RU2098818C1 - Method for estimating dynamic changes of pathologic process on prosthesis bed mucosa - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves selecting paired points of symmetry of human organism. Bioelectromagnetic reactivity index value is measured in selected points. Measurement results are compared in paired points of symmetry. The bioelectromagnetic reactivity index value in the paired points of symmetry differing not more than by 10-20%, dynamic changes of pathologic process is estimated as uniform (subcompensation). The bioelectromagnetic reactivity index value in the paired points of symmetry differing more than by 20%, dynamic changes of pathologic process is estimated as threshold one (decompensation). EFFECT: enhanced reliability of the method. 1 dwg

Description

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

 A known method of functional diagnosis of dental diseases, which is based on the method of polarography. ("The use of polarography and potentiometry for the functional diagnosis of dental diseases" (Methodological recommendations). M. Ministry of Health of the USSR, 1980, S. 4-18). In accordance with the method, a measuring electrode is introduced into the tissue of the test point on the gingival mucosa, a passive electrode is placed directly on the gingival mucosa, a constant voltage is applied to the electrodes, which is gradually increased, the nature of the current change in the gap between the electrodes from the changing voltage and the nature of changes in current diagnose the functional state of the oral mucosa. To assess the dynamics of the pathological process for the diagnosis of the functional state of the oral mucosa, in particular, the gingival mucosa, several pairs of the studied points are selected.

 Closest to the invention is a method for the functional diagnosis of dental diseases, which is based on a potentiometric method for determining the redox potential in tissues (ibid., Pp. 41-48). In accordance with the method, two points of interest are selected on the gingival mucosa, a measuring reference electrode is installed on them, a voltage potential is formed on the reference electrode, it is maintained constant by monitoring, the voltage potential at the measuring electrode is measured, the measurement results are compared, and the comparison result is obtained by measuring the EMF between the electrodes, the value of which is determined by the potential difference at the electrodes. The magnitude of the EMF diagnose the functional state of the oral mucosa in the region of the studied points. To assess the dynamics of the pathological process for the diagnosis of the functional state of the oral mucosa, in particular, the gingival mucosa, several pairs of the studied points are selected.

 A disadvantage of the known methods in assessing the dynamics of the pathological process on the mucous membrane of the gums is as follows. When the measuring electrode is in direct contact with tissue or tissue fluid, its sensitivity decreases due to the deposition of insoluble salts, proteins, sulfhydryl complexes, etc. on the electrode working surface. included in the fabric, which leads to contamination of the surface of the electrode. In addition, a reliable, uniform and tight contact of the passive electrode (reference electrode) is required, since the slightest changes in the contact area are reflected in the diagnostic results. The location of the passive electrode (reference electrode) also affects the diagnostic results: the closer the electrodes are to each other, the greater the amplitude of the useful signal, the more accurate the diagnostic results. In addition, in the methods control the signal generated on the surface of the mucous membrane of the gums (current flows along the surface of the mucous membrane). The surface of the mucous membrane is subject to external factors: it can have microtraumas, can be moistened with saliva (under the reference electrode, the surface of the mucous membrane of the prosthetic bed must be dried), etc. All this affects the accuracy of the diagnostic results, i.e. reduces the reliability of diagnosis. In addition, the known methods require decoding and analysis of the measurement results, which reduces their efficiency and does not allow for rapid assessment of the dynamics of the pathological process on the mucous membrane of the gums.

 Thus, the known known methods for the functional diagnosis of dental diseases, in particular, assessing the dynamics of the pathological process on the mucous membrane of the gums during their implementation, do not allow to achieve a technical result, consisting in increasing efficiency and increasing reliability.

 The invention solves the problem of creating a method for assessing the dynamics of the pathological process on the mucous membrane of the prosthetic bed, which, when implemented, ensures the achievement of a technical result, which consists in increasing the efficiency and reliability.

