RU2499552C2 - Method of measuring electric parameters of biological tissue for estimation of its electrophysiological state - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine. In method realisation active and passive electrodes are installed on the surface of biological tissue. Source of electric energy is switched to them. After that, impact on tissue by two pulses with electric power of specified value following one another is performed on them. Impulse of specified power of larger value follows impulse of specified power of smaller value. Electric parameters of biological tissue, corresponding to each value of specified power, are measured and their ratio is used to estimate electrophysiological state of biological tissue.

EFFECT: invention makes it possible to increase self-descriptiveness and objectivity of method of measuring electric parameters of biological tissue with simplification of realisation of method techniques.

2 cl, 1 dwg, 1 tbl, 2 ex

Description

The invention relates to medical equipment and can be used to assess the physiological state of biological tissue by its electrical parameters. The invention can be used in the diagnosis and treatment of human diseases. The invention can also be used in veterinary medicine in the diagnosis of animal diseases.

A known method for assessing the electrophysiological state of biological tissue, based on a direct measurement of tissue resistance or conductivity using an electric circuit formed by an active electrode mounted on a biologically active surface having a small area - an acupuncture point, and a passive electrode mounted on the surface of the base area of the biological tissue [ one]. The measurement of the electrical resistance or conductivity of biological tissue, which is a heat-dependent nonlinear object, requires measurement methods and equipment that ensure the certainty of the measurement mode and obtain, as a result, objective information about the electrophysiological state of the object. Ensuring the specified certainty of the measurement mode is often associated with problems, since the amount of energy that is dissipated in an object in the form of heat or spent on changing its energy state depends on the parameters of the object itself. In particular, the measurement results depend on how the skin surface is prepared for measurements, namely, on how much the skin is moistened with physiological saline in the area of contact with the electrode, as well as on its condition, including natural moisture / dryness of the skin . With repeated measurements, the parameters of the object can noticeably change; accordingly, according to the results, it will be impossible to trace the state of biological tissue in dynamics, in particular, during an illness. Therefore, methods for measuring static parameters, which is the resistance of biological tissue, using an electric circuit formed by an active electrode mounted on a biologically active surface having a small area (acupuncture point) and a passive electrode [1] installed on the surface of the base area of the biological tissue surface do not allow to achieve the necessary information about the state of biological tissue.

A known method for assessing the electrophysiological state of biological tissue [2], according to which set the active and passive electrodes, respectively, on the studied acupuncture point and the surface of the base area of the biological tissue. A pulse of a test electric current having an amplitude of 5-60 μA and a duration of 10-150 ms is passed through the electrodes. After the termination of the pulse, the electrodes are electrically connected to each other and the transient current in the circuit is measured: acupuncture point, active electrode, passive electrode, base area of biological tissue. The electrophysiological state of the biological tissue is assessed by the integral value of the transient current, measured from the moment the transient begins to the moment when the transient current value is 10% of the maximum value.

The information content of this method for assessing the electrophysiological state of biological tissue, based on the measurement of dynamic parameters, such as the transient current, is greater than the information content of the method for measuring static parameters of biological tissue. Nevertheless, the information content of the method is insufficient, since the measurement results continue to be dependent on the preparation of the skin surface for measurements and on its physiological state of the skin.

The disadvantages of the method include the need to use a significant amount of current that can cause morphological changes in the biological tissue of a destructive nature. The use of a measuring current of small magnitude will require the development of a more complex and sensitive device for implementing the method, although it is already quite complicated. Moreover, the method can be implemented only with the help of one device, which to a certain extent narrows the possibilities of its use [2].

A known method for assessing the electrophysiological state of biological tissue [3], which consists in installing on the surface of the biological tissue of electrically conductive active and passive electrodes, to which the source of electrical energy is periodically connected, and in the pauses between the connections, the electrodes are short-circuited and the electric current flowing through them is measured at In this case, the electric power acting on the biological tissue is increased to a value at which the electric current in pauses takes on a value proportional to cial preassigned voltage value, its instantaneous value is measured at the end of the transient voltage and establishment parameters evaluated transient changes in the instantaneous power.

When criticizing this method, it is necessary, first of all, to note the absence of criteria for choosing a predetermined voltage value, more precisely, even criteria for limiting this value, in turn, to limit the current proportional to it, in particular so as not to cause morphological changes of a destructive nature in biological tissue .

If it is necessary to limit the magnitude of the current, the information content of the method is reduced due to a decrease in the sensitivity of the device implementing it.

In addition, the device for implementing this method is even more complex than the device used to implement the method [2].

This method can also be implemented using only one device [3].

