RU2152777C1 - Method and device for making arterial dysfunction correction - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves testing acupuncture channels state. Channels are determined that have the most marked influence on arterial blood pressure normalization. Input-output points of the detected channels are exposed to infrared radiation pulses of 780-2500 nm wavelength. Power density is 100-150 mW/cm². Frequency is 15-35 Hz. On/off time ratio is equal to 0.5-0.7. Operation mode is 20-30 s of action, 180-300 s long pause. Device has casing having arterial blood pressure pickup placed inside, control unit, switch unit, infrared radiation generator unit and infrared radiation emitter unit. Arterial blood pressure pickup is designed as plate mountable on finger tip. Infrared radiation emitter is positioned above the input-output point of the corresponding channel. Pressure pickup output is connected with control unit input through recorder unit. Control unit output and infrared radiation generator output are connected with infrared radiation emitter. EFFECT: enhanced effectiveness of treatment in cases not related to any organic changes. 2 cl, 9 dwg, 1 tbl

Description

 The invention relates to medicine, reflexology by exposure to biologically active points (BAP) of channels with modulated electromagnetic radiation of the infrared range with a wavelength of 780-2500 nm (modulated infrared radiation). Through reflexology modulated infrared radiation, various kinds of pathologies that are not associated with organic changes in the body are corrected.

 The proposed method can be used to correct various kinds of arterial dysfunctions of hyper- and hypotension of essential genesis, not associated with organic changes.

 The present invention is also a device that allows using reflexology using the effect on biologically active points (BAP) of channels of the infrared-modulated electromagnetic radiation (IR radiation) modulated by pulses to correct various kinds of arterial dysfunctions that are not associated with organic changes in the body.

 Methods of reflex treatment of various pathologies that are not associated with organic changes in the body, in which the physiological parameter is corrected, are known.

 So, the known correction of blood pressure by the action of needles on the corporal acupuncture points for 20-60 minutes (av. St. USSR N 1827246, class A 61 H 39/00, 1993). For exposure, choose channels (meridians) in which the heat coefficient (asymmetry coefficient between the left and right channels of the same name) during the Akabane test is more than two, and the exposure is carried out on paired disease points of the selected meridians that have a large thermal coefficient until they normalize.

 It is also known (RF application N 92016109/14, A class A 61 H 39/06, 1995, "Inventions", N 21) a device in the form of a clip on the ear, a block diagram of which includes blocks of a pulse sensor, switching control, two generators at fixed frequencies, a timer and two infrared emitters installed opposite the selected auricular points. The sensor unit is made in the form of a pulse-filled blood photosensor-photodetector pair installed on the auricle for recording the number of heartbeats (HR) connected to the input of the control unit, while the input of the switching unit is connected to the outputs of the control unit, pulse generators and timer, and the output of the switching unit connected to infrared emitters. The device implements the “on demand” operating mode and can be programmed for certain operating modes. The device operates in automatic mode on the principle of feedback with a heart rate sensor for pulse blood supply to the earlobe and IR emitters installed opposite the auricular points.

 The objective of the invention is to develop a method that allows non-invasively using reflexology modulated infrared radiation to correct the syndrome of pathological blood pressure, not associated with organic changes in physiological systems that affect the regulation of blood pressure.

 The objective of the proposed device is also the development of a device that allows you to implement the proposed method.

The problem is solved by the fact that the proposed method of arterial dysfunctions that are not associated with organic disorders, including the assessment of the condition of acupuncture channels by the Akabane test and subsequent exposure to corporal acupuncture points, while the Akabane test is carried out in the dynamics of observations at various values of blood pressure, according to mathematical analysis determine the channels with the greatest influence on the normalization of blood pressure and then carry out the impact on the entry-exit points identified to analogs modulated by rectangular pulses of infrared radiation with a wavelength of 780 - 2500 nm with a power density of 100 - 150 mW / cm ² with a constant frequency of 15 - 3 Hz and a duty cycle of 0.5 - 0.7 to normalize blood pressure in the mode of 20 - 30 sec exposure and 180 - 300 seconds - a break.

