RU2375955C1 - Device for determining acupuncture points parametres - Google Patents

Abstract

FIELD: medicine. ^ SUBSTANCE: device contains registering device with source of constant current, placed in dielectric padding, fixed on one of hand fingers, and spring-loaded relative to it, two movable active electrodes, connected with possibility of their alternate or joined switching to one of registering device inlets and passive electrode, switched to its second inlet. ^ EFFECT: application of claimed device allows to simplify procedure of parametre measuring, increasing at the same time reliability of obtained results and reducing device dimensions. ^ 14 cl, 6 dwg, 3 ex

Description

The invention relates to medical equipment, and in particular to devices for measuring the electrical parameters of the skin at acupuncture points, used for diagnostic studies by electro-puncture methods, in particular, with the medical diagnostic electro-puncture method of R. Voll, widely represented in modern traditional medicine.

The effectiveness of diagnostic studies in the implementation of medical methods based on specialized measuring devices is largely determined by ensuring the uniformity of measurements for the methods used and the reliability of the recorded diagnostic indicators.

For R. Voll’s diagnostic method, the unity of measurements is determined by the need to form a predetermined nonlinear function of measuring transformations of the recorded electric skin resistance in order to obtain informative indicators into the values of the selected conditional units (conventional units) of “conductivity”, determined in accordance with Werner's “Reference curve” (Werner F. Fundamentals of electroacupuncture. - M .: IMEDIS, 1993. - 184 p .; Kramer F. Textbook on electropuncture, t.I. - M .: IMEDIS, 1995. - 189 p. [1]), and the reliability of the recorded indicators is determined is the degree of compliance of the recorded values of "conductivity" with the skin resistance of the selected areas of the skin.

A device for measuring electric skin resistance is known for electropuncture diagnostics according to the method of R. Voll (Voll R. Arbeitsrichtlinien fur die Elektroakupunktur. - MLVerlag, Hamburg, II Teil, 1963. - 102 s .; Kramer F. Textbook on electropuncture T.I. - M .: IMEDIS, 1995. - 189 p. [2]), containing an indifferent electrode connected to the input of the amplifier (tube of a tube triode) and through a resistor (R ₁ ) connected to a common power bus, a measuring electrode connected to the output of the controlled voltage source, the input of which is connected to the output of the subtraction unit (about They are connected by a resistor R ₂ and an electric power source due to the voltage resistor R ₁ connected), the inputs of which are separately connected to a reference voltage source (the output voltage of which is formed on resistor R ₃ ) and the amplifier output, and a recorder connected to the amplifier output.

The known device provides the conversion of informative electric skin resistance, connected between the measuring and indifferent electrodes into the value of "conductivity" recorded by the recorder, defined in arbitrary units of "conductivity". At the same time, by turning on the resistor R _{1 in} series with the informative electric skin resistance, changing the measuring voltage supplied to the circuit of the informative resistance depending on the value of the informative resistance and choosing the operating point of the amplifier in the non-linear section of the amplitude characteristic (tube triode), a non-linear transformation function is formed ( electrical skin resistance in the recorded "conductivity") in accordance with the "reference curve" Werner.

At the same time, this device does not provide the required accuracy and reliability of the recorded values of "conductivity" due to the registration of "conductivity" by the values of the sums of electric skin resistances in the areas of the measuring and indifferent electrodes. As a result of this, depending on the electric skin resistance in the zone of location of the indifferent electrode, the same values of the recorded values of "conductivity" may correspond to different values of the electric skin resistance of the selected informative zones.

In addition, when conducting studies using this device, a constant (galvanic) measuring current is passed through the skin, the force of which changes to a value of 12 μA, which causes significant polarization processes in biological tissues, which determine the change in polarization potentials, and therefore reduce the reliability of the recorded indicators. Moreover, due to the flowing current of relatively high value during measurements, the informative zones of the skin are irritated, which, in turn, changes their electric skin resistance, and therefore leads to a decrease in the reliability of the “conductivity” parameters recorded during diagnostic studies.

Thus, the device does not provide the required accuracy and reliability of the registration of the values of "conductivity", which determines the decrease in the effectiveness of diagnostic studies when using it.

A device for electropuncture diagnostics is known, which contains an active electrode, a constant electric current source, and a microammeter (RU 2295283 [3]). A disadvantage of the known device is that structurally the electrode is made as a stationary system. As a result, the influence of a subjective factor determined by the experience and abilities of the operator is introduced into the pressure of the electrode on the skin. In addition, the device does not allow the patient to measure the conductivity of the skin in the area of biologically active points on their own in order to detect them, measure parameters or exposure.