 The essence of the invention lies in the fact that in the method for assessing the dynamics of the pathological process on the mucous membrane of the prosthetic bed, several pairs of the studied points are selected, the controlled parameter is measured at the points, the measurement results are compared at the paired points, the dynamics of the pathological process are evaluated according to the results of the comparison, the selected points are selected as the studied points paired symmetry points on the upper and lower jaws or on the same jaw, and the bioelectromagnetic reactivity index is used as a controlled parameter, We compare the result of bioelectromagnetic reactivity indices at pair symmetry points by calculating the difference between these values, while if the values of bioelectromagnetic reactivity indices at pair symmetry points differ by no more than 10.20%, then the dynamics of the pathological process is assessed as uniform if the value of bioelectromagnetic reactivity indices in paired points of symmetry differ by more than 20%, the dynamics of the pathology is estimated as focal.

 The goal is achieved as follows. The proposed method for assessing the dynamics of the pathological process is based on the fundamental property of the human body bilateral symmetry, which is determined by duplication of the anatomical structures of the body and increases the reliability of functioning in extreme environmental conditions ("Exteroreceptors of the skin" (Some issues of local diagnosis and therapy) ES Velhover , G.V. Kushnir, Chisinau: Shtiintsa, 1984, p. 28-40). Bilateral symmetry is closely associated with functional (physiological) asymmetry, due to the predominance of the regulatory functions of the cerebral hemispheres and parts of the autonomic nervous system (parasympathetic or sympathetic). As a result, due to the different (asymmetric) neurotrophic (regulatory) function of the central nervous system, living tissues of symmetrical organs (or symmetrical parts of the organ) have a different level of metabolic processes, microcirculation (blood supply). The above analysis of the specialized literature, as well as the results of the analysis of statistical data on the results of the study of the functional and morphological state of the pair symmetry points of symmetric healthy organs or symmetric parts of healthy organs, showed that the functional norm is a violation of symmetry, in particular, for the surface of the mucous membrane of symmetrical organs of the oral cavity by 15 ± 5 (Ognev B.V. "Asymmetries of the human vascular and nervous system, their theoretical and practical significance", Vestnik of the USSR Academy of Medical Sciences, 1948, N 4, p. 26; Skobsky I. L. "Humoral asymmetries in the organism of the development of diseases", M. 1969, p. 35-60; Piransky V. S. "Symmetry and asymmetry of the anatomical structure", Transactions of Saratov Medical Institute, 1968 , issue 73, p. 125; E.S. Velhover, G.V. Kushnir "Exteroreceptors of the skin" (Some issues of local diagnosis and therapy), Chisinau: Shtiintsa, 1984, p. 28-40). Since bilateral symmetry is most pronounced in the oral cavity, which is explained by neuro-trophic regulatory connections with paired cranial nerves, this makes it possible to use the property of bilateral symmetry to assess the dynamics of the pathological process in the oral cavity, in particular, on the mucous membrane of the prosthetic bed. But at the same time, a deviation from the functional norm of asymmetry indicates the degree of tissue damage, namely: if the asymmetry does not exceed the functional norm at paired points of symmetry, that is, 10.20 then the dynamics of the pathological process is assessed as uniform (subcompensated); if the asymmetry in paired points of symmetry exceeds 20, then the dynamics of the pathological process is estimated as focal (decompensation).

