RU2041721C1 - Method for carrying out psychophysiologic autoregulation and stimulation device - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves inducing in patient the state of controlled trance by means of ideomotor movements and, when there are difficulties in performing ideomotor movements, lowering the cortical response level by performing active physical training exercises with alternate tension and relaxation of different muscular groups, gradually reducing the volume of movements performed, reducing rhythm and intensity of muscular effort starting making repeated monotonous flabby movements followed by self-excited oscillations of the corpus. Beside that, massage, manual therapy, reflexogenic therapy, thermal pulsation techniques are applied and surface temperature in right and left halves of the turbinated bone is measured. Heat treatment is additionally applied to the warmer turbinated bone surface in case of patients with hypertensive tendencies. The heat treatment is applied to the cooler turbinated bone surface in case of hypotensive tendency patients. The device to do it has heating unit, temperature measurement unit. Temperature gages are engageable with any of the turbinated bone surfaces. Temperature measurement unit output is connected to amplifying unit input, which output is connected to commutation and interlocking unit input which output is connected to heating unit through heating control unit. The heating unit makes contact with the surface of any of the turbinated bones. EFFECT: enhanced effectiveness in controlling psychophysiologic regulation processes. 12 cl, 2 dwg

Description

 The invention relates to medicine, namely to psychiatry, psychotherapy and psychophysiology.

 To improve the mental and physical capabilities of a person, various methods of self-regulation have been developed, which allow to develop the ability to consciously control their functional state and maintain the necessary level of performance.

 One of these methods is the method of autogenic training, which was created in 1932 by the German psychotherapist I. Schulz. This method is a combination in one technique of various self-actions of self-hypnosis, muscle relaxation and elements of the yoga system. In essence, the method is a self-action on the mental and physical state of the body, based on maximum muscle relaxation, combined with self-hypnosis (Linderman H. Autogenic training. M. 1985).

 However, to achieve the effect of self-regulation with the help of an autogenic training, it takes a long time, it is tedious and requires regular work on oneself and a certain persistence. In addition, it is limited by muscle relaxation, therefore, it does not allow to simulate various activities with a repeated component.

 The most promising today is the method of controlled psychophysiological self-regulation, developed and described by Kh.M. Aliyev. This method also uses psychotherapy, but the methods of suggesting or self-suggesting a psychological setting are carried out in an autogenous state of a controlled trance, which, in contrast to an autogenic training, is induced without traditional muscle relaxation and an immobile posture, which significantly expands the possibilities of self-regulation and increases the implementation of installation programs in a patient, including programs for the implementation of various activities with a motor component.

The author has proposed an original technique for inducing a controlled state of trance in a patient, which is based on the performance of individually selected ideomotor movements caused by the sought-for state automatically-reflexively. The technique turned out to be so effective that, having mastered it, the patient acquires the ability to independently induce a controlled state of trance at any desired time and, through it, realize the desired installation program, i.e. improve your mental and physical health [1]
Thus, in comparison with autogenic training, the method of Kh.M. Aliyev allows you to master self-regulation in a short period of time with a minimum expenditure of effort. In addition, it allows, in contrast to relaxation immobility, to use the method of self-regulation in any position (standing, lying, sitting, walking, running, performing physical exercises, learning dance movements, etc.), at any time when a person considers it is necessary, and thereby increase the effectiveness of any training, training or treatment and adapt to the stressful and extreme situations of modern life.

 However, during the work it was noted that not all patients have ideomotor movements that are easily realized, and accordingly, in these cases it is difficult and not always possible to obtain a trance state.

 The aim of the invention is to develop additional techniques that facilitate the induction of a patient in a state of trance and, accordingly, increase the effectiveness of the method of self-regulation.

