RU2217182C2 - Method and device for adjusting functional state of human organism - Google Patents

Abstract

FIELD: medicine; medical engineering. SUBSTANCE: method involves applying pulsating luminous radiation variable in frequency and amplitude corresponding to pulse. The action is applied to each eye laterally using luminous radiation blinking at 0.15-0.6 Hz frequency. The luminous radiation is modulated with pulsating signals of 2-12 Hz frequency having patient pulse way pattern at maximum amplitude value of 5-6 lx and succession period being 1.25 times as long as pulsating signal duration. The treatment is applied 2-4 times a day for 10-15 min daily during 10-14 days. The device has controllable functional transducer connected to light sources. The light sources are mounted in a housing designed as a half-mask manufactured from impermeable material. EFFECT: enhanced effectiveness of physiotherapy to repair brain operation and making psychophysical corrections in depression, stress, fatigue states. 16 cl, 8 dwg

Description

 The invention relates to medicine, namely to physiotherapy, and can be used to increase a person’s working capacity, reduce his fatigue, as well as for psycho-emotional and physiological correction.

 A known method of improving visual functions, including the physiotherapeutic effect of pulsed light radiation and a device for its implementation, comprising a signal generating unit connected to a pulsed light source that can be used to correct a person’s functional state (RF patent 2071301, MKI A 61 F 9 / 00, 1995).

 However, the known method of improving visual functions and a device for its implementation do not allow an effective physiotherapeutic effect on the human body, since they do not have feedback on the physiological parameters of the patient, which would allow to take into account both its functional features and its condition at the time of the therapeutic effect .

 Closest to the proposed technical essence and the achieved result to the claimed method and selected as a prototype is a method of correcting a person’s functional state, including physiotherapeutic exposure to pulsed light radiation that varies in frequency and amplitude in accordance with the pulse parameters (RF patent 2127135, MKI A 61 N 5/06, 1994 - prototype).

 To implement this method, a device can be used, including a housing, light sources installed in it, connected to a controlled functional converter (RF patent 2108123, MKI A 61 N 5/06, 1997 - prototype).

 However, the known method and the device do not allow lateral exposure by pulses of light to the eyeball, which does not allow for the effective restoration of normal brain function and psychophysiological correction of human conditions in depression, diseases, stresses, fatigue.

 The objective of the present invention is to restore normal brain function, the implementation of an effective psychophysiological correction of human conditions in depression, diseases, stress, fatigue.

 The technical result of the invention is the restoration of the brain and the psychophysiological correction of human conditions in depression, diseases, stress, fatigue by achieving deep relaxation and restoration of the craniosacral rhythm and biorhythms α, β, γ, ... of the brain.

 This task is achieved by the fact that in the method of correcting the functional state of a person, including the physiotherapeutic effect of pulsed light radiation, varying in frequency and amplitude in accordance with the parameters of the pulse, the effect is carried out alternately on each eye sideways with light radiation flashing with a frequency of 0.15-0, 6 Hz, and the light radiation is modulated by pulsed signals that have a frequency of 2-12 Hz and the shape of the patient’s pulse wave with a maximum amplitude of 5-6 lux, and their period is followed I have 1.25 times longer than the duration of the pulse signal, the impact is carried out 2-4 times a day for 10-15 minutes daily for 10-14 days.

 Light exposure is carried out in the range of 400-800 nm, and the duration of the pulse signal modulating light radiation is 3-5 times longer than the duration of the pulse wave.

 Pulses of light radiation can be additionally modulated by pulses having a frequency of 100-1000 Hz.

To implement the proposed method in a known device for correcting the functional state of a person, including a housing, light sources installed in it, connected to a controlled functional converter, the housing is a half mask containing four plates of opaque material, connected in pairs along the edges to form a closed cavity while the plates located on the inner side of the half mask have holes, the axes of which are inclined at an angle of 10-45 ^o to the perpendicular, restores mounted in the center of the plate, and the light sources are installed in the upper part of the closed cavity along its lateral sides with the possibility of transmitting the light flux through the holes, and the controlled functional converter includes a pulse generator block, a control unit, a switch, a pulse wave sensor, a signal converter and a pulse generating unit .

 Moreover, in a controlled functional converter, the output of the pulse generator unit is connected to the input of the control unit, the first output of which is connected to the control input of the switch, the pulse wave sensor, the signal converter, and the pulse forming unit are connected in series, and the second input of the pulse forming unit is connected to the second output of the control unit , and its output is connected via a switch to light sources.