A device is known for finding biologically active points (BAP), stimulating and diagnosing them, containing active and passive electrodes, current conductors of said electrodes, a spring and an active electrode body, an electronic device and an electronic device body, the active electrode being made in the form of a spring-loaded rod placed in the axial channel of the housing is made of insulating material, the current lead of the active electrode is connected to a spring, which, in turn, is connected to the rod of the active electrode (SU 1635995, class A61H 39/00, 1991 [ four]).

A disadvantage of the known device is that it does not allow to provide the required measurement accuracy. This is due to the fact that the operator performing the measurements must orient the active electrode at a fixed angle when diagnosing by the Voll method. For the patient to use the device himself, it is necessary to undergo a sufficiently long training course under the guidance of an experienced specialist.

Closest to the technical nature of the claimed is a device for electropuncture diagnostics according to the method of R. Voll described in RU 2211689 [5]. The device comprises an information pickup sensor, a measuring system and a computer. The information pickup sensor consists of active and passive electrodes. The passive electrode is attached to the patient’s wrist. The active electrode is in the hands of the doctor taking the measurements, and consists of a housing in which the primary and secondary electrodes are located. The additional electrode is made of bronze and has the ability to move freely in the body of the active electrode. The additional electrode has a spring in order to ensure uniform pressure of the measuring tip. The main electrode is made of plastic, inserted into the additional electrode by pressing fit. A thermocouple is installed inside the main electrode. At the top of the active electrode is a multi-position switch that serves to control the measuring system. The active electrode is connected by cable to the power and measurement unit, which is connected by wires to the interface and then to the computer.

A disadvantage of the known device is that it is structurally complex and does not allow the patient to perform diagnostics on their own, and also does not allow to ensure high accuracy of measurements. This is due, as in the case described above, to the fact that the operator performing the measurements must orient the active electrode at a fixed angle when diagnosing by the Voll method. For the patient to use the device himself, it is necessary to undergo a sufficiently long training course under the guidance of an experienced specialist.

The inventive device for determining the parameters of acupuncture points is aimed at simplifying the procedure for measuring parameters while increasing the reliability of the results and reducing the size of the device.

This result is achieved by the fact that the device for determining the parameters of acupuncture points contains a recording device with a direct current source, placed in a dielectric substrate mounted on one of the fingers of the hand, and two movable active electrodes spring-loaded relative to it, connected with the possibility of alternating or jointly connecting them to one of the inputs of the recording device, and a passive electrode connected to its second input.

The indicated result is also achieved by the fact that active electrodes placed in a dielectric substrate fixed on one of the fingers are installed so that they can be contacted with acupuncture points located on the meridians located on the lateral back surfaces of the fingers.

The indicated result is also achieved by the fact that active electrodes placed in a dielectric substrate fixed on one of the fingers are installed so that they can be contacted with acupuncture points located on the meridians located on the lateral palmar surfaces of the fingers.

The indicated result is also achieved by the fact that the dielectric substrate is made in the form of a ring or half ring.

The indicated result is also achieved by the fact that the rear ends of the active electrodes are made protruding from the substrate.

The specified result is also achieved by the fact that the active electrodes are equipped with a mechanical drive for their movement.

The indicated result is also achieved by the fact that the mechanical drive for moving the active electrodes is made in the form of a cable in a Bowden shell.

The indicated result is also achieved by the fact that the drive for moving active electrodes is made in the form of a traction enveloping the rear ends of the electrodes protruding from the substrate, fixed to its distal end of the substrate and connected to a bracelet or to a recording device mounted on the wrist joint.

The indicated result is also achieved by the fact that the electrodes are facing with the rear ends to the fingertips.

The specified result is also achieved by the fact that the passive electrode is mounted on the hand with the possibility of contact with her skin.

The indicated result is also achieved by the fact that the recording device is placed on the bracelet mounted on the wrist.

This result is also achieved by the fact that the passive electrode is made in the form of a surface of a recording device facing the skin of the hand on which it is attached.

The specified result is also achieved by the fact that the active electrodes are equipped with a limiter of their course relative to the substrate.

The indicated result is also achieved by the fact that the recording device is placed on the substrate, and the passive electrode is located on its inner surface to ensure its contact with the skin of the fingers.