 To achieve the goal, the reasons were analyzed when ideomotor movements were not obtained and it was revealed that the most common cause is the patient’s high level of cortical response, associated with nervous tension or other uncomfortable conditions of the body (for example, psychosomatic disorders, etc.) which interfere with performing movements in an ideomotor way and cause a state of trance. This is because increased muscle tone or other stimuli cause excitation of the corresponding cortical parts of the brain, and to perform ideomotor movements it is necessary to remove the excitation and transfer the brain to a quiet cortical response mode.

 To achieve relaxation, you must first achieve a pronounced tension of the maximum number of muscle groups. Using this pattern, in order to achieve the goal, before starting the procedure for performing ideomotor movements, the patient is offered to perform active physical exercises with alternating tension and relaxation of various muscle groups and gradually switch to uniform, sluggish, oscillatory movements of the body.

 Typically, these techniques in most cases reduce the level of cortical response, which greatly facilitates the solution of the task.

 In cases when it is not possible to obtain the necessary condition with the help of physical exercises, it is recommended to additionally massage the collar zone or to carry out the methods of differentiated reflex or manual therapy, or the procedure of "thermopulsation" according to V.A. Lichtenstein, or the procedure of differentiated thermal effect on the right or the left half of the surface of the turbinate using the proposed device.

 The method is as follows.

 The patient is offered to perform ideomotor movements, for example, with the help of the hands, and if the hands are not included in this movement, he is offered to perform active physical exercises associated with the muscular effort of various muscle groups to reduce the level of cortical response. Gradually, within 1-8 minutes, they reduce the range of movements, choosing those that are performed with pleasure and with minimal effort and thereby reduce the rhythm and strength of muscle efforts, continue to perform uniform, languid movements and go on to oscillatory movements of the body, after which again produce ideomotor movements.

 If the indicated technique was not effective enough, an additional massage of the collar zone and muscle groups in which the patient feels tension is performed.

 In cases of an unstable level of blood pressure, with a tendency to increase it, a reflexotherapy effect is applied by inhibition on the active points shown in the treatment of hypertensive conditions (for example, symmetric paired points of Qu-chi, Zu-san-li), and with reduced values of the level of arterial blood pressure by toning to the points shown for hypotensive states (for example, to the symmetrical points of Nei-Guan).

 In order to achieve a more pronounced removal of the level of cortical response, the thermopulsation procedure is additionally performed according to V.A. Lichtenstein by heat exposure in the nasolabial receptor in the patient's breathing rhythm. In patients with osteochondrosis carry out manual impact on the corresponding spine.

 In addition, in patients with hypertensive tendencies, they exert a thermal effect on the warmer half of the surface of the nasal concha, and in patients with hypotonic tendencies on the cooler half using the proposed device for about 1-15 minutes, preferably 3-5 minutes.

 After creating the necessary level of cortical response, a sign of which may be self-oscillating swaying of the body, the patient stretches his arms in front of him and holds them without tension. At the same time, they inspire him (or offer to impress himself) that his hands tend to move apart, and recommend that the patient does not interfere with this movement. But, if the hands "went", it can be observed that already this ideomotor movement of the hands can cause a state of trance in the patient. To deepen the achieved state, verbally form an image that the hands begin to converge, attracted to each other. Self-oscillatory movements of the body forward and backward, i.e. use the whole procedure of psychotherapy, especially that part of it, in which the patient has reactions to increase suggestibility. Additional emotional reinforcement allows you to include a holistic reaction of the brain to transition into a state of controlled trance.

 When the patient has entered a trance state, they are told that when the movements are repeated, he can bring about this state himself without the help of a doctor by just turning on the video-motor reaction, and then without it.

 Upon entering a trance state, the patient thinks through and draws up the installation program of the expected internal change or the receipt of a certain mental or physical phenomenon. The installation program is implemented in a state of trance reflexively-automatically, similar to the implementation of hypnotic suggestions.

 A variant of this method, including thermal exposure to the surface of a particular turbinate of the patient, can be carried out using the second invention of a device for stimulation.

