RU2142829C1 - Phototherapy device "foton" - Google Patents

Abstract

FIELD: medical engineering; medicine, namely neurology, psychiatry, ophthalmology, sporting and aviation medicine. SUBSTANCE: device is used for exposure of brain to infrared radiation and green light through visual analyzer. Device has two light sources. Light-emitting diodes of infrared radiation are fixed in center of light-protection filters of spectacle frame. Two green light-emitting diodes are positioned in end faces of spectacle frame between light- protection filter and screen secured at attachment points of green light-emitting diodes, respectively. Light- emitting diodes of visible green light are connected to second light source. EFFECT: enhanced efficiency of treatment. 5 dwg

Description

 The present invention relates to medical equipment and can be used for light physiotherapy.

 The device is designed for simultaneous exposure to the brain through a visual analyzer with infrared radiation and green light and can be used in neurology, psychiatry, therapy, ophthalmology, sports and aviation medicine, for the treatment of hypertension, migraine, optic nerve atrophy, and regulation of the tone of the retina and head vessels brain, stress, depressive states.

 It is known that exposure to a biological object with different colors of light causes ambiguous psychophysiological effects, for example, red color causes a feeling of anxiety, increased tension, etc., green causes a feeling of relaxation, peace. One of the main mechanisms of exposure to infrared radiation is to obtain a thermal effect and is used to treat inflammatory processes.

 It is known that exposure to light by an infrared laser with a wavelength of 0.89 μm pulsed with a frequency of 80-150 Hz is cutaneous in the treatment of patients with cardiac insufficiency. The impact is carried out in the projection area of the common carotid and vertebral arteries on the neck. (Aut. St. N 1780770, A 61 N 5/06, - B.I. N 46, 12/15/92). The method is used in the complex treatment of patients with initial manifestations of circulatory failure of the brain and allows to prolong remission.

 There is evidence of the use of color therapy in psychiatric practice, for example, the treatment of alcoholism.

 A known method of treating patients with emotional disorders and the device "Filat" for its implementation. (Aut. St. N 1766424, MKI A 61 N 5/06, B.I. N 37, 10/07/92). The treatment is carried out by the action of red and blue light on the halves of the retina of both eyes, and then additionally green and yellow on the corresponding halves. A device for implementing the method comprises a white light source, a color converter of the light flux in the form of a spectacle frame with interchangeable filters. Using the known method and device provides a reduction in the duration of treatment of cyclometric depression and an increase in nosological units that can be treated. (prototype).

Known methods of therapy and devices for their implementation have the following disadvantages;
- the absence of modulated exposure to light with parameters close to the natural rhythms and biopotentials of organs and tissues:
- there is no combined effect of green and infrared waves;
- the bulkiness of the device.

The authors set themselves the following tasks:
- increasing the effectiveness of treatment by expanding the functionality of phototherapy during physiotherapy of many diseases;
- increasing the effectiveness of treatment due to the simultaneous exposure to green and modulated infrared waves with parameters close to the natural biopotentials of organs and tissues during physiotherapy of somatic, mental and autonomic diseases:
- the use of the positive effects of phototherapy with a wide range of its range of visible and invisible visual analyzer:
- the creation of a device whose radiation parameters would cause the greatest positive effect during physiotherapy with light. The device must be portable, absolutely safe, easy to use, accessible to a wide range of people.

 In the analysis of domestic and foreign sources, we did not find any methods, devices, or scientific results on the effects of infrared radiation on the human brain through a visual analyzer.

 At the same time, as a result of the studies conducted by the author, it was found that when a human visual analyzer is exposed to infrared radiation modulated in power at an infra-low radiation frequency, significant changes are observed in the parameters of the electroencephalogram, electrocardiogram, cerebral vessels and retina.

The choice of the frequency range of the modulation parameters of infrared radiation, namely with a frequency of 0.3-3 Hz, is justified by the fact that in previous studies we showed that it is these frequencies that cause changes in the body, which are accompanied by a high therapeutic effect with a wide range of diseases. (Butukhanov V.V. et al. / Slow-wave electrical activity and spontaneous rhythmic movements of organs and tissues. / Particleboard VINITI N 5366-388, 1986.)
It is these frequencies that coincide (which are in resonance) with the frequency parameters of micromotion of organs and tissues that provide metabolic processes in them, such as an increased rate of blood (viscous fluid) passing through the vessels of the brain, increased metabolism and gases, etc.

 The essence of the proposed device for phototherapy "Photon" is that it contains two light sources, the first is made of series-connected elements: a master oscillator, a shaper of random pulses, a low-pass filter. The output of the low-pass filter through a voltage-controlled current source is connected to two infrared radiation LEDs. The infrared light emitting diodes are fixed in the center of the light-protective filters of the spectacle frame. Two LEDs of the green set are located at the ends of the spectacle frame between the light-protective filter and the screen mounted respectively at the points of attachment of the green LEDs. The visible green LEDs are connected to a second light source.

 The novelty of the proposed photon light therapy device is that the light source is made up of a master oscillator, a random pulse shaper, a low-pass filter, and the interconnection of these series-connected elements through a voltage-controlled current source is connected to two infrared radiation LEDs. The infrared LEDs are fixed in the center of the opaque filters of the spectacle frame. LEDs of visible green light are fixed at the ends of the spectacle frame and are placed between the screen and opaque filters. Green LEDs are connected to a second light source.

 The present invention meets the criterion of "novelty", as in the proposed embodiment, the authors from information sources have not been identified.

 Also meets the criteria of "inventive step".