The use of two active electrodes in the proposed device when they are connected together instead of one allows you to simplify the procedure for determining the parameters of the points, since it provides measurement of the parameters of two acupuncture points at once and, based on their total measurement of parameters, allows to make a judgment about the state of the body at the moment and thereby increase the reliability of the results . In addition, this makes it possible to increase the reliability of the results obtained when one of the two active electrodes did not reach the acupuncture point.

The alternate connection of one of the two active electrodes to the recording device allows you to reduce the load on the test acupuncture point, which also improves the reliability of the results

The supply of active electrodes with a stroke limiter relative to the substrate is necessary so that the pressure of the active electrode on the acupuncture point is the same during repeated measurements and that this pressure does not exceed the optimum, i.e. necessary to ensure measurement accuracy.

Fixing the active electrodes on a dielectric substrate mounted on one of the fingers of the hand and making them movable, making it possible to contact acupuncture points located on the meridians located on the lateral back surfaces of the fingers of the hand, simplifies the procedure for determining the parameters of acupuncture points and, accordingly, judgments about the state of the body on them without teaching the user the skills necessary for this, because at the expense of the proposed constructive means The obvious electrodes will uniquely contact the acupuncture points located on the indicated meridians.

In another particular case of implementation, it is advisable to install active electrodes on a dielectric substrate fixed to one of the fingers of the hand and made movable, with the possibility of contact with acupuncture points located on the meridians located on the lateral palmar surfaces of the fingers.

In this case, the design of the device is simplified, because there is no need to supply it with a rod mounted on the distal end of the substrate.

The most optimal implementation of the dielectric substrate in the form of a ring or half ring. In this case, reliable support of the substrate on the finger and contact with acupuncture points located on the meridians located on the lateral palm or back surfaces of the fingers of the hand are ensured, so that the movable electrodes clearly hit the acupuncture points located on the indicated meridians.

The implementation of the active electrodes spring-loaded relative to the substrate, and their rear ends protruding from it, also makes it possible to simplify the procedure for determining the parameters of acupuncture points, since it provides contact with the indicated points at the required time by pressing the back ends of the electrodes for the duration of the measurement process, ensuring automatic return of the electrodes to the starting position.

The supply of active electrodes with a mechanical drive for their movement allows the application of the same dosed force to move them and thus increase the reliability of the obtained measurement results.

The supply of the dielectric substrate with a mechanical drive in the form of a traction enveloping the rear ends of the electrodes protruding from it, mounted on its distal end and connected to a bracelet or to a recording device mounted on the wrist, also allows to simplify the procedure for measuring the parameters of acupuncture points located on the meridians located on the meridians lateral back surfaces of the fingers, since with such a constructive implementation a person (patient), on whose finger a dielectric substrate with electrodes is put on, and on the wrist is a bracelet, it is enough to bend the finger with the substrate and thereby ensure that the active electrodes contact acupuncture points, the parameters of which are to be measured.

Providing the active electrodes with a mechanical drive for their movement in the form of a cable in the Bowden shell allows the application of the same dosed force to move them without transferring force to the dielectric substrate and thus increase the reliability of the obtained measurement results.

In another case, when the electrodes are facing with the rear ends to the fingertips, there is no need to supply the dielectric substrate of the envelope with the thrust protruding from the back ends of the electrodes, since it is enough for a patient with a dielectric substrate with electrodes on his finger to bend his finger with the substrate and thereby ensure that the active electrodes contact acupuncture points located on the meridians located on the lateral palmar surfaces of the fingers, the parameters of which are to be measured

In all cases of measurement, as in the prototype, it is necessary to ensure the contact of the passive electrode with the surface of the skin of the patient. For example, a patient can hold a passive electrode in the same hand, on the finger of which a dielectric substrate with active electrodes is worn, or in the other hand. It seems advisable that this contact of the passive electrode with the patient’s skin should be maintained all the time in order to simplify the measurement procedure. Indeed, in this case, if the passive electrode has constant contact with the patient’s skin, it is enough for him to bring the active electrodes into contact with the acupuncture points in order to obtain information about their parameters. Therefore, it is advisable to fix the passive electrode on the patient’s body, for example on his arm.

In order to reduce the dimensions of the device, it seems advisable to make a passive electrode in the form of a surface of a recording device facing the skin of the hand on which it is attached, and the recording device itself should be installed on a bracelet mounted on the wrist, or wrist, or on the wrist joint. Even more miniature is the embodiment of the device when the recording device is placed on the substrate, and the passive electrode is located on its inner surface, ensuring its contact with the skin of the fingers.