 A device for stimulation, including a heating unit, a temperature measuring unit containing temperature sensors [2], a Heating unit is connected to an electrical stimulator. However, this device does not allow the following effect to be achieved by means of differentiated thermal effects on the surface of the nasal concha: reduce the level of cortical response, as well as lower the initially elevated level of arterial blood pressure or increase the initially decreased level of arterial blood pressure, lower the initially elevated level of psychological stress and, in addition, affect the blood supply to the brain, which would contribute to the implementation of self-regulation according to the proposed method .

 The task was to create such a device that would allow the implementation of the above effects and thereby facilitate self-regulation according to the proposed method in patients with hyper- or hypotonic tendencies, and also would relieve headache, for example, with vegetative-vascular dystonia, improve night sleep, would allow the treatment of diseases associated with impaired hemodynamics.

 This problem was solved by the fact that the proposed device for stimulation, including a heating unit, a temperature measuring unit containing temperature sensors, in which temperature sensors are configured to contact the surface of each of the two turbinates, the output of the temperature measuring unit is connected to the input of the amplification unit, the output of which is connected to the input of the switching and blocking unit, the output of the latter is connected to the heating unit via the heating adjustment unit, and the heating unit is made with the possibility of contact with the surface of each Doy from two nasal concha.

 The temperature measuring unit and the heating unit can be made in the form of two bipolar transistors, while the collectors or emitters of each of the transistors are configured to contact the surface of the turbinate, the emitters or collectors are connected to the input of the amplification unit, and the output of the heating adjustment unit is connected to the bases of the transistors .

 The heating unit can be made in the form of a micro-heating pad or an infrared emitter or an air dryer or a water heater or a laser heater or electrodes installed with the possibility of supplying voltage pulses to them.

 The temperature measuring unit is necessary in order to determine which surface of the two turbinates should be heated. In individuals with hypertensive tendencies, they exert a thermal effect on the surface of a warmer nasal concha, and in individuals with hypotonic tendencies, a colder one. Therefore, the temperature measuring unit includes at least two sensors configured to contact the surface of each of the two turbinates. The temperature measuring unit may contain several sensors, while some of them are installed with the possibility of contact with the surface of one of the two turbinates, and the other part with the other. As temperature sensors, for example, conventional thermocouples can be used. Conventional bipolar transistors can be used as temperature sensors, the current through which depends on temperature with a constant potential difference between the electrodes. An amplification unit is needed to amplify the signals supplied by the sensor.

 The switching and blocking unit is necessary for communication of the amplification unit with the heating control unit, other units, as well as for controlling the operation mode of the heating unit.

 The heating adjustment unit is necessary to set the intensity of heating the surface of a particular turbinate.

 The heating unit can be made, in particular, in the form of two bipolar transistors. In this case, the system of two such transistors performs the function of both a heating unit and a temperature measuring unit.

 The heating unit can also be made in the form of a micro-heating pad. Moreover, this unit contains resistors (at least two resistors), which are the heating element.

 The heating unit can also be made in the form of an infrared emitter. As infrared emitters can be used serial emitters of a fairly small size.

 The heating unit can be made in the form of an air dryer. In this case, the heating element resistor heats the air flow, which is sent to the surface of the turbinate through one of the two tubes.

 If the heating unit is made in the form of a water heater, the resistor heating element first heats the water, and it already heats the surface of the turbinate. Such a heating element has a higher "inertia" than others.

 In the event that the heating unit is made in the form of a laser heater, a stream of low-power laser radiation is supplied to the heated surface of the turbinate.

 The heating unit can also be made in the form of electrodes installed with the possibility of supplying voltage pulses to them (pulse heater).

 In FIG. 1 shows the proposed device.

 The device comprises a unit 1 for measuring temperature and heating, comprising transistors 2 and 3 mounted in a clip. The output of unit 1 is connected to the input of the amplification unit having a two-channel precision amplifier 4 and differential amplifier 5. The output of the amplification unit is connected to the input of the switching and blocking unit 6, the output of which is connected to the heating adjustment unit 7. The output of block 6 is connected to the input of block 8 of the display. The output of block 7 is connected to block 1. The device also contains switches 9 and 10, resistors 11-13.