 The possibility of using the property of bilateral symmetry of the human body in the invention is ensured by the fact that the bioelectromagnetic reactivity index is used as a criterion for assessing the dynamics of the pathological process, which allows one to compare the functional and morphological state at paired symmetry points of the upper and lower jaws or one jaw. This is because the measurement of the bioelectromagnetic reactivity index is based on the property of living tissue to convert electromagnetic waves induced in it by external electromagnetic fields, namely: geo- and heliomagnetic fields, 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 a living organism (organ) of external electromagnetic fields in the tissues, a low-frequency pulsed complex-modulated electromagnetic field is also induced in the form of electromagnetic vibrational processes in living tissue, 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, S. 39-43). 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. "Bioenergy" (Theory of energy transfer), M. Publisher fizmash, 1960, pp. 3-14). Thus, in the proposed method, the values of the BEMR indices, measured at the pair of points of symmetry of the lower and upper gums or gums, correspond to the functional and morphological state of the tissues at these points. Moreover, since all layers of tissue participate in the formation of parameters of electromagnetic waves, the depth of the tissue under investigation increases. The parameters of the deeper layers of the tissue are more stable than the surface layers of the tissue. This is because the state of the inner layers of the tissue is determined by homeostasis, and the surface layers of the tissue are subject to external influences and the receptor systems on the surface of the organ are highly reactive. In addition, internal tissues are more inert and their relaxation time is longer than surface tissues. All this allows us to virtually eliminate the influence of external factors on the measurement results, which increases the reliability of the measurement results, and therefore increases the reliability of assessing the dynamics of the pathological process on the mucous membrane of the gums. Since the values of the BEMR indices correspond to the functional and morphological state of the tissues at the studied points, this leads to differentiation in the results of measurements of the BEMR indices and provides the opportunity to obtain the results of comparing the values of the BEMR indices at pair symmetry points by calculating the difference of these values. Moreover, the orientation toward bilateral symmetry, namely, the choice for the study of paired symmetry points on the upper and lower jaw or on one jaw, allows one to obtain more reliable information about the effect of pathology on the organ. Moreover, if the values of the BEMR indices at pair symmetry points differ by no more than 10.20, this indicates the absence of bilateral symmetry breaking, since this difference is due to the functional norm and the dynamics of the pathological process are assessed as uniform (subcompensated). If the values of the BEMR indices at pair symmetry points differ by more than 20, this indicates a violation of bilateral symmetry and the dynamics of the pathological process is assessed as focal (decompensation).

 In addition, in contrast to the prototype, in which insoluble salts, proteins, sulfhydryl complexes, etc. included in the composition of the tissue and determining its morphological state, reduce the sensitivity of the measuring electrode and are a negative factor, in the proposed method they allow to obtain more reliable information of the measurement results, since the parameters of the oscillatory processes in the tissue, as has already been shown, are determined by its morphological state. Moreover, since the result of comparing the values of the bioelectromagnetic reactivity indices at pair symmetry points is obtained by calculating the difference of these values, the influence of the distance between the points on the result of assessing the dynamics of the pathological process is excluded, since in this case the functional and morphological state of tissues at these points are compared, which is determined by the state tissue, not the distance between the measurement points. It also increases the reliability of assessing the dynamics of the pathological process.

 Due to the fact that in the proposed method for evaluating the dynamics of the pathological process, the result of comparing the values of the BEMR indices measured at the pair symmetry points of the organs (or organs) under study is used, and the fact of violation or absence of violation of the bilateral symmetry of the body is used as an evaluation criterion, the proposed method for assessing the dynamics pathological process on the mucous membrane of the gums eliminates the need to determine the nature of the pathology, does not require additional processing and decoding of the results Comrade measurements, simplifying the method and reduces the time required for research and as a result increases the efficiency of the proposed method.

 In addition, the elimination of the need for additional processing and decoding of the research results, the simplicity and speed of obtaining the results of assessing the dynamics of the pathological process provide an additional technical result in relation to the prototype, namely: the possibility of rapid assessment of the dynamics of the pathological process on the mucous membrane of the gums.

 Thus, the proposed method for assessing the dynamics of the pathological process on the mucous membrane of the gums during its implementation ensures the achievement of a technical result, which consists in increasing efficiency, increasing reliability, and also provides an additional technical result: an express assessment of the dynamics of the pathological process.

 The drawing shows the location of paired points of symmetry: a) on the upper and lower jaws; b) on the upper jaw; c) on the lower jaw.

 The method is as follows.

 On the mucous membrane of the prosthetic bed of the upper and lower jaws or one jaw, several paired points of symmetry are chosen for research. At each test point, the bioelectromagnetic reactivity index is monitored, for which its value is measured. The measurement results of the BEMR indices in pair points are compared by calculating the difference of their values. Moreover, if the values of the BEMR indices at pair symmetry points differ by no more than 10.20, the dynamics of the pathological process is evaluated as uniform (subcompensated). If the values of the BEMR indices at pair symmetry points differ by more than 20, the dynamics of the pathological process is estimated as focal (decompensation).