 It is known that the level of normal systolic and diastolic blood pressure changes with age. However, some people experience pathological deviations from these standards both in the direction of its increase (we are talking about hypertension), and in the direction of its decrease (we are talking about arterial hypotension). Arterial hypertension can be caused by organic changes in the kidney-adrenal system. In this case, we are talking about vasorenal hypertension. Most hypertension is caused by hypertension (GB), the genesis of which is not clear, therefore this disease is still considered essential (of unclear origin). Similarly, the genesis of low blood pressure syndrome, which is usually classified as autonomic vascular dystonia by hypotonic type, is unclear. The treatment of these types of pathology is dedicated to this application.

 A known method of treating hypertension (A.S. N 1827246, class A 61 H 39/00), including the action of needles on the corporal acupuncture points for 20-60 minutes, while the meridians in which the heat coefficient (coefficient asymmetries between the left and right channels of the same name) during the Akabane test for more than 2, and the effect is carried out on paired pain points of the selected meridians, which has a large thermal coefficient until it normalizes.

 The objective of the invention is to develop a method that allows non-invasively using reflexology techniques to correct the syndrome of pathological blood pressure, not associated with organic changes in physiological systems that affect the regulation of blood pressure.

 This goal is achieved by the fact that the proposed method of correction of pathological blood pressure syndrome, not associated with organic changes by assessing the condition of acupuncture channels with the Akabane test and subsequent exposure to corporal acupuncture points, characterized in that the Akabane test is carried out in the dynamics of observation at different values of blood pressure, according to the regression analysis, determine the channel (s) with the greatest influence on the normalization of blood pressure and then carry out exposure to the entry and exit points of these channels with electromagnetic, modulated rectangular pulses, infrared radiation with a wavelength of 780 - 2500 nm with a power density of 100 - 150 mW / cm, with a constant frequency of 15 - 30 Hz and a duty cycle of 0.5 - 0.7 before normalization of blood pressure in the regime of 20 - 30 sec - exposure and 180 - 300 sec - a break.

 The general principle of this treatment is based on data from channel testing results (Akabane test) of more than 200 patients with various types of pathological blood pressure. During mathematical processing of the test results, convincing data were obtained that the level of systolic and diastolic blood pressure, especially with these types of pathology, is subject to significantly significant regulatory influences from certain acupuncture energy channels. So in FIG. 1 shows a matrix of inter-channel regulatory influences is normal, and in FIG. 2 for hypertension with a systolic blood pressure level of more than 160 mm Hg It can be seen from the data presented that with GB there is a mechanism of inter-channel interactions that is fundamentally different from the usual one.

 Thus, some inter-channel correlation connections associated with the occurrence of pathological blood pressure sharply increase in intensity and increase in number, which reliably indicates the participation of certain channels in the formation of this pathology. Thus, acting on these channels in the function of the identified individual and group interchannel dependencies on the level of blood pressure can have a normalizing effect on the blood pressure itself.

 Moreover, in contrast to the known solutions, the effect is on the entry and exit points of acupuncture channels that are interested in blood pressure regulation, which are not chosen by chance. It is known that the more distal the point is located on which the method of reflexology is applied, the more pronounced is the effect of the procedure. In this regard, the entry-exit point from the channel has the maximum therapeutic effect, however, these points are not used in traditional reflexology, since the introduction of a needle into the area of the nail root is extremely painful.

 In the proposed method, the impact on the entry-exit points of the energy channels is carried out by a non-invasive painless method using infrared electromagnetic radiation modulated by rectangular pulses with a wavelength of 780 - 2500 nm / IR radiation /. Such an effect gives a pronounced effect that exceeds the effect of introducing a needle.