The essence of the claimed device is illustrated by examples of its implementation and drawings. Figure 1 presents a General schematic diagram of a device for determining the parameters of acupuncture points; figure 2 presents an embodiment of the device when the active electrodes are placed on a dielectric substrate fixed to one of the fingers of the hand, and installed with the possibility of their contact with acupuncture points located on the meridians located on the lateral palmar surfaces of the fingers; figure 3 presents an embodiment of the device when the active electrodes are placed on a dielectric substrate mounted on one of the fingers of the hand, are installed with the possibility of their contact with acupuncture points located on the meridians located on the lateral back surfaces of the fingers, and the drive moves active the electrodes are made in the form of a traction enveloping the rear ends of the electrodes protruding from the substrate, fixed to the distal end of the substrate and connected to a bracelet or to a recording device Ohm, mounted on the wrist joint: figure 4 shows an embodiment of the device when the recording device is placed on the substrate, and the passive electrode on its inner surface to ensure its contact with the skin of the fingers: figure 5 shows an embodiment of the device with fixing active electrodes on a substrate in the form of a half ring worn on one of the fingers of the hand; Fig.6 is a section aa of Fig.5.

Example 1. A device for determining the parameters of acupuncture points (see figure 2) contains a recording device 1 with a constant current source (not shown), two movable active electrodes 2 connected by conductors 3 with the possibility of alternating or joint connection to one of the inputs of the recording device, and a passive electrode 4 connected to its second input (not shown in FIG. 2, see FIG. 1). Active electrodes 2 are placed in a dielectric substrate 5, fixed on one of the fingers of the hand, and are spring-loaded relative to it by a spring 6, which is fixed at one end to the substrate and connected to the rear end of electrode 2 with the other. The spring covers a sleeve 7 pressed into the substrate, which is a limiter electrode stroke. Active electrodes 2 using conductors 3 are connected to one of the inputs of the recording device 1. The recording device 1 is placed on the bracelet 8, mounted on the wrist. The passive electrode 4 is made in the form of a metal foil fixed on the inner surface of the bracelet 8 and connected by a conductor to one of the inputs of the recording device.

The device is used as follows. The dielectric substrate 5 is put on the finger of the hand, on one of its phalanges, and on the wrist a bracelet 8 is put on with the passive electrode 4 fixed on its inner side and the recording device 1 on the outside. The power source of the recording device is turned on, after which the patient bends his fingers into a fist. As a result of bending the fingers, mechanical force is applied to the rear ends of the active electrodes. Under the influence of the force applied to the rear ends of the electrodes 2, the latter overcome the resistance of the springs 6 and come into contact with the acupuncture points located on the meridians located on the lateral palmar surfaces of the fingers, and the recording device records the measured values. Since the rear ends of the active electrodes are made of a larger diameter than the hole in the sleeve 7, the magnitude of their movement will be limited. After measurement, the patient straightens his fingers and under the influence of the spring 6, the active electrodes 2 return to their original position.

Example 2. A device for determining the parameters of acupuncture points (see figure 3) contains a recording device 1 with a constant current source (not shown), two movable active electrodes 2 connected by conductors 3 with the possibility of alternating or joint connection to one of the inputs of the recording device, and a passive electrode 4 connected to its second input (not shown in FIG. 3, see FIG. 1). Active electrodes 2 are placed in a dielectric substrate 5, fixed on one of the fingers of the hand, and are spring-loaded relative to it by a spring 6, which is fixed in the substrate with the help of a pressed sleeve 7, which is also an electrode travel limiter. The recording device 1 is placed on the bracelet 8, mounted on the wrist. The passive electrode 4 is made in the form of a metal foil fixed on the inner surface of the bracelet 8 and connected by a conductor to one of the inputs of the recording device. At the distal end of the substrate, a rod 9 is fixed, for example, in the form of a tape of fabric enveloping the rear ends of the electrodes protruding from the substrate, connected to a bracelet or to a recording device mounted on the wrist joint. Conductors 3 connecting active electrodes 2 with recording device 1 can be woven into the traction.

The device is used as follows. The dielectric substrate 5 is worn on the finger of the hand, on one of its phalanges, and on the wrist is worn a bracelet 8 with a passive electrode 4 fixed on its inside and a recording device 1 on the outside. The power source of the recording device is turned on, after which the patient bends his fingers into a fist. As a result of the bending of the fingers, the rod 9 is stretched and mechanical force is applied to the rear ends of the active electrodes. Under the influence of the force applied to the rear ends of the electrodes 2, the latter overcome the resistance of the springs 6 and come into contact with the acupuncture points located on the meridians located on the lateral back surfaces of the fingers, and the recording device records the measured values. Since the rear ends of the active electrodes are made of a larger diameter than the hole in the sleeve 7, the magnitude of their movement will be limited. After the measurement, the patient straightens his fingers, the thrust weakens and, under the influence of the spring 6, the active electrodes 2 return to their original position.