 The method is implemented by the medical and diagnostic complex "Malachite-010 P", developed in accordance with the industry scientific and technical program "Study of the mechanism of biological and therapeutic effects of magnetic fields in normal and pathological conditions", approved by the Ministry of Health of the USSR (Project 1137). The complex was developed in the laboratory of medical cybernetics of the Sverdlovsk State Medical Institute.

 The complex is protected by copyright with the signature stamp "Particleboard", application N 4889099/14, priority 06.12.90, positive decision from 09/23/91, authors Bankov V.I. etc. Serial release since 1992.

 The Malachite-010 P complex forms a pulsed complex modulated electromagnetic field, it has inductors, emitters and electromagnetic field sensors: a surface (capacitive) sensor and a deep (inductive) sensor, which is more sensitive.

 To implement the method, the sensor is applied to the surface of the organ at the studied point. The measurement results are removed from the scoreboard on the front of the device.

 Example 1. Patient G.F.F. year of birth 1926, complaints of burning of the mucous surface under the bases of hollow dentures. A burning sensation was first noticed two weeks after the prosthetics. Examination of the oral cavity and dentures showed the following. The mucous surface of the prosthetic bed, according to the boundaries of the prosthesis, is hyperemic, loose. Laminar prostheses are in satisfactory condition, prosthesis hygiene is good. An express assessment of the dynamics of the pathological process was carried out. For this, four paired symmetric points were selected on the upper and lower jaws, at which the BEMR index was measured (Fig. A). The measurement results of the BEMR indices and comparison of their values are given below.

 Upper jaw: T1-6.81; T2-7.25; T3-6.51; T4-6.92.

 Lower jaw: T1'-7.55; T2'-8.08; T3'-7.45; T4'-6.97.

 BEMR, 10; 12; eighteen; eleven.

 An analysis of the results of comparing the values of BEMR indices at paired points of symmetry of symmetric diseased organs (upper and lower jaw) showed that the dynamics of the pathological process is uniform, since BEMR does not exceed 10.20 Then, an express assessment of the dynamics of pathology on each diseased jaw was carried out separately. For this, the jaw was visually divided into two symmetrical parts. After that, two paired points were chosen at which the BEMR index was measured. The measurement results are shown below.

 Upper jaw: T1 7.25; T2-6.81.

 (Fig. b) T1'-6.51; T2'-6.92.

 BEMR, 11; 2.

 Lower jaw: T1-8.08; T2-7.55.

 (Fig. c) T1'-7.45; T2'-6.97.

 BEMR, 8; eight.

 An analysis of the results of comparing the values of BEMR indices at the pair symmetry points of the symmetric parts of the upper and lower jaws confirmed that the dynamics of the pathological process in the upper and lower jaws is uniform, since BEMR does not exceed 10.20 Laboratory and clinical studies diagnosed with chronic allergic proliferative prosthetic stomatitis.

Claims (1)

 A method for assessing the dynamics of the pathological process on the mucous membrane of the prosthetic bed, according to which several pairs of the studied points are selected on the mucous membrane of the prosthetic bed, a controlled parameter is measured at the points, the results of measurements in paired points are compared, the dynamics of the pathological process, which differ in that as the studied points choose paired symmetry points on the upper and lower jaws or on the same jaw, and use as a controlled parameter index of bioelectromagnetic reactivity, and the result of comparing the values of bioelectromagnetic reactivity indices at pair symmetry points is obtained by performing the difference of these values, while if the values of bioelectromagnetic reactivity indices at pair symmetry points differ by no more than 10 20%, then the dynamics of the pathological process are assessed as uniform ( subcompensated), if the values of the bioelectromagnetic reactivity indices at pair symmetry points differ by more than 20%, then the dynamics of pathology eskogo process is evaluated as focal (decompensation).