 The channel selection strategy and the principle of influence on it are decided taking into account its contribution to the general model of blood pressure regulation, as well as the specific value of the channel energy at the time of exposure. Certain channels for exposure through the entry-exit points are selected individually based on the test results, for example, according to the Akabane / cm test. F.G. Portnov Electropuncture reflexology. Riga, Zinatra, 1983, p. 103 /. Its essence lies in the fact that certain points of each channel are affected by a point heat source, which sends heat pulses, for example, in time with the number of heartbeats. The number of such thermal pulses from the beginning of exposure to biologically active points / BAP / to the occurrence of the first pain sensations depends on the thresholds of BAP perception of this channel and is representative of the energy and functional state of each channel. In the proposed method, the Akabane test is carried out with infrared radiation in tact with a pulse circulation with a frequency of 1 - 2 Hz.

 Patients with pathological blood pressure syndrome are tested in the dynamics of observations with simultaneous registration of systolic (ADS) and diastolic (ADD) blood pressure. In the presence of a dynamic series of synchronous changes in indicators, for example, ADS and the Akabane test, regression analysis with the construction of a regulation model in the form of a formula identifies channels / channel / that have the largest specific contribution to the model of individual regulation of ADS with different signs / contributing to the growth or decrease of ADS /. Then, those channels that, according to the regulation formula, have a normalizing effect on the AMS are exposed to infrared radiation through their entry-exit points until the normalization of the AMS. The methodology for constructing the formula for the ADS regulation model is described in detail in the example.

 The Akabane test and the correction of blood pressure by affecting the calculated points with modulated infrared radiation can be carried out using the Reflexomaster device specially developed for this purpose.

 The proposed method for the correction of pathological blood pressure syndromes can also be implemented using a reflexology device, which contains an element for influencing the BAP in the form of an infrared emitter, a physiological parameter sensor, through a control unit connected to a switching unit, a pulse generator, through a switching unit connected to an element impact on BAP. The physiological parameter sensor is a blood pressure level sensor mounted on a plate located in a body made in the form of a thimble worn on the phalanx of the finger, while the blood pressure sensor is installed on the side of the finger pad, and the infrared emitter is installed in the body so that have an effect in the area of the angle of the root of the nail, and the control unit includes a threshold device that monitors the change in blood pressure beyond a given boundary.

 The fundamental difference between the proposed device and the known one is that it allows you to implement the proposed method, in which they use the action of only the exciting action (at 26 Hz) and excludes the effect of the inhibitory type (at 7 Hz). Another significant difference between the proposed device and the known one is that the sensor is located on the side of the fingertip, and the IR emitter is in the region of the angle of the root of the nail, which allows testing and exposure to be conducted through the same points taking into account changes in blood pressure, depending on the condition of the channel .

 As a blood pressure sensor, a number of devices can be used that can determine the level of blood pressure, being located on the finger, for example, "Apparatus and method for monitoring blood pressure", French application (FR) N 2587610, A 61 B 5/02.

 So with arterial hypertension, in case of exceeding a certain programmed threshold of blood pressure monitored using a pressure sensor / for example 160 mm Hg /, the device produces an effect associated with a decrease in blood pressure. In this case, the IR emitter is installed above the entry-exit point of the channel, the stimulation of which according to the individual model has a lowering ADF effect.

 In case of arterial hypotension, the device is reprogrammed to the lower threshold of operation, installed above the entry-exit point of that channel, the stimulation of which leads to an increase in blood pressure and is included in the exposure mode, for example, when the blood pressure is below 110 mm Hg.

 The effect on the entry and exit points in both cases can be of the same type, by exposure to modulated infrared radiation at a fixed frequency and power. The main factor in the impact is the correct choice of channel with the maximum normalizing regulatory influence.