The complexity of the implementation of the methods [2, 3] is associated, first of all, with the need to determine the dynamic parameters of the transient in an electrical circuit that includes the resistance of biological tissue, although this approach allows, as already noted, to increase the accuracy of measurements and to increase information about the state biological tissue compared to a method for directly measuring the resistance or conductivity of biological tissue. However, the measurement results and, accordingly, the assessment of the state of biological tissue in this method, as well as in the method [2], remain dependent, although to a lesser extent, on the degree of preparation of the skin for measurements and on its physiological state.

For the prototype of the proposed method is selected as the closest in technical essence, the method of measuring the electrical parameters of biological tissue [3].

The objective of the invention is to increase the information content and objectivity of the method of measuring the electrical parameters of biological tissue while simplifying the implementation of the methods of the method.

The objective of the invention is solved in the case when the method for assessing the electrophysiological state of biological tissue, according to which an active and passive electrodes are installed on its surface, to which an electric energy source is connected, and an electric pulse is applied to the tissue, while measuring electrical parameters, allowing to give assessment of the electrophysiological state of biological tissue, characterized in that it affects the tissue with two pulses of electrical power for a given of values immediately following one another, wherein for the lower predetermined power pulse followed by a pulse greater predetermined power measurement is carried out corresponding to each value of a given power of electric parameters of the biological tissue and by their relation is evaluated electrophysiological state of the biological tissue.

The task is also solved in the case when:

- to create pulses of electrical power using a generator of a given electrical power.

The essence of the invention is based on the fact that to assess the state of the electrophysiological state of a biological tissue, the ratio of electrical parameters is used, in particular, the ratio of voltage drops in a circuit, measured when different sizes of electrical power pulses are exposed to biological tissue. In this case, the evaluation results cease to be dependent on how the skin surface is prepared for measurements, in particular on how much the skin is moistened with physiological saline in the area of contact with the electrode, and also on the natural moisture / dryness of the skin. There is a possibility of comparing the obtained results with the reference values characteristic of healthy biological tissue.

Due to the absence of the need to evaluate the parameters of the transient process, there is no need to increase the electric power acting on the tissue. The amount of electric power used in both measurements can always be chosen so that there is no negative thermodynamic effect on the tissue. Thus, in biological tissue morphological changes of a destructive nature are completely excluded.

A necessary condition for implementing the method for measuring the electrical parameters of biological tissue is that the power pulses are the same in duration and follow directly one after another, since otherwise the information content of the method and its objectivity cannot be achieved, in particular due to changes over time energy state of biological tissue.

In addition, it is necessary that a pulse of a given power of a lower value be followed by a pulse of a given power of a larger value, since the amount of energy that is dissipated in the object in the form of heat or spent on changing its energy state when exposed to a more powerful pulse can significantly reduce the objectivity of measurements when exposed weaker momentum. As a result, the ratio of the measured electrical parameters will not provide reliable information about the electrophysiological state of biological tissue.

It is recommended to create pulses of electrical power, use a pulse generator of a given electrical power.

Thus, when using the totality of the methods of the proposed method for assessing the electrophysiological state of biological tissue, the influence on the measurement accuracy of not only the state of the skin, but also energy dissipation in the form of heat or energy spent on changing the energy state of the biological tissue is excluded.

The method can be implemented using various devices, and having a very simple scheme. Moreover, the ratio of the electrical parameters of biological tissue, in principle, can be calculated in a non-automatic mode. Although of course it is more expedient to measure and determine the ratio of the measured values in an automatic mode. The following is the simplest scheme for implementing the method.

The universality and simplicity of the implementation of the method is due to the lack of the need to assess the parameters of the transient in the electrical circuit between the electrodes installed on the skin.

The method can be used to carry out a one-time assessment of the electrophysiological state of biological tissue, or the assessment can be carried out according to a certain algorithm, which will allow to trace the dynamics of changes in the electrophysiological state of biological tissue.

The invention is illustrated by the scheme of the method:

The circuit contains active 1 and passive 2 measuring electrodes connected to the outputs of switching unit 3. The inputs of the switching unit 3 connected to the inputs of the signal processing unit 4 are connected to the outputs of the measuring generator of a given electrical power (IGZM) 5, while the control inputs of switching unit 3 , signal processing unit 4 and IGZM 5 are connected to the outputs of the operating mode control unit 6. An indicator 7 is connected to the output of the signal processing unit 4 to display information on the ratio of voltage drops at two different set values of electric power involved in the measurement.

The surface area of the biological tissue (load) between the installed electrodes active 1 and passive 2 with the switching unit 3 is connected for a certain period of time to the measuring generator of a given power (IGZM) 5, which provides an electric power value on the load resistance, P ₁ = const, then on such the same time interval on the load resistance is provided by the second value of the electric power, P ₂ = const. The values of the voltage drops at the load at given values of constant power are supplied to the signal processing unit 4. Their ratio is displayed by indicator 7. The duration of the electric power pulses, as well as the processing algorithm of the received signals are set by the operating mode control unit 6.

