Biologically active points. Do-it-yourself devices for finding acupuncture points El diagram of the finder of biological active points

V. Kozlov

Electroacopuncture is a modern version of classic acupuncture, in which the so-called active points on the skin of the human body are stimulated with electrical impulses. In electroacupuncture, needles are not used and therefore this method is most suitable for those patients who are afraid of infection during acupuncture, as well as for those who want to do electroacupuncture on their own.

To stick around the search for hot spots, together with the stimulator, I used an electronic ohmmeter on the LED. The measurement limit of the ohmmeter is G MOhm. As shown by numerous measurements, the resistance of the skin at active points is approximately 1 megohm. The schematic diagram of the stimulator is shown in Fig. 1. The stimulator is made on four inverters and a VT1 transistor switch. The first two inverters form a single-ended multivibrator, at the output of which another pair of inverters is connected, connected in parallel as an inverted buffer. With the help of the capacitor C2 and the diode VD3, pulses are formed with an amplitude almost equal to twice the supply voltage. In practice, the stimulator can be used when the supply voltage is reduced to 5 V, but at the same time it is correspondingly reduced. The amplitude of the output pulses is also measured. The ohmmeter is made on two transistors VT2 and VT3, forming a direct current amplifier (DCA) with a high input impedance. Resistors R6 and R7 limit the base current of the transistors, eliminating their saturation mode. Capacitor C4 creates a negative AC feedback circuit. Resistor R8 determines the upper measurement limit. The device is powered by the Krona battery. The schematic of the printed circuit board is shown in Fig. 2.

The device is mounted in a small plastic case, which contains a circuit of a stimulator with an ohmmeter and a probe connected to the case with a four-wire cord from a telephone receiver. The probe contains two electrodes: active and passive, as well as a push-button switch for the type of work. The active electrode is made in the form of a pointed rod with a radius of curvature at the end of 0.3-0.4 mm. The passive electrode should be in the form of a rod or plate. Both styli are made of stainless steel and polished. To use the stimulator, you need to hold the passive electrode with the fingers of your left hand. With the tip of the active electrode, we touch the place of the proposed location of the active point, which should be slightly moistened before that. When this point is found correctly, the LED on the device lights up. Then, by pressing the button on the probe, we switch the device to stimulation mode. To do this, using a potentiometer, the amplitude of the impulses increases in accordance with your sensations. Usually, the most preferred is a regimen in which a slight tingling sensation is felt. This point is stimulated for 15 - 20 seconds. it is undesirable to stimulate many points in one session, as well as points located on the head. The probe uses a KM2-1 switch, which consists of two microswitches. The passive electrode is connected to the probe using a miniature connector used in transistor receivers for connecting telephones.

Literature:

1. E. Savitsky. "Instead of an arrow-LED". "Modelist-Constructor", 1982, 10
2. M. Tsakov. "Electropunctural stimulator", "Radio, television, electronics", 1990, 3

This simple electrostimulator allows you to search for biologically active points (shiatsu or zhen-chiu therapy) on the human body and automatically stimulate them with a weak current of a special form, which will have the same effect as the well-known acupuncture procedure. This method can be successfully used for the prevention and treatment of many diseases at home after consulting a doctor and all his recommendations!

The work of the stimulator is based on the effect that in the place where the active point is located close to the surface of the skin, the resistance of the human body decreases sharply. This can be easily checked even with an ordinary tester, which is turned on to measure the maximum resistance (usually 2 MΩ), if you hold one of its probe in your hand and touch the other with different parts of the body. The resistance of different sections will differ quite noticeably. Thus, the operation of the device is based on the effect of changing the resistance of different parts of the body.

In many different sources, including on the Internet, you can find maps of the location of biologically active points on the human body, however, the exact position of each point for different people may differ slightly, and it can be determined accurately using the simple device proposed here.

Several drawings of maps of acupuncture points on the body

Stimulator schematic diagram

The circuit is a simple pulse generator, the frequency of which is determined by the RC circuit. Here, R is the resistance at a given specific point of the human body. Since the resistance at different points is different, then the generation frequency will also differ noticeably. The lower the resistance of the skin area, the higher the frequency. Therefore, the procedure for finding a biologically active point (BAP) is to search for a point area of ​​the skin, where the LED blinking frequency and the sound of the piezo emitter will become the highest. In this case, one of the electrodes is a metal plate on the body of the device (or the body of the device itself, if it is metal), providing reliable contact with the hand, and the second is a metal pin, by moving it over the skin and looking for BAPs. Power can be from any batteries or accumulators with a voltage of 4.5 to 12 V.