 As mentioned above, the device operates in an automatic mode according to the feedback principle, implementing the “on demand” mode of operation, that is, only for violations / deviations / from a given level of blood pressure, when its correction is necessary. The latter is achieved due to the fact that in the control unit of the proposed device, blood pressure signals from the pressure sensor are constantly analyzed and only if they deviate from a predetermined norm limit, the control unit turns the device on to normalize blood pressure.

 In FIG. 3 shows a schematic block diagram of the proposed device. The device comprises a housing / 1 /, a physiological parameter sensor (blood pressure level) / 2 /, a control unit / 3 /, a switching unit / 4 /, a pulse generator / 5 /, an element for influencing the BAT / 6 / in the form of an infrared emitter. The housing can be made in the form of a thimble or ring worn on a finger. The physiological parameter sensor / 2 /, taken according to the application, contains a plate with a blood pressure sensor mounted on a fingertip.

 The device operates as follows. The entire phalanx of the finger, where there is an entry / exit point to the corresponding energy channel, is superimposed, made, for example, in the form of a thimble, in which all the blocks are placed. The AD sensor is located on the fingertip, and the infrared emitter is located above the entry-exit point from the channel, which is exposed in the region of the angle of the root of the nail. Information about the level of blood pressure from the pressure sensor (2) is sent to the control unit / 3 /, where they are analyzed and only if they deviate from the set norm with the corresponding deviation of blood pressure, the control unit / 3 / turns on the device in the active exposure mode. The control unit / 3 / as a whole is a programmable threshold device that monitors changes in blood pressure. It can be performed in several variants, for example, as a threshold comparator or microprocessor device, for example, on a Z-80 or 81S51JB processor or their analogs. The control unit / 3 / implements signal tracking in a certain range, while the specific mode of operation and the response point of the device, depending on the level of the ADF, are recorded. At a certain point, when the ADF goes beyond the specified limits, the control unit switches from the observation mode to the exposure mode with the inclusion of an infrared emitter / 6 / into the generator load / 5 /.

 So, for example, in a patient with hypertension, a threshold threshold for the device to be activated can be set at a blood pressure level of 160 mm Hg. If it is exceeded, the command receives a command by which the transition from the monitoring mode to the active exposure mode occurs. In this case, the pulse generator / 5 /, operating at a frequency of 15 - 30 Hz through the switch / 4 /, is connected to the infrared emitter / 6 /, and for a certain time, which can be programmed in the control unit / 3 / individually, for example 15 - 30 seconds, the impact on this BAT. During the break after exposure, the ADS sensor unit is reconnected and, if the ADS is not normalized, the control unit / 3 / authorizes the repeated action, which can be repeated until the ADS is normalized, after which the device again operates in the monitoring mode.

 In case of arterial hypotension syndrome, the lower boundary of the ADS is similarly monitored. The device may have micro-connectors for reprogramming it into other modes. To track along the upper and lower borders of the corridor, norm, for example, with labile arterial pressure, which is observed in the syndrome of autonomic vascular dystonia of a mixed type, two or more devices can be used, each of which is on different channels depending on their sign and level of participation in regulation of blood pressure and controls its portion of the range. The following examples illustrate the invention.

 Example 1. Patient Vish. M.P., 56 years old. Diagnosis: CHD 2 - 3 f.k. Non-penetrating myocardial infarction in 1989. Hypertension 2 tbsp. Complaints about the presence of rises in blood pressure up to 180 - 190 mm Hg with severe headaches. The level of working blood pressure = 140 - 150 mm RT. Art. According to the results of clinical and instrumental studies (isotopic renography, ultrasound, etc.), there is no data for vasorenal arterial hypertension.

 In the dynamics of observation, the patient conducted 30 Akabane tests with simultaneous registration of systolic blood pressure. The data of the regression analysis with the construction of the model are presented in table. 1.

