measured before and after exposure to the human body by a pharmacological preparation. The difference of the indices of the primary and the difference of the indices of the secondary measurements are calculated. The obtained values of the differences are compared. If, as a result of a comparison, the difference values differ by 30% or less than 30%, they preserve or decrease immunity, respectively, and the effect of the pharmacological preparation is evaluated as not affecting the immune system or as depressing, respectively. If the value of the differences in the BEMR indices differ by more than 30%, they indicate an increase in immunity, and the effect of the pharmacological preparation is evaluated as increasing immunity.

 The time after which repeated measurements of BEMR indices are carried out is chosen by logical inference, based on the estimated time interval, after which the studied pharmacological drug causes fixed changes in the human body.

 The method can be implemented by means of a device for determining the bioelectromagnetic reactivity of living organ tissues, a block diagram of which is described in the literature: V.I. Bankov and others. "Low-frequency pulsed complex-modulated fields in medicine and biology", Ekaterinburg: Ural University Press, 1992, p. 39, Fig. 8.

 The device contains a sensor that is applied to the surface of the tissue under study, a balanced demodulator, a pulsed complex modulated electromagnetic field generator (ISM EMF), a corrector, a detector, an amplifier, an analog-to-digital converter, and an indicating device. As a sensor, the device uses a miniature loop antenna, which is part of the measuring open oscillatory circuit, tuned to a pulsed complex-modulated mode of operation. In addition to the sensor, the measuring oscillating circuit includes an ISM EMF generator, a balanced demodulator, a detector, and a corrector. The vibrational circuit is excited at the moment the sensor touches the surface of living tissue.

 Currently, the device is implemented in the expert-diagnostic device "Lira - 100", developed and manufactured in the Department of Medical Cybernetics of the Central Research Laboratory of the Ural State Academy. The device was demonstrated in 1997 at the All-Russian Exhibition of Manufacturers of Medical Equipment and Medical Devices and was awarded the 1st Degree Diploma by the Ministry of Health. The device is protected by patents of the Russian Federation: application N 96106746/07 (012213), priority 28.04.95. ; N 96121429/07 (028062), priority 04/28/95. ; N 94028705/14 (028848), priority 01.08.94.

 The device contains a sensor, a converter, an amplifier filter, a microprocessor, an analog-to-digital converter, and a recorder-indicator. The sensor is made in the form of a miniature loop antenna and provides registration of the IMS EMF of living tissues in the form of relative values of the BEMR indices that are displayed on the indicator screen. The sensor on the surface of the body is installed tightly, but without strong pressure.

 Example 1

 Child - Morozov, age 1 year.

 An assessment was made of the effect of the vaccine on the state of immunity by measuring BEMR indices. For this, 2 points were selected in the thymus region to the right and left of the upper edge of the sternum.

 The first measurements were carried out before the introduction of the vaccine 08/14/97. The difference between the BEMR indices was 0.1.

 After administering to the child DTP - vaccines 09/02/97., 02/10/97 and the polio vaccine 10/20/97 measurements were made BEMP index 10/29/97 in the thymus at about the same points. The difference between the BEMR indices was 1.9, and the result of the comparison with the primary value of the difference exceeded 30%, which allowed us to evaluate the effect of the vaccine as enhancing immunity.

 The next administration of the DTP vaccine against poliomyelitis to the child was carried out on 12/15/98. The control measurement of the BEMR indices was performed on 01/31/98. The value of the difference between the BEMR indices was 10.1. The result of comparing the difference between the BEMP indices and the primary significantly exceeded 30%, which indicates a further increase in immunity.

 Thus, the effect of the introduced vaccines on the human body is evaluated as increasing immunity, which is confirmed by the serological method for determining the titer of antibodies to diphtheria 1: 640 and to mumps 0.22.

 Example 2

 Baby - Tyurin, age 7 months.

 An assessment was made of the effect of the vaccine on the state of immunity by measuring BEMR indices. For this, 2 points were selected in the thymus region to the right and left of the upper edge of the sternum.

 The first measurements were carried out before the introduction of the vaccine 08/14/97. The difference between the indices was 6.2.

 After administering to the child DTP - vaccines 09/02/97., 02/10/97 and the polio vaccine 10/20/97 measurements were made BEMP index 10/29/97 in the thymus at about the same points. The difference between the BEMR indices was 0.7, and the result of the comparison with the primary difference was significantly less than 30%, which indicates the inhibitory effect of the vaccine on immunity.

 Repeated monitoring of the effect of the vaccine on the child's body was carried out after a week of 11/05/97. The result of the difference between the BEMR indices was 0.3, which confirmed the negative effect of the vaccine on the child's body.

 Thus, the introduced vaccines did not have the desired effect on the functional state of the thymus and on increasing immunity, which allows us to evaluate the effect of the introduced vaccines as inhibitory immunity and is confirmed by the serological method for determining the antibody titer - zero.

 Example 3

 Andreev, age 2 g. 7 months.

 The effect of immunoglobulins on the state of immunity was evaluated by measuring BEMR indices. For this, 2 points were selected in the thymus region to the right and left of the upper edge of the sternum.

 The child was sick with acute respiratory infections. The first measurements of the BEMR index were carried out on 01/31/98. The difference between the BEMR indices was 1.8.

 The child underwent drug treatment aimed at strengthening the immune system. Immunoglobulins were administered. The control measurement of the BEMR indices was carried out on 02/04/98. The difference between the BEMR indices was 10.5, which significantly exceeded 30% and made it possible to conclude that immunity was increased, and the effect of the administered pharmacological preparations was assessed as increasing immunity.

 A repeated control measurement of the BEMR indices was carried out on 02/11/98. The difference between the BEMR indices was 10.5, which also significantly exceeded 30% and made it possible to conclude that the immunity state was fixed.

 Thus, the effect of the administered pharmacological preparations can be evaluated as increasing immunity, which is confirmed by the serological method for determining the titer of antibodies to diphtheria 1: 640 and to mumps 0.52.

Claims (1)

 The method of rapid diagnosis of the effects of a pharmacological preparation on the human body, according to which the bioelectromagnetic reactivity indices are measured at the studied points of the external part of the human body before and after exposure to the body by a pharmacological preparation, the measurement results are compared and the effect of the pharmacological preparation, which differs by that they evaluate the effect of the pharmacological preparation according to the state of immunity, for which they select externally as the studied the parts of the human body in the thymus region are two points located at a distance from each other, in each of which the values of the bioelectromagnetic reactivity indices are measured before and after exposure to a pharmacological preparation, the difference in the indices of the primary and the indices of the secondary measurements are calculated, the obtained values of the differences are compared, if as a result of comparison, the difference values differ by 30% or less than 30%, respectively, they indicate the absence of a change or a decrease in immunity, and the effect of pharmacological whom the drug is evaluated, respectively, as no influence on the immune system as a depressant or immunity, if the difference deviates by more than 30%, ascertain increasing immunity and pharmacological action of the drug is estimated to increase immunity.