Biostimulator circuit operation

The simplest pulse generator is assembled on a microcircuit. It can be a digital MS of the K561LA7 type (shown in the diagram). It contains 4 NAND elements in one housing. You can apply others, for example, K561LA9, where 2 elements AND-NOT, but with three inputs:

The power of the generated pulses with such a microcircuit will increase. Or others, similar to MS series 561, 174, 164, 155. But you should take into account the possibility of a different pinout and voltage range of the microcircuit. MS with OR-NOT elements are also suitable:

The diode bridge generates pulses of a certain polarity. Its diodes can be any low-power, for example, KD520, 521, 522, etc. The LED indicator is also any, the brightness of its glow can be adjusted by the VR1 trimmer (its resistance cannot be reduced to zero, otherwise the LED may burn out!) Therefore, it is better to choose a constant resistor of the required rating. The piezo emitter can be installed or not. It does not affect the normal operation of the device in any way and is only needed for sound indication of the device operation, if necessary. It can be of types ZP-1, ZP-2, ZP-4, ZP-5 ...

Download the drawing of the board here. The homemade stimulator does not require any adjustment. Connect the power supply and, if all elements are in good working order, it starts working immediately. In the initial state, when the resistance between the electrodes is high, the generator generates nothing. The LED can be on continuously, or not at all. When the probes are touched, generation starts. The LED starts blinking the more often, the lower the resistance between the probes and, therefore, the closer the biologically active point. When hitting directly on the BAP point, the LED blinks at the maximum frequency. When used in a sound emitter circuit, the sound also reaches its maximum frequency. When the probe is held on the BAP, it is stimulated by a pulsed current.

In the special literature and other sources there are recommendations about which pulses of what polarity are best to influence the BAP. As a rule, it is recommended to act with negative impulses. In this case, the second, positive electrode should be held in the hand, or applied to another place (this should be obtained from a doctor). You can add a switch to the device for convenience and use it to change the polarity of the impulses. How to do this is shown in the figure below:

The electrostimulator can be assembled in any suitable plastic or metal case. If the case is metal, then one of the electrodes should be connected to the case. If the case is made of dielectric, then a metal plate or foil should be glued to it, connected to one of the electrodes.

Video about electronic acupuncture stimulator

Below are photos of a possible design of the device, assembled in a small electrical switching box.

Amateur electrical acupuncture devices

The article is addressed mainly to medical radio amateurs (especially neurologists, neurophysiologists, reflexologists), as well as radio amateurs interested in biophysics. Those who are interested in the outlined questions or who are already professionally engaged in electropuncture should make efforts to independently find theoretical and practical manuals on this issue in the scientific literature. The issues discussed in the article are stated in a popular way, although this does not mean that some of the provisions for people with technical (engineering) education will be understandable "at a snap." You may have to be patient and have a couple of "biological" encyclopedia dictionaries. In any case, the approaches of “techies”, such as “tighten the nut - the car is moving, but if it doesn’t tighten it, it’s worth it,” are not acceptable to biological systems. On the other hand, the questions of the circuitry of devices, for sure, will seem "wretchedly simple" to professionals, in fact, like the very description of the operation of the devices.

From the above, it is easy to guess that the author, taking his work seriously, must attend to the doctor's first commandment - "do no harm!" So why then state something about this rather exotic form of therapy?

But, firstly, the work is popularizing and does not at all pretend to be a practical guide for beginners. Secondly. Many medicines are sold in pharmacies (and even over-the-counter), which are both potent and effective for various diseases. But hardly anyone will take them without consulting a doctor ... It could be worse!

I. General Provisions.

The specificity of electropuncture (EP) is not actually something beyond the scope of classical acupuncture (AP), but differs only in the degree of preparedness of the specialist in the field of AP. It is necessary to know the topography of biologically active points (BAP), for which there is an individual segment of length called "Tsun", atlases of BAP topography on the skin of the human body, the system of meridians responsible for certain functional features of the human body, etc. At the same time, there is still no single theory explaining the mechanism of action of acupuncture on the human body from the point of view of the achievements of modern biology.

