SK8212002A3 - Electro-acupuncture-graphic diagnosis device - Google Patents

Abstract

It consists of a continuous meter (1) with simultaneous measurement impedances of active meridian points of the organism connected to the evaluation block (2) and the system non-pressure electrodes (3), while continuous meter (1) with simultaneous measurement of active meridian impedances points of the body is galvanic separated by infrared (16) from the evaluation and display block (2). The non-pressurized electrodes (3) are associated with a spacer mask (12). It also includes a frequency generator (4) connected via switch (9) by supply and sensing branches (5) with non-pressurized electrodes (3) and A / D converter (6) connected by supply and sensing branch (5) with non-pressurized electrodes (3). It is upstream of the A / D converter (6) an amplifier (7) and a demodulator (8). To power and sensing a digital filter (10) is connected to the branch (5). Elektrokugrafické the diagnostic device is supplemented by at least one processor unit. The output devices are a monitor (18) and printer (19).

Description

Technical field

The present invention relates to the involvement of a comprehensive acupuncture diagnostic system aimed at detecting the current health status of the whole organism being examined. The invention is in the field of medical diagnosis devices.

BACKGROUND OF THE INVENTION

For the purposes of prevention, diagnosis and treatment, there has been a known system of hotspots and meridians in the field of acupuncture for several millennia. It has an irreplaceable information, energy and regulatory role in the body. Energy flows within this system have their patterns and disturbances of their flows are reflected in the overall condition and condition of the organism. Systematic study of the hotspot and meridian system has shown that it is fully compatible with the notions and patterns of Western academic medicine, provided that it is properly diagnosed and analyzed to provide a picture of the state of the organism. The whole diagnosis of classical acupuncture is based on this assumption.

A certain problem was the objectification of findings in this system in accordance with the requirements of Western academic medicine. Existing quality pulse diagnostics in the classical sense of the word is the domain of only a few real experts, requires great clinical experience and is virtually useless for routine use in such a form. Normal clinical practice requires instrument-based diagnostics - instrumentalized and enabling reproducible detection of both qualitative and quantitative indicators so that they can be documented in the patient's medical record.

Another requirement for clinical and experimental practice is the comparability of results from different workplaces.

All these requirements could only be fulfilled once the electrochemical properties of the cells at the hot spot were demonstrated and the electrodiagnostic methods in acupuncture were initiated. All diagnostic methods used are basically based on the measurement of the electrical resistance at the relevant hotspot because its physical parameters change depending on the current hotspot state. A certain handicap of these methods of investigation of the hotspot and meridian system is the necessity to use a more or less regulated probe pressure and the gradual measurement of the individual test points. This results in a significant influence on the system by its own measurement process and a time shift between the first and last measured value. The situation is further complicated by the changing moisture and hence the skin resistance during the actual measurement, which makes practically impossible to reproduce the parameters thus obtained.

Existing acupuncture electrodiagnostic devices failed to obtain reproducible results using tip probes, due to two error factors. The physician performing the measurement always had to force the tip of the probe into the skin with some force, changing its thickness. Although the probes of some probes were spring-loaded, the size of the pressure and hence the size of the skin at the point of contact with the probe tip always depended on the subjective feeling of the physician. The point was also stimulated by acupressure, which influenced the value of its impedance and also changed or distorted the condition of the whole organism. Another disadvantage of the prior art devices for electrodiagnostics in acupuncture is also the method of determining the active point impedance given by the connection, the construction of these devices, which is carried out in the so-called. time period of the transient phenomenon, even at the "fluent" increasing pressure, while the "fluency" the doctor ensured subjectively on the basis of his practice.

Therefore, there is a need to address the above-mentioned shortcomings by technical means that would prevent changes in the measured impedances due to the manipulation of the measuring probe and would eliminate the time dependence of the transient effect in the measurement. This effort results in a newly created electro-acoustic diagnostic device implemented by the technical means described in the present invention.

SUMMARY OF THE INVENTION

These drawbacks are overcome by the electroaccumulative diagnostic device of the present invention, which is a substantially non-compact diagnostic device for graphically displaying the impedance values of the active meridian points of the body being captured and processed. Its essence is that it consists of a continuous meter with simultaneous measurement of impedances of active meridian points of the organism connected to the information flow but galvanic separated by infraports from the evaluation and imaging block. The system of non-pressurized electrodes is also a part of the electro-acoustic diagnostic device. The redistribution of these non-pressurized electrodes is due to the type of diagnostic measurement, for example electroaccumulation at common active meridan points or peripheral electro-acugraphy, or electro-acugraphy at alarm points and other types of electroaccumulations. . The electro-acoustic diagnostic device also enables alignment of non-pressurized electrodes for selected parts of the organism with a measuring mode where all selected points of one or more meridians are measured simultaneously and continuously, but at least three selected points are required from one meridian.