 In addition, a sound source connected through a shaper of a sound signal to the third output of the control unit and a unit of sensors of physiological parameters, the outputs of which are connected to the second input of the control unit, can be included in the controlled functional converter.

 The light sources can be equipped with a light-shielding casing from the side of the holes, while the light reflectors are installed with the possibility of transmitting light radiation from light sources through the holes of the plates.

 Holographic modules can be installed on the outside of the plates located on the inside of the half mask, the latter being removable and the reflectors being made in the form of a hologram. Holographic modules and holograms make it possible to provide an additional specific psychophysiological effect, which helps to increase the efficiency of correction of the patient’s functional state.

 The holes in the plates in a particular case can be in the form of a longitudinal slit and can be equipped with elements for correcting the direction of the light flux.

In another embodiment, in a device for correcting a person’s functional state, comprising a housing, light sources installed therein connected to a controlled functional converter, the housing is a half mask, the front side of which contains two wide opaque plates connected to each other at the edges to form a closed cavity, wherein the plate located on the inside of the half mask has openings whose axes are inclined at an angle of 10-45 ^o to the perpendicular restored in the center, respectively the right and left halves of this plate, and light sources are installed in the upper part of the closed cavity between the plates with the possibility of transmitting light flux through the holes, and the controlled functional converter includes a pulse generator unit, a control unit, a switch, a pulse wave sensor, a signal converter, and a signal generating unit pulses.

 In this case, the light sources and openings in the plate can be located on both sides of the central axis or from the sides of the half mask, the openings being in the form of a longitudinal slit and equipped with elements for correcting the direction of the light flux.

In the third embodiment, in a device for correcting the functional state of a person, including a housing, light sources installed in it, connected to a controlled functional converter, the housing is a half mask, the front side of which is made in the form of an opaque plate screen with two holes, the axes of which are inclined at an angle of 10 -45 ^o to the perpendicular restored in the center, respectively, of the right or left halves of this screen, and light sources are installed in the upper part of the screen with its outer side They are capable of transmitting the light flux through the holes and are equipped with a protective casing, and the controlled functional converter includes a pulse generator unit, a control unit, a switch, a pulse wave sensor, a signal converter, and a pulse generating unit.

 In this case, the light sources and openings can be located on both sides of the central axis or from the sides of the screen, the openings being in the form of a longitudinal slit and provided with elements for correcting the direction of the light flux.

 Studies on patent and scientific and technical information sources have shown that the proposed method and devices for its implementation are unknown and do not follow explicitly from the studied prior art, i.e. meets the criteria of "novelty" and "inventive step".

 The proposed method and device for its implementation can be applied both in any medical institution and directly in industrial and home conditions, because they are simple and convenient to use.

 Thus, the claimed method and device for its implementation are available, and therefore, practically applicable.

 The proposed method for correcting the functional state of a person is based on the fact that upon lateral exposure to the retina of each eye alternately with pulsed light radiation, we impose normal craniosacral rhythm, as well as α, β, γ, ...- rhythms of the brain, performing directed action alternately to one of the cerebral hemispheres and at the same time getting a deep degree of relaxation.

 Thus, a set of features is proposed that allows for high efficiency of restoration of normal brain function and psychophysiological correction of human conditions in depression, diseases, stress, fatigue.

 In FIG. 1 shows a device for correcting the functional state of a person (1st option), made in accordance with paragraph 5 of the claims. In FIG. 2 shows a half mask made according to claim 5 of the claims, view A. FIG. 3 shows a device for correcting a person’s functional state (option 2) made according to claim 13. Figure 4 shows a half mask (2nd option), made according to paragraph 13 of the claims, section AA. In FIG. 5 shows a device for correcting the functional state of a person (3rd option), made in accordance with paragraph 15 of the claims. In FIG. 6 shows a half mask (3rd option), made according to paragraph 15 of the claims, section B-B. In Fig.7 shows a half mask (3rd option), made according to paragraph 15 of the claims, section CC. On Fig presents an example of signals at the output of a controlled functional Converter.