EP devices usually have the "Search BAP" mode, which somewhat simplifies the finding of these points.

The practical application of BAPs, taking into account the location, direction of action and innervation connections, distinguishes the following groups:

• points of general action, which have a reflex effect on the functional state of the central nervous system;
• segmental points located in the area of ​​skin metameres corresponding to the zone of innervation of certain segments of the spinal cord;
• spinal points located along the vertebral and paravertebral lines, respectively, where the nerve roots exit, and vegetative fibers that innervate certain organs and tissue systems;
• regional points located in the area of ​​projection on the skin of certain internal organs;
• local points, mainly affecting the underlying tissues (muscles, blood vessels, ligaments, joints).

For those who do not possess AP skills, finding points, even having at hand a topographic atlas of BAPs on human skin, is a difficult question, since it is necessary in each case to use the individual proportions of a particular patient. Instrumental determination of the BAP location also requires at least initial knowledge of acupuncture, namely, BAP topography, otherwise the therapeutic effect will be doubtful.

2. Features of electropuncture.

The impact on BAP with electric current is called electropuncture (EP). The search for BAP is carried out by the reduced electrocutaneous resistance (ECR). It should be remembered that the electrical resistance in the BAP area is less than in the surrounding area.

In order to avoid electrical or thermal breakdown of tissues in the BAP area, it is necessary that:

• the voltage was not higher than 9 volts;
• the current density was no more than 10 A / cm;
• the stimulation intensity did not exceed 500 μA.

In the devices under consideration, these principles are fully observed.

Since the irritating effect of the current depends on the amplitude (current strength), voltage, pulse polarity and excitability threshold, the recommendations should be followed:

• impulses of negative polarity have a tonic effect;
• impulses of positive polarity have a sedative effect;
• in the case of using bipolar pulses, the effect will depend on the amplitude and duration of the pulse repetition period;
• performing an EP session, the selected current strength (amplitude) is not necessarily established; are guided by the patient's sensations (tingling sensation, burning sensation), because often the individual sensitivity threshold requires less current and vice versa.

3. Circuitry of amateur electropuncture devices.

An example of a simple and at the same time multifunctional device is a circuit widespread in the late 70s of the last century and corresponding to the above requirements. Assembled on a discrete element base with the use of germanium p-n-p transistors, the device allows you to search for BAPs by a reduced ECS (Fig. 1). The search for a point is carried out using the UPT circuit (T5-T7), the indication is carried out by the LED1 LED and a pointer indicator in the active probe circuit. A generator based on a symmetric multivibrator generates current pulses of different polarity (including diode D1 in the circuit in different directions using switch S2) and duration (paired R4-R6, C1, C2) in automatic mode, and supplementing the circuit with switching common terminals S1.2- S1.4 also bipolar impulses can be obtained. BAP stimulation can also be performed in manual mode (+ or -) by pressing the S3 button. Thus, we can talk about the functional state of the BAP, comparing the magnitude of the current of negative and positive polarity flowing through the BAP. The device uses a sensitive microammeter with an average zero point, which simplifies circuit switching in different modes of operation and facilitates visualization of current disparities of different polarity through a point. The current strength is set by R3. When setting up the device, you should select the sensitivity threshold by changing the R11 value, which is most acceptable from the point of view of searching for points in each specific case.

The device is powered by a 9 V Krona battery, which makes the device absolutely safe.

A somewhat simpler device is a device assembled on widespread silicon n-p-n transistors (Fig. 2). It uses a more common microammeter (without an average zero point), removed the manual stimulation mode for BAP, from a symmetric multivibrator, depending on the position of S1 and S2, you can get:

• positive DC pulses;
• negative DC pulses;
• bipolar impulses (+/-) direct current.

The pulse frequency is regulated by stepwise switching of the selected R4-R13 two-gang S3 to five positions ("Frequency"):

1 - 30 in 1 min. 3 - 3 in 1 min. 5 - 0.8 in 1 min. 2 - 8 in 1 min. 4 - 1.2 in 1 min.

The frequency of unipolar impulses (+ or -) is two times less. The current strength is adjustable from 0 to 100 µA using R1 ("Patient current") (combined with the switch of the S4 device).

Operating modes:

• "Search" - the search for BAP is carried out by the reduced EKS;
• "Bipolar stimulation" (+/-);
• "Stimulation monopolar" (or + or -).