A continuous meter with simultaneous measurement of the impedance of active meridian points of the organism contains a frequency or pulse generator or an alternating voltage or current generator connected by a supply and sensing branch with non-pressurized electrodes through which a maximum current of 7.5 μΑ flows through the acupoint. Using this generator, the capacity of the acupuncture point is charged and discharged through the resistor.

Continuous impedance meter with simultaneous measurement of active meridian points of the body contains an A / D converter connected by a power and sensing branch with non-pressurized electrodes. An amplifier and a demodulator are connected to the A / D converter to obtain a DC voltage, which is measured by the A / D converter of the processor.

A mechanical or electronic switch and a digital filter are connected to the power and sensing branches. The digital filter is used to remove 50 Hz hum to average the measured values. The digital filter also provides measurement of the impedances of other acupunctive points by gradually switching the input analog multiplexers.

A reference electrode, for example in the form of a metal plate placed on the examination table, is connected to a continuous meter with simultaneous measurement of the impedances of active meridian points of the organism and a non-pressurized electrode is associated with a mask defining a skin element of a given surface area. The mask is a paper with a hole in the middle.

The electroacoustic diagnostic device is controlled by processors such that a continuous meter with simultaneous measurement of the impedance of the active meridian points of the organism comprises a first processor unit connected to at least an A / D converter and the evaluation block comprises a second processor unit with a monitor and printer.

The advantages of the electro-acoustic diagnostic device according to the invention lie in the following aspects. Maximum objectivisation of the measurement is guaranteed, independent of the experience of the physician using the device. This is due to the fact that the instrument allows the measurement to be carried out not in the time domain of the transient phenomenon but in the so-called. steady state, which occurs after several impulses introduced by non-pressurized electrodes into the body. Practically this represents a few seconds after the start of the measurement. The device further eliminates the drawbacks of the progressive measurement of the impedances of the active meridian points of the body by measuring the absolute impedance values of all the active points of the body corresponding to the type of measurement practically simultaneously and continuously. In practice, this is done in approx. 0.5 sec. The curves obtained in this way are relatively very stable and their interrelationships are evaluated in particular. Absolutely measured values practically do not affect the relationship of the curves and the possibility of their evaluation.

The device, and in particular the application of non-pressurized electrodes in conjunction with the delimiting mask, ensures a constant value of the surface area of the skin element for measurement, thereby ensuring the repeated reproducibility of the measured impedance values.

Measurement results are not affected by skin moisture and other accidental factors. Another advantage of the device compared to a single-point meter lies in the complex evaluation of the measured results, graphical representation of the curves on the monitor, etc., where you can create your own "photos" of the current state of the measured organ meridians. acupuncturist intervention by a doctor, administration of the drug also homeopathic and the like.

The benefits of using this diagnostic device are also apparent to the patient as the whole examination is non-invasive, non-painful, safe and without contraindications. The operating parameters of the device do not affect, for example, heart pacemaker devices or devices.

BRIEF DESCRIPTION OF THE DRAWINGS

The electroacoustic diagnostic apparatus of the present invention will be more fully understood by reference to the drawings, in which: FIG. 1 shows its basic block diagram. In FIG. 2 shows the application of a non-pressurized electrode with a mask to the skin of an organism.

DETAILED DESCRIPTION OF THE INVENTION

In this example of a specific embodiment of the invention, an electroaccumulative diagnostic device will be described, as shown in the block diagram of FIG. 1. It consists of a continuous meter 1 with simultaneous measurement of impedances of active meridian points of the organism connected to the evaluation and display block 2. The continuous meter 1 with simultaneous measurement of impedances of active meridian points of the organism is galvanic separated from the evaluation and display block 2 and the information flow occurs in infrared An important part of the electro-acoustic diagnostic device is also a set of non-pressurized electrodes 3 led directly or indirectly to a continuous meter ± with simultaneous measurement of the impedance of active meridian points of the organism. The redistribution of these non-pressurized electrodes 3 is determined by the type of measurement and the mode where all points of a particular type (e.g., biorhythm, ching, etc.) are measured simultaneously and continuously on each organ meridian and on both sides thereof. This measurement provides an image of the status of all organ meridians. A reference electrode 11, for example in the form of a metal plate laid on the examination table, is connected to a continuous meter 7 with simultaneous measurement of the impedances of active meridian points of the organism and a mask 12 defining a skin element of a given surface area is associated with the non-pressure electrodes. The delimiting mask 12 is a paper with an opening in the middle. The continuous meter 7 with simultaneous measurement of impedances of active meridian points of the organism comprises a frequency generator 4 connected by a supply and sensing branch 5 with non-pressurized electrodes 3, through which a maximum current of 7.5 μΑ flows through the acupoint. By means of this frequency generator 4, the capacity of the acupoint is charged and discharged via the resistor R. In alternative embodiments, the frequency generator 4 may be replaced by a pulse generator or an alternating current generator. The power and sensing branch 5 is essentially wiring, the wires at one end terminated with connectors. Continuous meter 7 with simultaneous measurement of impedances of active meridian points of the organism comprises A / D converter 6 connected by supply and sensing branch 5 with non-pressurized electrodes 3. KA / D converter 6 is connected amplifier 7 and demodulator 8, which obtains DC voltage which is measured by analog / digital A / D converter 6 processor. A switch 9 and a digital filter 10 are connected to the power and sensing branch 5. The switch 9 may be mechanical multi-position and multi-stage or electronic. The digital filter 10 is used to remove hum with a 50 Hz mains frequency and to average the measured values. The digital filter 10 also provides for measuring the impedances of other acupunctive points by sequentially switching the input analog multiplexers. The electroacoustic diagnostic device is controlled by processors such that the continuous meter 1 with simultaneous measurement of the impedances of active meridian points of the organism comprises a first processor unit 15 connected to at least an A / D converter 6 and the evaluation and display block 2 comprises a second processor unit 17 with monitor 13 and printer 14 .