 The proposed interconnection of elements and their interaction exhibit a new property - exposure to infrared radiation through a visual analyzer on the human brain with a modulation frequency that matches the frequency parameters of micromotion of organs and tissues with simultaneous exposure to relaxing green light provides an increase in metabolic processes, which significantly increases the therapeutic effect of light therapy . Until now, the aforementioned property has not been provided with known devices during light therapy, but has been identified and implemented by the authors, which corresponds to the inventive step.

 To implement the proposed device, it is sufficient to use well-known tools described in the application materials for a mid-level specialist. The use of this device is possible in practical health care, outpatient clinics, dispensaries, home conditions in accordance with the developed instruction. Thus, the device is industrially applicable.

Figure 1 presents the structural diagram of the device;
figure 2 - waveform of the signals at the output of the master oscillator;
figure 3 - waveform of the signals at the output of the generator of random pulses;
figure 4 - waveform of the signals at the output of the low-pass filter and the voltage-controlled current source;
figure 5 is an example of a specific implementation of the device.

 The device contains two light sources. The elements of the first infrared light source consist of a master oscillator 1, a random pulse shaper 2, a low-pass filter 3, a voltage-controlled current source 4, and its output is connected to the LEDs of the infrared range of radiation 5, 6. The LEDs of the visible range of radiation 7, 8 are connected to the second a power source 9. The LEDs 5, 6, 7, 8 are made in the form of a block of emitters 10, which represents a spectacle frame. The infrared emission LEDs 5, 6 are fixed in the center of the light filters 11, and the visible green LEDs 7, 8 at the ends of the spectacle frame 10 between the filter 11 and the screen 12. Two screens 12 are also fixed at the ends of the spectacle frame 10, respectively, LEDs 7, 8 .

 In this case, the elements of the first infrared light source: the master oscillator 1, the driver of random pulses 2, the low-pass filter 3 are connected in series. The output of the low-pass filter is connected to the input of the voltage-controlled current source 4 and its output is connected to the infrared radiation LEDs 5, 6. The output of the second power supply 9 is connected to the LEDs of the visible radiation range 7, 8. The LEDs 5, 6, 7, 8 are placed in the block emitters 10, which is a spectacle frame with light filters 11. (see Fig. 5). The master oscillator 1, the driver of random pulses 2, a low-pass filter 3, a current source 4 and a current source 9 are located in the housing 13.

 The device operates as follows: the master oscillator 1 generates pulses following with a frequency of 1 kHz (see FIG. 2), which are supplied to the random pulse shaper 2. From the output, the random pulse shapers 2 are a sequence of identical in amplitude and random in duration and time of occurrence of pulses (see figure 3) comes to the low-pass filter 3, where it is converted to an analog signal of a random shape in the spectral range of 0.2-3 Hz (see figure 4). The spectral composition of the analog signal from the low frequencies is determined by the spectrum of the sequence of random pulses, and from the upper ones by the cutoff frequency of the filter 3. An analog signal of random amplitude from the output of the low-pass filter 3 is fed to a current source controlled by voltage 4, the output of which produces a current that varies according to random law (see figure 4). This current is powered by infrared 5.6 LEDs located in the block of emitters 10.

 Thus, the radiation intensity of these LEDs is also random, the modulation depth reaches 60%. The LEDs of the visible range of radiation 7, 8, also located in the block of emitters 10, are powered by direct current from a power source 9.

 The master oscillator 1 is made on a single-junction transistor, which ensures high stability of the repetition rate of the generated pulses.

 The generator of random pulses 2 is made on the basis of shift registers. The chain, the links of which are 4 groups of series-connected shift registers, is closed using the "exclusive or" elements, which carry out the so-called summation modulo "two" pulse sequences generated at the output of individual links. In this case, the shaper of random pulses 2 generates a sequence of identical in amplitude and random in duration and time of appearance of rectangular pulses.

 The low-pass filter 3 is made according to the scheme of the active low-pass filter of the third order on the operational amplifier KR140UD1208. It converts a pulse signal into analog form.

 A current source controlled by voltage 4 converts the voltage received at the output of the random signal conditioner into a current whose value provides a given radiation intensity of infrared LEDs.

 In a specific example of execution, the block of emitters 10 are glasses with tinted glasses or light-protective filters (see Fig. 5), in the center of which there are infrared LEDs 5, 6, and green LEDs 7, 8 in the place of attachment of the arms to the frame.

Portability was manifested in the fact that the circuit and power sources are placed in a case measuring 100 x 80 x 30 mm ³ , and the emitters are in light-protective glasses. Weight is about 110 g. Safety is ensured by the fact that low-intensity radiation is applied, and an autonomous power supply of 9 V. is used.

 Simplicity in the control of the device is ensured by the operating mode in which one button is used.

 The ability to use the device for a wide range of people is ensured by the use of low-cost circuits, manufacturability.

 The proposed device has been successfully used in the treatment of the initial stages of hypertension, migraine, spasms of the vessels of the retina and brain, relieving emotional stress, tachycardia, correction of heart rate regulation parameters and intraocular pressure.

 For example, in the treatment of hypertension in children in 76% there was a restoration of normal blood pressure, while there is a decrease in heart rate to normal values and a decrease in the degree of tension of adaptive reactions. The therapeutic effect persists for several months.

 Given the high therapeutic efficacy in therapy with the use of infrared and visible green radiation using the proposed device, absolute safety, ease of use, portability, manufacturability, and the absence of negative influences, the device can be widely used in therapeutic, neurological, eye and other clinics, outpatient clinics and home conditions.

Claims (1)

 A device for light therapy, comprising a light source and a spectacle frame with fixed light filters in it, characterized in that the master oscillator, the random pulse generator and the low-pass filter are connected in series, the filter output through a controlled voltage current source is connected to two infrared radiation LEDs fixed in the center of the spectacle frame, green LEDs are located between the filters and protective shields and are connected to a second current source.

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