Operation indication - in the "Search" mode the LED3 LED lights up and the microammeter needle is deflected. During stimulation, the microammeter needle deflects when a positive or negative pulse arrives (selected depending on the position of the S1 switch "Positive imp.", "Negative imp."). For clarity of operation of the device in the stimulation mode, instead of R3, R14 in the circuit, you can install chains of an LED and a resistor.

4. Basic principles of work with devices of electropuncture.

Using the last circuit as an example (Fig. 2), let us consider the basic principles of working with a device for searching and stimulating BAP.

After connecting the battery, the "Operating mode" switch knob is set to the "Search" position, and the polarity switch to the "Positive imp." Position.

The device is switched on with the "Patient current" knob. For the convenience of visual control, the "patient current" is set within the middle part of the microammeter scale (30 - 50 μA).

The negative (passive) electrode is connected (attached) to the inner surface of the wrist joint, lower leg, etc. through a wet gauze pad.

The positive (active) electrode searches for BAP in the topographic location of its possible location. If the BAT is found, the LED lights up and the arrow of the electrical measuring device deviates to the right.

Instrumental search for BAPs requires certain skills: ECS depends on the force of pressing the active electrode on the skin, optimization of the contact of the passive electrode with the skin through a damp pad, and so on.

The found BAP is marked on the skin with a felt-tip pen and, leaving the active electrode at this point, the "Mode of operation" switch is switched to the "Stimul.bipolar" position. (or "Stimulus monopolar").

In the position "Stimulus monopolar." polarity of pulses is selected by switch S1 "+" or "-". The same switch switches the measurement of the patient's current strength of the positive or negative part of the pulse in the "Bipolar" mode of operation.

When working in the "Unipolar" mode, you should not change the positions of the active and passive electrodes (+ and -), because this switching occurs automatically when a certain operating mode (type of stimulation) is selected.

5. And finally.

The modern element base makes it possible to use generators based on operational amplifiers in the circuits of devices for carrying out EP. At one time, experiments were carried out with the OU K140UD1B. The principle of constructing such circuits is clear from Fig. 3. The scheme provides not only stimulation of BAP by DC pulses of different polarity (or bipolar), but also reflects the desire to bring their shape closer to the so-called "action potentials". This is achieved by introducing containers in series with each outlet. An indication unit is assembled on the T1 transistor and LED1 LED. It is convenient to control the pulse shape (as well as the frequency and amplitude of the output) when setting up and operating the device using an oscilloscope. The ratings of some elements of the circuit are selected experimentally.

Methods of stimulation of biologically active points (BAP), acupuncture points are widely used for drug-free correction of the state of the body. Certain difficulties, especially in the early stages of using this method, are caused by the process of correct determination of the BAP location on the body.

By now, there are a lot of devices and methods for BAP diagnostics. By controlling the properties of these points, in particular, the resistance to direct current, it is possible to track changes in the state of internal organs, determine the effectiveness of taking medications and carrying out medical procedures, and optimize them. You can observe the dynamics of the disease and recovery with a quantitative assessment of the degree of deviation from the normal state, the rate of return to the normal state.

One of the most reliable and visual methods for diagnosing pathology of internal organs is the method of R. Voll and its modifications.

In accordance with this method, it is assumed that when measuring the electrical resistance of a certain set of BAPs, it is possible to control the change in the state of these organs by indirect data (change in electrical resistance). Each vital organ has its own set of BAPs.

It is believed that in the "normal" state of the body, the electrical resistance between the acupuncture points (BAP) and the common electrode should be within certain acceptable limits. The more the value of the electrical resistance of the controlled point, which is responsible for the state of a certain organ, differs from the permissible value, the more pronounced the pathological process. For example, resistance exceeding the norm corresponds to the development of processes of degradation, aging, extinction of the vital functions of the organism, and a decrease in its tone. Reduced resistance suggests the development of inflammatory processes associated with the acute period of the disease. The admissible values ​​of the resistance of the controlled point for each specific person are purely individual and are determined by his constitution (physique), as well as the electrical conductivity of tissues.

With the help of the devices described below and the development of a certain experience, it is possible to diagnose the condition of people, monitor changes in the state of internal organs during the course of the disease at a quantitative level, and also correct it in a timely manner, controlling the correct choice of a drug, choose the most effective medicine for a particular patient from a list of various medicines ...