The model has a 45% prediction reliability coefficient (Rsq = 0.45), and its main components, especially Pd (the right channel of the lung) and TRd (the right channel of the triple heater), have a significant (t> 3.0) effect on the regulation of the AMS but with different signs of influence. Fig. 4 shows a general model of regulatory influences, where the observed values and the 95% corridor of predicted values by this formula are displayed. In FIG. Figures 5 and 6 show the components of the influences on the ADF level of the channels of the triple heater and lungs, which have good correlations with the observed values. Moreover, according to the obtained model, the general formula for channel regulation of the level of blood pressure in this patient is:
AMS = 165 + 26Pd- 9VBd - 8Rd - 20TRd
It is interesting to note that all channels that affect this parameter have right-sided lateralization.

 In this model, in order to increase the accuracy and reliability of the model when comparing the test data carried out under various conditions, the principle of analysis of scaled test data indicators was used, which were obtained by dividing specific test indicator values by the arithmetic mean of 24 indicators. Thus, an increase in the level of Pd hypofunction with an increase in its scaled value of more than 1.0 leads to an increase in ADS, and the transition of this channel to a state of hyperfunction at a level of the scaled value less than 1.0 leads to a proportional decrease in the level of ADS. Conversely, an increase in the hypofunction of TRd and, to a lesser extent, VBd and Rd leads to a decrease in blood pressure, and the conversion of these channels to hyperfunction with a decrease in rates less than 1.0 weakens their hypotensive effect. Thus, these channels are a kind of leverage for influencing the level of blood pressure in this range of its investigated values.

 During one of the observations in this patient, an increase in blood pressure to 190/120 mm Hg was noted. with an average heart rate of 71 beats / min. At the same time, severe headache in the back of the head, nausea, and dizziness were noted. The condition is regarded as a hypertensive crisis. To assess the energy state of the channels, the Akabane test was conducted on the Reflexomaster device. An infrared emitter operating in a pulsed mode synchronously with the heart rate was used as a source of heat acting on the entry-exit points from the channels. Moreover, as a quantitative criterion for the energy activity of the channels, the number of energy impulses was recorded before the onset of pain, while the Akabane test (N 1) took place (see Table 2).

 As mentioned earlier, since the general threshold of pain sensitivity during different observations can vary, for example, depending on air temperature and other factors, to compare different observations, it becomes necessary to bring them to the same denominator by scaling, by dividing the values of each channel by the arithmetic mean for each test.

During the initial testing, the total amount of 24 channels was 180, and the arithmetic mean = 7.5. After dividing into it the indicators of all interested channels according to the formula we get
ADS = 165 + 48 - 8.4 - 8.5 - 10.6 = 186 mmHg

 Thus, the calculated according to the formula based on the testing of the AMS did not significantly differ from the observed.

 To stop the hypertensive crisis, we used the method of stimulating effect on the entry / exit point of the lung channel on the right (Pd), which is hypofunctioned by the test, and in its maximum participation coefficient with the + sign, this channel plays a decisive role in the increase in blood pressure. Therefore, translating this channel into a more active energy state with a value close to 1.0, we must thereby reduce the AMS.

 The exposure was carried out by modulated rectangular pulses of infrared radiation with a wavelength of 780 - 2500 nm with a power density of 150 mW / cm with a constant frequency of 29 Hz and a duty cycle of 0.5 - 0.7 in the mode of 20 sec - exposure and 180 sec - a break.

After three exposures of 20 sec each at a power density of 150 mW / cm, with breaks between exposures of 180 sec, there was a decrease in blood pressure to 140 mmHg, due to an increase in the energy of the right lung channel from 14 to 7 units (see data test after exposure). At the same time, the total value of all channels amounted to 183, and the arithmetic average equal to the conditional 1.0 was 7.6 units in terms of the test. Thus, after dividing by indices the indicators of all interested channels when scaling the values, we obtain:
ADS = 165 + 24 - 13 - 9.5 - 18.4 = 148 mmHg

 As a result, it turns out that the calculated values of the ADF coincide with the clinic data. When analyzing the test results before and after exposure, in general, the decrease in the positive contribution from the right lung channel from 48 to 24 units is noteworthy, which led to the main hypotensive effect. At the same time, these values of ADP were stored for more than 6 hours. When conducting periodic exposures, for example, using the claimed device, in this way it is possible to maintain the ADS within specified limits.