 The device for correcting the functional state of a person according to the first embodiment comprises a controlled functional converter 1, including a pulse generator unit 2, the outputs of which are connected to the inputs of the control unit 3, the first output of which is connected to the control input of the switch 4, a pulse wave sensor 5, a signal converter 6, and a block 7 pulse formation, connected in series, block 8 of the physiological parameters sensors, the output of which is connected to the second input of the control unit 3 (figure 1).

The outputs of the switch 4 are connected to light sources 9, 10, which are installed in a housing made in the form of a half mask 11. The half mask 11 contains plates 12, 13, 14 and 15 made of opaque material and connected in pairs at the edges to form a closed cavity between them. On the sides of the closed cavities formed by the plates 12, 13 and the plates 14, 15, light sources 9, 10 and light reflectors 16, 17 are installed. The plates 13 and 15 located on the inner side of the half mask are provided with holes 18 and 19, the axes of which are inclined at an angle γ = 10-45 ^o to the perpendicular restored in the center of the corresponding plate 13 or 15 from their outer side, and the reflectors 16, 17 are light installed with the possibility of transmitting light radiation from light sources through the hole 18 or 19 (Fig. 1, 2). Each of the light sources 9, 10 can be equipped with a dimmer and a protective casing (not shown in FIG. 1). The latter exclude direct light from entering holes 18 and 19.

 A sound source 20 may be included in the device for correcting the functional state of a person, connected through a shaper 21 of the sound signal to the control unit 3.

The device for correcting the functional state of a person according to the second embodiment (Figs. 3, 4) comprises a controlled functional converter 1, which can be made in the same way as in the first embodiment of the device, a half mask 11, the front side of which is made of two wide opaque plates 22 , 23, interconnected along the edges with the formation of a closed cavity between them, while the wide opaque plate 22 located on the inside of the half mask is provided with holes 24 and 25, the axes of which are inclined od angle γ = 10-45 ^o to the perpendicular, respectively restored in the center of the right and left halves of the plate, and the springs 9, 10 light installed at the top of the closed cavity between the wide opaque plate capable of transmitting the light flux through the holes.

A device for correcting the functional state of a person according to the third embodiment (FIGS. 5, 6, 7) comprises a controlled functional converter 1, which can be made in the same way as in the first embodiment of the proposed device, a half mask 11, the front side of which is made in the form of an opaque plate screen 26 with two holes 27 and 28, the axes of which are inclined at an angle of 10-45 ^o to the perpendicular restored in the center of the right and left halves of this screen, respectively, with light sources installed in the upper part of crane from its outer side with the possibility of transmitting light flux through the holes and equipped with a protective casing 29 (Fig.7).

 A device for correcting the functional state of a person works as follows.

 Block 2 of the pulse generators generates the pulses necessary for the formation of pulsed light radiation, and transmits them to the control unit 3, with the help of which the necessary frequency of light radiation, its pulse modulation parameters, light emission blink frequency, as well as sound signal parameters and switch switching frequency are set 4.

 The pulse wave sensor 5 transmits the pulse wave signal removed from the patient through the signal converter 6, which changes its duration, amplitude and shape in accordance with predetermined parameters of the amplitude modulation of the pulsed light radiation, to the input of the pulse generating unit 7. The latter is made on the basis of amplitude-pulse modulation means known in the art.

 From the output of the pulse forming unit 7, the pulse signals (Fig. 8), generated in accordance with a predetermined program for correcting a person’s functional state, are transmitted through the switch 4 to the left or right eye light sources 9, 10.

 The switch 4 provides an alternate connection of light sources 9, 10 to the output of the pulse forming unit 7.

 If a sound correction, for example, musical effect is provided at the same time as the pulse correction program, then a sound source 20 is used, made for example in the form of stereo headphones and connected to the shaper 21 of an audio signal, for example, a stereo playback system. In this case, the control parameters of the audio signals is carried out using the control unit 3.

 If necessary, the correction of the characteristics of the pulse signals can be carried out in the control unit 3 taking into account the measurement results, for example, an electrocardiogram or respiration parameters obtained from the unit 8 of physiological parameters sensors.

 The proposed device has a stabilized power source (not shown in FIG. 1), connected to all units of the device.

 The proposed method for correcting the functional state of a person is as follows.

 Previously, the doctor examines the patient, determines the nature of his diseases and develops a program for correcting the condition of this patient.

 A pulse wave sensor 5 is installed on the patient, and in the case provided by the correction program, other sensors of physiological parameters, for example, a respiration sensor.