In fig. 24.1 shows a diagram of a device with a pointer indicator for the diagnosis of BAP [Rl 11 / 97-30]. The device is made on the K122UD1A (K118UD1A) microcircuit. The internal filling of this microcircuit (amplifier) ​​is shown in Fig. 24.2. Comparison of circuits (Fig. 24.1 and 24.2) shows how much easier the installation of a device can be if it is performed not from individual elements, but on the basis of a microcircuit containing ready-made nodes and elements of a more complex circuit.

A double T-shaped resistive bridge is connected at the input of the differential amplifier (microcircuit). The chains of resistors R1 + R2 and R3 + R4 with an open measuring circuit determine the balancing of the circuit (using R2, the arrow of the measuring device is set to zero). The value of the maximum current (50 ... 100 μA) through the frame of the measuring device is limited by the resistor R6, and through the measuring circuit - by the resistor R5.

Rice. 24.2. Analog of the microcircuit K122UD1

For a diagnostic device (Fig. 24.1), the maximum voltage drop across the measurement object is about 2 V at a current through the measuring circuit of no more than 10 μA. This device can also be used to measure electrical and non-electrical quantities using appropriate sensors (resistance, voltage, temperature, humidity, luminous flux intensity, etc.).

The monitored circuit is connected to the input terminals of the device using the common and search electrodes. The common electrode is made in the form of a stainless steel or aluminum cylinder with a diameter of 15 mm and a length of 60 mm and is clamped in the palm of the person being diagnosed. A search electrode made of wire with a radius of curvature of 0.3 ... 0.4 mm is made of stainless steel, and it is touched with a dosed pressure of a controlled BAP. Measurement of the resistance of each of the BAPs must be carried out at least three times. The entire scale is taken as 100%.

In fig. 24.3 shows a typical diagram of measurements for 12 classical "energy channels" (meridians), indicated by Roman numerals. They correspond to various internal organs: lungs, large intestine, stomach, spleen and pancreas, heart, small intestine, urinary bladder (genitourinary system), kidneys, pericardium.

(vascular system), “triple heater (endocrine system), gall bladder, liver. The specific location of BAPs associated with certain organs can be determined from specialized literature. In addition, in the presence of a pronounced disease, "herald points" can be found independently, empirically.

To control changes in the state of BAP (health status) of a small group of people, it is sufficient to systematically enter the measurement results through controlled channels on a graph (electrical resistance - channel - date), Fig. 24.3. If the measured value exceeds the permissible limits, it indicates the development or presence of a disease.

The device, designed for the simultaneous search and stimulation of BAP, consists of a pulse generator and a power amplifier (Fig. 24.4) [Rl 9 / 91-7]. The pulse generator contains an adjustable time-charging RC circuit (R3 and C4). In parallel to the capacitor C4 of the RC-chain, a multivibrator with transistors VT1 and VT2 (KT315) is connected. These transistors operate in reverse connection (with a different polarity of the supply voltage). The DC bases of the transistors are not connected to other elements of the circuit. The multivibrator is loaded on resistor R4. Capacitors C1 - C3, C5 provide positive feedback; search electrodes are connected in parallel to the capacitor C1. The signal from the multivibrator goes to a power amplifier on a VT3 transistor and is converted into sound by an electrodynamic head (BF1 telephone capsule).

If there is no measuring object (search electrodes are open), the generation frequency of the multivibrator is in the ultrasonic range. When the search electrodes are connected to the human body and the subsequent search for BAPs, the positive feedback circuit of the multivibrator through capacitors C1 - C3 is closed. In this case, the generation frequency sharply decreases due to significant differences from the usual (typical) values ​​of the resistance and capacity of the skin in the vicinity of the BAP. This allows you to confidently identify biologically active points.

If it is necessary to expand the capabilities of the device (to provide exposure to acupuncture points), instead of the telephone capsule, they include a matching (step-up) transformer, and active exposure electrodes are connected to its terminals. The positive feedback circuit (search electrodes) is short-circuited, the signal generated by the multivibrator is amplified by a power amplifier on the VT3 transistor. The generation frequency is varied by changing the resistance R3. The amplitude of the signal can be adjusted by turning on a potentiometer instead of resistor R4. The potentiometer motor is connected to the base of the transistor VT3,

The device can also be used as a universal probe of electrical circuits, to study the dynamics of processes occurring in living organisms, to create combined measuring systems "device - human", as a pulse generator for tuning electronic equipment, etc.