 In FIG. 2 shows an embodiment of the device in which the heating unit and the sensors of the temperature measuring unit are separate structural elements. In this case, the device comprises temperature sensors 14, heaters 15 of the heating unit (resistors, microelectric heating pads, and others) and a power supply unit 16.

 The device operates as follows.

 Block 1 is fixed on the surface of the patient’s nasal concha so that the working surfaces of the measuring and heating elements (transistors 2 and 3 of block 1) are in contact with the active areas of the skin. Preliminary fixation of block 1 is carried out using a nasal retainer included in the block structure (not shown in the drawing). The instrument kit may also include a soft-tissue hoop on the patient’s head with Velcro fastening on which the ferromagnetic plate is fixed (in this case, the final fixation of the film block is carried out due to the magnetic attraction between the ferromagnetic plate and the magnet mounted on the block bracket). After installing unit 1, the device is transferred to the mode of measuring the temperature difference between the left and right surfaces of the nasal concha of the patient. To work in this mode, switch 9 is set to the middle position and the voltage (+12 V) from the power source through the relatively high resistance (≈ 5 kΩ) resistors 11 and 12 is supplied to transistors 2 and 3. In this case, transistors 2 and 3 work as temperature sensors.

If the surface temperatures of the left and right turbinate are equal, the same currents flow through transistors 2 and 3 (I ₁ I ₂ ). Since the emitters of both transistors are connected to the inputs of a two-channel precision amplifier 4, some of these currents, amplified by the identical amplifiers of block 4, go to the inverting and non-inverting inputs of the differential amplifier 5. As a result, the voltage at the output of the latter becomes zero (since it is proportional to the difference I ₁ I ₂ ) and the arrow of the bipolar measuring device of the display unit 8 is installed in the middle of the scale.

If there is a temperature difference between the surfaces of the left and right nasal turbinates, the equality of the currents through the transistors 2 and 3 is violated, the imbalance signal, amplifying in blocks 4 and 5, enters the display unit 8. The arrow of the measuring device begins to deviate to the left or right of the middle of the scale, depending on which surface temperature of which of the two turbinates is higher. This deviation Δ t is observed until it reaches a certain value Δ t _p specified in block 6. At Δ t Δ t _{p, the} arrow of the measuring device returns to its original position using block 6 and block 8 turns on a light signal indicating achievement Δ t of the threshold value Δt _p , which indicates to the doctor the need for an appropriate decision.

 Then, the switch 9 switches to one of the extreme positions depending on which surface of which turbinate should be heated. In this case, the voltage (+12 V) of the power source through a low-resistance resistor 13 (≈ 10 Ω) is supplied to one of the transistors 2 or 3. The transistor switches to a mode close to saturation and begins to heat up.

 As a rule, the surface of a warmer nasal conch is heated in individuals with hypertensive tendencies or colder in individuals with hypotonic tendencies.

 By changing the voltage on the basis of the corresponding transistor using block 7, it is possible to adjust the current through it, i.e. to carry out normalized heating of the surface of the corresponding nasal concha. Block 7 is put into operation using the switch 10 through block 6.

 As blocks 4 and 5, standard amplifiers or microcircuits designed to perform such a function can be used. As block 6 can also be used commercially available block, for example, any programmable controller. As block 8, a pointer meter can be used in combination with an LED. Block 7 with the simplest design or a variable resistor that can be connected with a key to either one or a second heater or heaters (located on the surfaces of different turbinates) or two variable resistors, each of which is connected to a separate heater.

 The device can be used both for the implementation of the claimed method, and independently to normalize the functional state of a person, improve their well-being by normalizing blood pressure, reducing neuropsychic stress, as well as treating vegetative-vascular dystonia, sleep disturbances, neurosis and psychosomatic diseases.