The use of the electro-acoustic diagnostic device of the present invention is directed to complex acupuncture diagnostics using computerized electro-acuography EAG supplemented with a laboratory analysis module LAM. The correct operation of the device and the achievement of objective measurement results is conditioned by the location of the active point of the meridian of the organism. For its localization it is possible to use the hotspot indicator, where its application on the surface of the skin of the organism locates a point - point (element of the order of mm ² , with a rapid decrease of the impedance value). This will locate all the measured points and attach a bounding paper mask 12 to these points to ensure that the signal is actually sensed from the active point and not from its surroundings (fig. A small amount of gel is applied to the aperture in the mask and an appropriate non-allergenic sensing electrode 3 is attached thereto, which is fixed by glueing or other suitable non-allergenic material. Reference electrode 11 sa The appropriate EAG computer electroaccumulation mode is entered into the processor and, after stabilization of the curve, is monitored, as necessary, by flowing current through non-pressurized electrodes 3, the source of which is a frequency generator 4, generates a voltage at the active point impedance, which is sensed and then processed in the A / D converter 6 after amplification in the amplifier 7 and detection in the detector 8. Its quality is ensured by the digital filter 10. Subsequently, the first processing unit 15 pre-processes the measured data and data transmitted for documentation to monitor screen 13 or printer 14. Subsequently, another EAG mode may be switched and the procedure repeated. After saving all monitored curves, the software creates appropriate comparison curves, which are also documented. Finally, a medical evaluation of the results follows the appropriate method, which represents know-how.

Industrial usability

The electroacoustic diagnostic device of the invention is useful in medicine for diagnosing diseases and detecting the overall health of an organism.

Claims (11)

PATENT CLAIMS An electro-acoustic diagnostic device, characterized in that it consists of a continuous meter (1) with simultaneous measurement of the impedances of active meridian points of the organism connected to the evaluation and display block (2) and to a set of non-pressurized electrodes (3). ) with reference measurement of the impedance of active meridian points of the organism, a reference electrode (11) is connected. Electroaccumulative diagnostic device according to claim 1, characterized in that the continuous meter (1) with simultaneous measurement of impedances of active meridian points of the organism comprises a frequency generator (4) or pulse generator or alternating voltage or current generator connected by supply and sensing branch (1). 5) with non-pressurized electrodes (3). Electroaccumulative diagnostic device according to claim 1, characterized in that the continuous meter (1) with simultaneous measurement of impedances of active meridian points of the organism comprises an A / D converter (6) connected by a power and sensing branch (5) with non-pressurized electrodes (3). Electroaccumulative diagnostic device according to claim 3, characterized in that an amplifier (7) and / or a demodulator (8) is connected to the A / D converter (6). Electroaccumulative diagnostic device according to claims 3 to 4, characterized in that a mechanical or electronic switch (9) is connected to the supply and sensing branches (5). Electroaccumulative diagnostic device according to claims 3 to 5, characterized in that the continuous meter (1) with simultaneous measurement of impedances of active meridian points of the organism comprises a digital filter (10). Electroaccumulative diagnostic device according to claim 1, characterized in that the non-pressurized electrodes (3) are associated with a delimiting mask (12). Electroaccumulative diagnostic device according to claim 1, characterized in that the continuous meter (1) with simultaneous measurement of impedances of active meridian points of the organism comprises a first processor unit (15) connected to at least an A / D converter (6). Electroaccumulative diagnostic device according to claim 1, characterized in that the continuous meter (1) with simultaneous measurement of impedances of active meridian points of the organism is galvanically separated from the evaluation and imaging block (2) by means of infrared port (16). Electroaccumulative diagnostic device according to claim 1, characterized in that the evaluation and display block (2) comprises a second processing unit (17) with a monitor (13) and / or a printer (14). Electroaccumulative diagnostic device according to claim 1, characterized in that the value of the measuring current of the non-pressurized electrode (3) is of the order of magnitude in micro-amperes.