 Put a half mask 11 on the eye area of the patient and fix it on the patient's head, for example, using the temples.

 If necessary, put headphones on the patient’s head.

 They include a stabilized power source connected to all units of the device. In the control unit 3, the necessary parameters of the pulse signals, the sound signal, the switching frequency are set up according to the program developed by the doctor.

 Next, a therapeutic or corrective effect is performed.

 Example 1

 Patient Yu., 28 years old. Computer's operator. Work experience 7 years.

 Complaints of fatigue, irritability, poor sleep, phobias, pain in the eyes.

 The appearance of a tired person. Blood pressure 100/70 mm Hg The pulse is weak. The heart rate is 78-90 beats per minute. Spasm of accommodation. On the electroencephalogram (EEG) - a decrease in the power of the α-rhythm in all leads.

 The patient’s functional state was corrected using the proposed device using green pulsed light radiation with a blinking frequency of 0.2 Hz and modulated with a frequency of 12 Hz with a maximum pulse amplitude of 6 lux. The shape of the change in the amplitude of the pulses of light radiation corresponded to the shape of the pulse wave of the patient. The exposure was carried out for 2 weeks: daily 3 times a day for 15 minutes.

Results:
The patient does not show complaints, he became calmer, his sleep returned to normal, fears disappeared.

 Looks nice. Blood pressure 120/80 mm Hg The rhythmic pulse is 72 beats per minute of good filling. The volume of accommodation increased by 1.0 diopters. On the EEG - a positive increase in the power of the α-rhythm in all leads.

 Example 2

 Patient M., 41 years old. Computer's operator. He has been working in the specialty for 10 years.

 Complaints of decreased visual acuity, pain in the eyes, fatigue, poor sleep.

 Visual acuity of 0.7-0.8. Emmetropic refraction. Visual acuity is not corrected. Initial cataract. Reads with glasses +2.0 D. Blood pressure 170/110 mm Hg On the EEG - a decrease in the power of the α-rhythm in all leads except the frontal.

 The patient’s functional state was corrected using the proposed device using green pulsed light emitting with a blinking frequency of 0.2 Hz and modulated with a frequency of 12 Hz, the received pulses were additionally modulated with a frequency of 1000 Hz with a maximum pulse amplitude of 5 lux. The shape of the change in the amplitude of the pulses of light radiation corresponded to the shape of the pulse wave of the patient. The exposure was carried out for 14 days: daily 3 times a day for 10 minutes.

After treatment:
The patient does not show complaints. The sleep returned to normal. Blood pressure decreased to 150/90 mm Hg. On the EEG, an increase in the α-rhythm in all leads. Performance is normal. The visual acuity of both eyes is 1.0.

 Example 3. Patient B., 36 years old, teacher.

 Complaints of periodic pains and pains in the eyes, headaches, fatigue, poor sleep. Blood pressure 150/100 mm Hg On the EEG - a decrease in the power of the α-rhythm in the frontal and temporal leads.

 The patient’s functional state was corrected using the proposed device using green pulsed light emitting with a blinking frequency of 0.15 Hz and modulated by 10 Hz pulses, the received pulses were additionally modulated by pulses with a frequency of 500 Hz with a maximum pulse amplitude of 5.4 lux. The shape of the change in the amplitude of the pulses of light radiation corresponded to the shape of the pulse wave of the patient. The exposure was carried out for 10 days: daily 3 times a day for 10 minutes.

After treatment:
The general condition improved, the eyes do not bother, headaches became less frequent. Performance restored. The sleep is deep. Blood pressure 130/90 mm Hg On the EEG - an increase in the power of the α-rhythm in all leads.

 The proposed method for correcting the functional state of a person and a device for its implementation provide an effective physiotherapeutic effect on a person and can be used to restore the brain and psychophysiological correction of human conditions in depression, diseases, stress, fatigue, decreased performance by achieving deep relaxation, as well as recovery and regulation of the craniosacral and other (α, β, γ, ...) brain rhythms, taking into account individual body features.

 A method of correcting a person’s functional state and a device for its implementation can be widely used both in medical institutions and in industrial and home conditions. They will reduce fatigue and increase the efficiency of workers and employees, for example, during prolonged work at the computer.