 In cases where there is no effect from the effect, a retest should be carried out, and if there is no pronounced hypofunction on the part of Pd, then its stimulation will not produce anything. Therefore, it is necessary to change the treatment tactics and translate into the hypofunction primarily the TRd channels or with less effect according to the obtained VBd or Rd model. Since this effect refers to stimulating type impacts and at the same time energy is subsidized to a low-energy channel, such an effect can be obtained using destructive bonds, which are widely used for indirect channel influence in reflexology practice.

 Thus, a decrease in the energy of TRd can be obtained by enhancing the energy of Vs, VBd through stimulation of Ps and Rd through stimulation of Es. Specific individual interchannel relationships are built on the basis of correlation analysis (a similar analysis is shown in Figs. 1 and 2) according to the results of dynamic testing preceding treatment, which should be continued at a certain frequency (for example, once a day) during treatment. In this case, using the newly obtained data, we periodically must check and correct the previously obtained formulas of channel influences on blood pressure and correlation interchannel matrices. We came to such conclusions in the course of numerous observations, since the therapeutic effect on this system, aimed at its harmonization, leads to a change in the inter-channel relationships and the principles of regulation of physiological parameters. Thus, constantly replenishing the observational data, we can modify the regulation model taking into account the changes taking place in the body.

 Example 2

 Patient K. N.S., 27 years old. Diagnosis: vegetative-vascular dystonia by hypotonic type.

 Complaints about the periodic presence of low blood pressure up to 90/70 mm Hg, accompanied by weakness, dizziness. Typical working pressure is 115/75 mm Hg. The patient in the dynamics of observations conducted 26 tests with simultaneous registration of blood pressure. The data of the regression analysis with the construction of the model are presented in table. 2. The model has 40% reliability of predictions (Rsq = 0.4).

The general model of the observed and predicted reliability values with a 95% corridor is shown in Fig. 7. The two main regulatory components with the + and - signs in the form of channels of the large and small intestines on the left (GIs, IGs) have the greatest influence on the level of ADS. Thus, an increase in the hypofunction of GIs and, to a lesser extent, Vs leads to an increase in blood pressure, while an increase in the hypofunction of Gs and to a lesser extent Vs, on the contrary, reduces the ADS. According to the obtained model, it should be noted that in women, unlike men, the left channels are of primary importance in the regulation of ADS. The formula is:
ADS = 110 + 22Gls + 5Vs - 181Gs - 7Rs
In one of the observations, blood pressure was 90/70 mm Hg. The hypotonic state was accompanied by weakness and dizziness. At the same time, the energy state measurements of 24 main channels in absolute values using the Akabane test according to the method described in the first example had the form N 2 (see table 3).

When scaling the data of the initial testing, the total sum of indicators of 24 channels amounted to 292, so the arithmetic average value equal to the scaled unit was 12.1 in absolute values of the primary test. In this case, the scaled GIs was 0.4; Rs = 3.47; Vs = 1.92; a IGs = 0.66. Substituting these values into the formula obtained earlier and multiplying these values by the corresponding coefficients, we obtain the calculated value of the ADS:
ADS = 110 + 9 - 24 + 9 - 12 = 92 mm Hg
Thus, the calculated data coincide with the observed ones.

 To stop an attack of hypotension, we used the method of stimulating effect on the entry-exit point from the left kidney canal (Rs), since this channel was in the most pronounced hypofunction and its contribution to the decrease in blood pressure was 24 units, as well as on the channel of the triple heater on the right (TRd) .