To identify the features of the measurement method and its features, two options for the implementation of the method with exposure powers of 30/60 μW and 40/100 μW were investigated. The table shows the measured electrical parameters and calculated values. In the first case, the measurements were carried out at the same points on a dry and moistened skin, to establish the degree of dependence of the measurement results on the moisture content of the skin. The first measurement was performed when the skin was exposed to a 30 μW electric power pulse with a duration of 70 ms, and the second measurement was performed when a 60 μW electric pulse was applied to a skin with a duration of 70 ms. Impulses followed each other. The values of electric power are selected so as not to cause a significant change in the thermodynamic state of biological tissue. In the second case, the measurements were carried out at different points on dry skin, to establish the degree of dependence of the measurement results on the physiological state of the skin (normal, damaged, acupuncture point). In the third case, measurements were carried out on linear objects — exemplary active resistances for comparison with data from a nonlinear object (biological tissue). In the second and third cases, the measuring mode: exposure to an electric power of 40 μW - 33 ms, exposure to an electric power of 100 μW - 33 ms. The topology of acupuncture points and their names are given by source [4]. The electrodes used are indifferent in the form of a cylinder with a surface area of ~ 20 cm ² (located in the hand), active with an area of ~ 0.4 cm ² .

Table 1 The results of the measurement of the electrical parameters of the skin of a person obtained by implementing the method Measurement The measured voltage drop at the load at a power of 40 (30) μW, V The measured voltage drop at the load at a power of 100 (60) μW, V Voltage drop ratio for power values 40/100 (30/60) μW The calculated resistance value at a power of 40 (30) μW, kOhm The calculated resistance value at a power of 100 (60) μW, kOhm On the face not at the point of acupuncture (dry skin covering) (2.45) (4.10) (0.60) (200.1) (280.2) On the face not at the point of acupuncture (moisturized skin cover) (1.22) (2.05) (0.60) (49.6) (70.0) Hae-Gu Point (Gl4) 4.7 6.6 0.71 552.25 435.6 In the place of a mosquito bite 3.8 5,4 0.70 361 291.6 On the forearm (not at the point acupuncture) 3.9 5.3 0.74 380.25 280.9

Table 1 (end) On the foot (not at the acupuncture point) 6.7 9.1 0.74 1122.25 828.1 On exemplary resistance type C2-33 270 kOhm 3.30 5.21 0.63 272.25 271,441 On exemplary resistance type C2-33 510 kOhm 4.48 7.15 0.63 501.76 511,225

As follows from the obtained measurement results:

- for linear objects, the ratio of voltage drops for electric power values of 40/100 μW is a fixed value of 0.63;

- the ratio of voltage drops displayed by the indicator 7 does not depend on the moisture content of the skin;

- the ratio of voltage drops for electric power values of 40/100 μW depends on the condition of the skin and, according to preliminary data, can vary between 0.7-0.74. Moreover, the value of this ratio for acupuncture points and damaged areas of the skin is less than for ordinary undamaged areas.

The obtained value of the ratio of voltage drops can be used to evaluate the electrophysiological state of biological tissue, in particular, by comparing it with the value of the ratio of voltage drops characteristic of healthy tissue. It is thus possible to carry out measurements during the day (before and after medical procedures) and, based on the information received, evaluate the electrophysiological state of biological tissue in dynamics.

Sources of information taken into account

1. Markov Yu.V. Reflexotherapy in modern medicine. St. Petersburg: Nauka, 1992.182 s.

2. Copyright certificate SU 1806724, IPC A61H 39/00, published on 04/07/1993

3. Patent RU 2190994, IPC A61H 39/02, published October 20, 2002.

4. Gavaa Luvsan. Traditional and modern aspects of oriental reflexology. M .: Nauka, 1990, 587 p.

Claims (2)

1. A method of measuring the electrical parameters of biological tissue to assess its electrophysiological state, according to which an active and passive electrodes are installed on its surface, to which an electric energy source is connected, and the tissue is exposed to a pulse of electric power, and electrical parameters are measured, allowing an assessment electrophysiological state of biological tissue, characterized in that it affects the tissue with two pulses of electrical power given values immediately following each other, and a pulse of a given power of a lower value followed by a pulse of a given power of a larger value, the electrical parameters of the biological tissue corresponding to each value of the given power are measured, and the electrophysiological state of the biological tissue is evaluated by their ratio. 2. The method according to claim 1, characterized in that to create pulses of electrical power using a generator of a given electrical power.

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