Claims (16)

1. A method of correcting a functional state of a person, including a physiotherapeutic effect by pulsed light radiation, varying in frequency and amplitude in accordance with the parameters of the pulse, characterized in that the effect is carried out alternately on each eye sideways with light radiation blinking with a frequency of 0.15-0.6 Hz, moreover, the light radiation is modulated by pulsed signals that have a frequency of 2-12 Hz and the shape of the patient’s pulse wave with a maximum amplitude of 5-6 lux, and their repetition period is 1.25 times longer the duration of the pulse signal, the impact is carried out 2-4 times a day for 10-15 minutes daily for 10-14 days. 2. The method according to claim 1, characterized in that the light exposure is carried out in the range of 400 - 800 nm. 3. The method according to claim 1, characterized in that the duration of the pulse signal modulating light radiation is 3-5 times longer than the duration of the pulse wave. 4. The method according to claim 1, characterized in that the pulses of light radiation are additionally modulated by pulses having a frequency of 100 - 1000 Hz. 5. A device for correcting the functional state of a person, including a housing, light sources installed in it, connected to a controlled functional converter, characterized in that the housing is a half mask containing four plates of opaque material, paired together at the edges to form a closed cavity while the plates located on the inside of the half mask have holes, the axes of which are inclined at an angle of 10-45 ° to the perpendicular restored in the center of the plate and the light sources are installed in the upper part of the closed cavity along its lateral sides with the possibility of transmitting the light flux through the openings, moreover, the controlled functional converter includes a pulse generator unit, a control unit, a switch, a pulse wave sensor, a signal converter and a pulse generating unit. 6. The device according to claim 5, characterized in that the outputs of the block of pulse generators are connected to the inputs of the control unit, the first output of which is connected to the control input of the switch, the pulse wave sensor, the signal converter and the pulse forming unit are connected in series, the second input of the pulse forming unit connected to the second output of the control unit, and its output is connected via a switch to light sources. 7. The device according to claim 5 or 6, characterized in that the sound source connected to the third output of the control unit through the shaper of the sound signal is included in the controlled functional converter. 8. The device according to claim 5 or 6, characterized in that the controllable functional transducer additionally has a block of physiological parameters sensors, the outputs of which are connected through the transducer to the second input of the control unit. 9. The device according to claim 5, characterized in that the light sources are equipped with a light-shielding casing from the side of the holes, and the light reflectors are installed with the possibility of transmitting light radiation from light sources through the holes of the plates. 10. The device according to claim 5, characterized in that on the outside of the plates located on the inside of the half mask, holographic modules are installed, the latter being removable. 11. The device according to claim 5, characterized in that the reflectors are made in the form of a hologram. 12. The device according to claim 5, characterized in that the holes in the plates are in the form of a longitudinal slit and are equipped with elements for correcting the direction of the light flux. 13. A device for correcting the functional state of a person, including a housing, light sources installed in it, connected to a controlled functional converter, characterized in that the housing is a half mask, the front side of which contains two wide opaque plates connected together at the edges to form a closed cavity, the plate located on the inside of the half mask has holes whose axes are inclined at an angle of 10-45 ° to the perpendicular restored in the center of respectively, the right and left halves of this plate, and the light sources are installed in the upper part of the closed cavity between the plates with the possibility of transmitting light flux through the holes, and the controlled functional converter includes a pulse generator block, a control unit, a switch, a pulse wave sensor, a signal converter and a block for generating pulses. 14. The device according to item 13, wherein the light sources and holes in a wide opaque plate are located on both sides of the Central axis or from the sides of the half mask, and the holes have the shape of a longitudinal slit and are equipped with elements for correcting the direction of the light flux. 15. Device for correcting the functional state of a person, including a housing, light sources installed in it, connected to a controlled functional converter, characterized in that the housing is a half mask, the front side of which is made in the form of an opaque plate screen with two holes, the axes of which are inclined under angle of 10-45 ° to the perpendicular restored in the center, respectively, of the right or left half of this screen, and light sources are installed in the upper part of the screen with its outer the sides with the possibility of transmitting the light flux through the holes and are equipped with a protective casing, and the controlled functional converter includes a pulse generator unit, a control unit, a switch, a pulse wave sensor, a signal converter and a pulse generating unit. 16. The device according to p. 15, characterized in that the light sources and holes are located on both sides of the Central axis or from the sides of the screen, and the holes have the shape of a longitudinal slit and are equipped with elements for correcting the direction of the light flux.

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