The device for searching or stimulating BAP (Fig. 24.5) is the simplest ohmmeter [Device "Ledia", Latvia]. A pointer device PA1 and current-limiting resistors R2 and R3 are connected in series with the power source. At the same time, the described device can be used to influence BAP, while controlling the current strength. To change the polarity of the voltage applied to the electrodes, switch SA1 is used.

The electroacupuncture stimulator with an ohmmeter (Fig. 24.6), proposed by M. Tsakov and modernized by V. Kozlov, is made on a K561LE5 CMOS microcircuit and a VT1 transistor switch [Rl 10 / 92-24]. With the help of the capacitor C3 and the diode VD4, pulses are formed, the amplitude of which is close to twice the supply voltage. Switching the device from the BAP search mode to the stimulation mode is possible with the SA1 switch. In the search mode, an ohmmeter on transistors VT1 and VT2 (DC amplifier) ​​is connected to the investigated area of ​​the body. When the electrode touches the BAP, the HL1 LED lights up.

Literature: Shustov M.A. Practical Circuitry (Book 1), 2003

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Locating active points on the body

It is useful to divide all biologically active points on the human body into two uneven groups.

1. Special biologically active points, there are seven of them: OT1, OT2, OT3, OT4, OT5, OT6 and OT7.

2. All other biologically active points, tens of thousands of them.

Practice has shown: the first sessions of therapy with stones, minerals and crystals are always associated with the impact on special biologically active points (OT1 - OT7). This allows you to restore the sensitivity of sensory cells at specific points. In esoteric literature there is such a term - "closure of the chakras." In my opinion, it corresponds to the concept of "violation of the sensitivity of the sensory cells of specific points." Their restoration is the first step towards healing the body.

Using Figure 62, the approximate location of the special points is determined.

In Figure 62, the singular points (OT1 - OT7) are designated by numbers: 1, 2, 3, 4, 5, 6 and 7. Four of them are located near the navel. So, point OT1 is two palms lower, point OT2 is one palm lower, point OT3 is one palm higher, point OT4 is two palms above the navel. The OT5 point is located on the neck in the groove, the OT6 point is on the head between the eyebrows, the OT7 point is in the region of the crown.

The exact location of special points on the human body is determined using a pendulum and a system of special questions (method M4).

1. A finger or a felt-tip pen must be installed on the selected point of the body according to the diagram (Fig. 62). For example, we need to determine the exact location of OT3. Place your finger in the center of symmetry of the body, one palm above the navel.

2. Take the pendulum in your other hand and ask the first question: "Is your finger set to point OT3?" If the answer is yes, then the finger has correctly identified the desired point.

3. If the answer to question 2 is no, ask one of four questions:

... "Move up?";

... "Move down?";

... "Move to the right?";

... "Move left?"

4. Depending on which of the four questions received an affirmative answer, move your finger up, down, right or left.

5. After each finger shift, ask the first question again: "Is the finger on the OT3 point?" If the answer is yes, then everything is in order. If negative, then repeat steps 3, 4 and 5 until the answer is “Yes”.

6. Place your finger on the next special point and repeat steps 2, 3, 4, 5.

7. Found on the body special points can be marked with a felt-tip pen, so as not to determine their location every day.

To find the location of all other biologically active points required for a therapy session, a pendulum is used (method M5).

1. Take the pendulum in your hand and determine the part of the body on which the point is located using the following questions:

... "Is the point on the head?" - or briefly: "On the head?";

... "Is the point on the torso?" - or briefly: “On the torso?”;

... "Is the point on the hands?" - or briefly: “On your hands?”;

... "Is the point on the legs?" - or briefly: "On your feet?"

2. According to the positive answer of the pendulum to one of the four questions, you will determine the area of ​​the body where the biologically active point is located. For example, the answer "Yes" was received to the question "Is the point located on the body?" This means that the desired point is on the body - on the front of it or on the back. My practice has shown that all biologically active points with which I worked were located on the front surface of the body. But in general, you need to clarify this with an additional question: "Is the point on the body located in front?"

3. When you have identified the body part on which the biologically active point is located, touch it with the edge of your palm and ask a series of questions. Let's look at the following example. Place the edge of your palm at the level of your navel and ask one of two questions: "Is the point lower?" or "Is the point higher?"