PRI me R. Patient P., 37 years old, turned to the Center with a request to teach him the method of self-regulation for an arbitrary reduction in pain sensitivity due to frequent headaches (hereditary migraine). In the lesson on mastering the indicated method, at first it was not possible to obtain an ideomotor realization of the movement of neither arms, nor head, nor body, nor legs. Therefore, the patient was asked to perform active physical exercises to a state of light fatigue, after which it was recommended to gradually reduce the volume and rhythm of the performed movements and switch to oscillatory movements of the body. Despite the physical exercises, ideomotor movements were not realized again and the initial level of cortical response in the patient remained high. At the same time, an elevated level of blood pressure of 165/90 mm Hg was noted. In order to normalize the condition of the patient further determination is made of the surface temperature of the right and left nasal cavities, which was 34.9 ^C. right, left 34.5 ^{° C,} and fired heating to 35.4 ^{° C} the surface of the right turbinate using the proposed device.

 After carrying out the indicated procedures, the hands “went” and the ideomotor movements of the body, hands, fingers were selected, which made it possible to obtain and deepen the state of the trance.

 In the following classes, the patient fixed a course of action to obtain a trance state and subsequently implemented a program to reduce pain sensitivity at a certain specified time, and the program was based on a figurative representation from his life experience, when the anesthesia of the bruised place was caused by chloroethyl.

 Thus, the present invention allows to facilitate the induction in a patient of a state of controlled trance and, accordingly, increase the effectiveness of the method of self-regulation.

Claims (12)

 1. A method of controlled psychophysiological self-regulation, including inducing a patient with ideomotor movements of a state of controlled trance, in cases of difficulty in performing ideomotor movements of massage, manual therapy, reflexotherapy and thermopulsation according to V. A. Lichtenstein, followed by hetero or autosuggestion and exit this condition, characterized in that it first reduces the level of cortical response by performing active physical exercises with alternating m tension and relaxation of various muscle groups, gradually reduce the volume of movements performed, reduce the rhythm and strength of muscle efforts, proceed to perform uniform flaccid movements until self-oscillating movements of the body.  2. The method according to claim 1, characterized in that they massage the collar zone and muscle groups in which the patient feels increased tension.  3. The method according to p. 1, characterized in that the reflexology is carried out differentially, while in patients with hypertensive tendencies they act on the symmetrical paired points of ZU-SAN-LI and QUI-CHI, and in patients with hypotonic tendencies on the symmetric points of NEU-GUAN .  4. The method according to p. 1, characterized in that if it is difficult to perform ideomotor movements, the surface temperature of the right and left halves of the nasal concha is additionally measured and, in patients with hypertensive tendencies, a thermal effect on the warmer half is performed, and in patients with hypotonic tendencies, more cold half of the nasal concha.  5. A device for stimulation, including a heating unit, a temperature measuring unit containing temperature sensors, characterized in that the temperature sensors are configured to contact the surface of each of the two turbinates, the output of the temperature measuring unit is connected to the input of the amplification unit, the output of which is connected to the input of the switching and locking unit, the output of the latter is connected to the heating unit through the heating adjustment unit, the heating unit being made with the possibility of contact with the surface of each of the two nasal sinks.  6. The device according to claim 6, characterized in that the temperature measuring unit and the heating unit are made in the form of two bipolar transistors, while the collectors or emitters of each of the transistors are made with the possibility of contact with the surface of the turbinates, emitters or collectors are connected to the input of the amplification unit , and the input of the heating control unit is connected to the bases of transistors.  7. The device according to p. 6, characterized in that the heating unit is made in the form of a microelectro burner.  8. The device according to p. 6, characterized in that the heating unit is made in the form of an infrared emitter.  9. The device according to p. 6, characterized in that the heating unit is made in the form of an air dryer.  10. The device according to p. 6, characterized in that the heating unit is made in the form of a water heater.  11. The device according to p. 6, characterized in that the heating unit is made in the form of a laser heater.  12. The device according to p. 6, characterized in that the heating unit is made in the form of electrodes installed with the possibility of supplying voltage pulses to them.

Images