Example 3. A device for determining the parameters of acupuncture points (see figure 4) contains a recording device 1 with a direct current source (not shown), two movable active electrodes 2, connected by conductors 3 laid in the body of the substrate with the possibility of alternating or joint connection to one of the inputs of the recording device, and a passive electrode 4 connected to its second input (not shown in Fig. 4, see Fig. 1). Active electrodes 2 are placed in a dielectric substrate 5, fixed on one of the fingers of the hand, and are spring-loaded relative to it by a spring 6, which is fixed in the substrate with the help of a pressed sleeve 7, which is also an electrode travel limiter. The recording device 1 is placed on the substrate 5, worn on the finger of the hand. The passive electrode 4 is made in the form of a metal foil mounted on the inner surface of the substrate 5 or the housing of the recording device 1 and connected by a conductor to one of the inputs of the recording device. The rear ends of the active electrodes can be connected to a mechanical drive for their movement, made in the form of a cable in a Bowden shell (not shown). As such, a trigger cable for cameras can be used.

The device is used as follows. The dielectric substrate 5 is worn on the finger of a hand, on one of its phalanges, with a passive electrode 4 fixed on its inner side and a recording device 1 on the outer side. The power source of the recording device is turned on, after which the patient either presses the rear ends of the active electrodes with the fingers of the other hand, or moves them using the drive for their movement, made in the form of a cable in a Bowden shell.

As a result of the force applied to the rear ends of the electrodes 2, the latter overcome the resistance of the springs 6 and come into contact with the acupuncture points located on the meridians located on the lateral back surfaces of the fingers, and the recording device records the measured values. Since the rear ends of the active electrodes are made of a larger diameter than the hole in the sleeve 7, the magnitude of their movement will be limited. After measurement, the patient removes the force applied to the electrodes and, under the influence of the spring 6, the active electrodes 2 return to their original position.

Claims (14)

1. A device for determining the parameters of acupuncture points, containing a recording device with a constant current source, placed in a dielectric substrate, mounted on one of the fingers and spring-loaded relative to it, two movable active electrodes connected with the possibility of alternating or joint connection to one of the inputs a recording device and a passive electrode connected to its second input. 2. The device according to claim 1, characterized in that the active electrodes placed in a dielectric substrate mounted on one of the fingers are installed so that they can contact acupuncture points located on the meridians located on the lateral back surfaces of the fingers. 3. The device according to claim 1, characterized in that the active electrodes placed in a dielectric substrate mounted on one of the fingers are installed so that they can contact acupuncture points located on the meridians located on the lateral palmar surfaces of the fingers. 4. The device according to claim 1, or 2, or 3, characterized in that the dielectric substrate is made in the form of a ring or half ring. 5. The device according to claim 4, characterized in that the rear ends of the active electrodes are made protruding from the substrate. 6. The device according to claim 1, or 2, or 3, characterized in that the active electrodes are equipped with a mechanical drive for their movement. 7. The device according to claim 6, characterized in that the mechanical drive for moving the active electrodes is made in the form of a cable in a Bowden shell. 8. The device according to claim 1 or 2, characterized in that the active electrodes are equipped with a mechanical drive for their movement, made in the form of traction enveloping the rear ends of the electrodes protruding from the substrate, fixed to the distal end of the substrate and connected to the bracelet. 9. The device according to claim 3, characterized in that the electrodes are facing with the rear ends to the pads of the fingers. 10. The device according to claim 1, or 2, or 3, characterized in that the passive electrode is mounted on the hand with the possibility of contact with the skin. 11. The device according to claim 10, characterized in that the passive electrode is made in the form of a surface of a recording device facing the skin of the hand on which it is attached. 12. The device according to claim 1, or 2, or 3, characterized in that the passive electrode is made in the form of a surface of a recording device facing the skin of the hand on which it is attached. 13. The device according to claim 5, characterized in that the active electrodes are equipped with a limiter of their course relative to the substrate. 14. The device according to claim 4, characterized in that the passive electrode is placed on the inner surface of the substrate to ensure its contact with the skin of the fingers.

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