 In this case, we proceeded from the fact that GIs with an increase in its hypofunction has a maximum contribution to an increase in ADP. To transfer the channel to the indicated state, we used destructive inter-channel communications (G. Luvsan Essays on the methods of oriental reflexology. Novosibirsk, Nauka, 1991, pp. 12-14), when by increasing the energy of the channels of the primary element "FIRE" we achieve a decrease in the energy of the channels of METAL. Taking into account the individual matrix of inter-channel correlations obtained from the results of preliminary tests, in this case, the most pronounced destructive relationships took place between TRd and GIs. Moreover, the reason for this effect was the fact that, according to the initial testing, TRd was in a state of greater hypoenergy with asymmetry between the right and left sides (D> S), and such an effect, taking into account all the canons of reflexology, would also be advisable.

 The impact was carried out synchronously on both channels in accordance with the claimed methodology modulated infrared radiation at a modulation frequency of 15 Hz in the mode of 30 sec - exposure and 300 sec - a break.

After triple exposure with a total duration of 90 seconds at a radiation power density of 100 mW / cm, blood pressure increased to 115/75 mm Hg, mainly due to a decrease in the hypotensive contribution of Rs and GIs (see test after exposure). During the control test, the calculated sum of the values of 24 channels was 275, the arithmetic average of the test = 11.4. Thus, substituting the scaled values for the channels participating in the regulation of the AMS, we obtain its calculated value:
ADS = 110 + 21 - 15 + 10 - 9 = 117 mmHg

 In this case, the calculated values of the ADF coincided with its real values. The effect of exposure lasted for 4 hours.

 To maintain this system, we use a computer support program, which, based on the analysis of current tests, taking into account all the rules of reflexology, gives the patient a specific recommendation indicating the channel on which this effect is necessary. In the case of using the claimed device, the patient only needs to rearrange it from one finger to another, where there is an entry-exit point of this channel. In addition, in the last example, it is advisable to use two declared devices at once. In this case, one of them should be located on the fourth finger of the left foot, and the other on the fourth finger of the right hand.

 With the syndrome of vegetative-vascular dystonia of a mixed type, when blood pressure varies widely from hypotonic to hypertensive crises, it is advisable to use two of the claimed devices at once. In this case, one of the devices configured to operate in the event of a decrease in pressure below certain limits will monitor and level hypotonic crises; and another, configured to operate at high pressure - hypertonic.

 Thus, the claimed device, as well as the technique itself, working on the principles described above, can provide both excitatory and inhibitory effects on any channels involved in the regulation of various physiological parameters and can have more universal, widespread use in all cases where there are indications for reflexology .

Claims (2)

1. A method for correcting arterial dysfunctions not associated with organic disorders, including assessing the condition of acupuncture channels with the Akabane test and subsequent exposure to corporal acupuncture points, characterized in that the Akabane test is carried out in the dynamics of observations at various values of blood pressure, according to mathematical analysis, the channels are determined with the greatest influence on the normalization of blood pressure and then carry out the impact on the entry-exit points of the identified channels modulated square-wave pulses of infrared radiation with a wavelength of 780 - 2500 nm at a power density of 100 - 150 mW / cm ² with a constant frequency of 15 - 35 Hz and a duty cycle of 0.5 - 0.7 to normalize blood pressure in the mode of 20 - 30 s - exposure and 180 - 300 s - a break.  2. A device for reflexology containing an influence element on the BAP in the form of an IR emitter, a physiological parameter sensor, through a control unit connected to the switching unit, a pulse generator, through a switching unit connected to the influence element on the BAT, characterized in that the physiological parameter sensor represents a blood pressure level sensor mounted on a plate located in a body made in the form of a thimble worn on the phalanx of the finger, while the blood pressure sensor anovlen by the fingertip, and infrared emitter mounted in the housing so that the impact angle in the root of the nail, wherein the control unit includes a threshold device that monitors blood pressure change for a given boundary.

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