4. If the question: "Is the point below?" - received a positive answer, shift the edge of the palm below the navel (the offset step is arbitrary, for example, 5 centimeters down). If the answer is "Yes" to the question: "Is the point higher?", Move the edge of the palm up.

5. After shifting the palm, ask one of two questions again: "Is the point below?" or "Is the point higher?"

6. Repeat steps 4 and 5 until both questions "Is the point below?" or "Is the point higher?" you will not get negative answers. This will determine the horizontal level for the point. Now you need to find out where on the horizontal level it is located.

7. To do this, instead of your palm, place your finger on the found horizontal level and ask one of the following questions: "Is the point to the right?" or "Is the point to the left?" Depending on the answer received, move your finger to the right or left (the offset step is arbitrary, for example, 5 centimeters).

8. After sliding your finger to the right or left, ask one of the following questions again: "Is the point to the right?" or "Is the point to the left?"

9. Repeat steps 7 and 8 until both questions "Is the point to the right?" and "Point to the left?" you will not get negative answers. This means that the point is located under the finger. This is how the exact location of the biologically active point is determined.

10. You can ask a security question: "Point under your finger?" If the answer is yes, you have correctly identified the location of the biologically active point. If negative, its location should be clarified using the following system of questions:

... "Move up?";

... "Move down?";

... "Move to the right?";

... "Move left?"

11. Depending on which of the four questions you get an affirmative answer, slide your finger up, down, right, or left.

12. After each finger shift, ask the first question again: "What is the point under the finger?"

13. Repeat steps 10, 11 and 12 until all four questions “Move up?”, “Move down?”, “Move right?”, “Move left?” will not receive negative answers or to the question: "Point under your finger?" - the pendulum will answer "Yes".

14. When determining a biologically active point on other parts of the body, follow the steps described in paragraphs 3 to 13.

To find biologically active points (BAP), you can apply the binding method - for example, to special points OT1 - OT7, by asking the following series of questions (method M6).

1. "Is the BAP near specific points?"

2. If the answer is yes, ask the following seven questions:

3. In accordance with the answer "Yes", a list of special points is formed, in the area of ​​which biologically active points necessary for therapy are located. In our example, these are points OT4 and OT5.

4. After identifying the anchor point, determine the BAP offsets from the singular point by asking the following four questions:

... "BAT to the left?" (for example, "No");

... "BAT to the right?" (for example, "Yes");

... "BAT is lower?" (for example, "Yes");

... "BAT higher?" (for example, "No").

Positive answers to the questions determine the direction of the BAP displacement from the singular point. In our example, the BAP is located to the right and below.

5. To determine the value of the BAP displacement from the singular point, ask a series of questions indicating the displacement value, for example, in millimeters. For our example:

... "BAT is 10 mm more to the right?" (for example, "No");

... "BAT is 15 mm to the right?" (for example, "No", but the amplitude of the pendulum's movement increased).

An increase in the amplitude of movement of the pendulum indicates that the displacement of the BAP to the right is less than 15 mm. If its amplitude when answering the second question decreases in comparison with the answer to the first, this indicates that the BAP displacement to the right is greater than 15 mm. By changing the numerical value of the displacement value in the question being asked, you can determine exactly how many millimeters the BAP is displaced from the singular point.

6. By analogy with the actions described in paragraph 5, determine the displacement of the BAP in the direction above the singular point.

Any point of the body can be used as an anchor point for finding the BAP. For example, when determining the location of the BAP on the legs, it can be tied to the hip or knee joint, to the foot. When the BAP is on the hands - to the shoulder, elbow, palm.

Several active points may be required for a therapy session. As practice shows, groups of points of interest for a specific job are located close to each other. When the first biologically active point is determined, the location of the rest can be tied to it (BAP1), taking it as the basic one (method M7). To determine the location of the second BAP, the following four questions are asked:

2. Based on the results of the answers to the questions, the direction of displacement of the second BAP relative to the first is determined.

3. To find out the value of the offset BAT2 from BAT1, ask a system of questions indicating the numerical value of the offset in millimeters, by analogy with paragraph 5 of methodology M6.

4. If a third biologically active point (BAP3) is required for therapy, then its location must be tied to BAP2, and so on for all other points involved in a particular work.

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Working with stones, minerals and crystalsPositioning a vibration source on a biologically active point of the body