RU2113255C1 - Device for biological object exposure to electromagnetic radiation of optical range - Google Patents

Abstract

FIELD: medical engineering; physiotherapy; ophthalmology. SUBSTANCE: device has electromagnetic radiation source and optical commutator, as well as collimator, light filter and diffraction grating positioned in succession between electromagnetic radiation source and optical commutator. Device also includes data input unit, control unit, dosing facility for integral radiation flux and series-connected unit which forms circular polychromatic field, and mask unit. Control unit inputs are connected to outputs of data input unit and dosing facility for integral radiation flux, and its outputs are connected to dosing facility input and to optical commutator input. Optical commutator output is connected to input of unit which forms circular polychromatic field. Optical commutator is of array type, multichannel, capable of obtaining continuous electromagnetic radiation modulated in brightness and controllable in wavelength and spectrum width for alternate and/or simultaneous, individual and/or group selective electromagnetic irradiation. In addition, optical commutator includes controlled system of array mirrors provided with electric drives and unit of slit diaphragms, as well as unit of radiation flux modulation and switching with electric drive. Optical input of array mirror system serves as optical commutator input, and its outputs are multichannel and/or single-channel optical outputs of radiation flux modulation and switching unit. Diffraction array is made reflecting with variable period and angle of luster. Optical commutator is based on single acoustic-optical switches mounted on waveguide plate according to technology of manufacture of superlarge integrated circuits. Programmed variation of wavelength and spectrum width of radiation with wide control range of optical radiation flux intensity, as well as provision for simultaneous getting of several irradiation fields with different monochromatic and polychromatic fluxes of optical radiation allows considerable extension of given device field of application for effective action on biological objects with electromagnetic radiation of optical range. EFFECT: enhanced action on biological objects. 4 cl, 4 dwg

Description

 The invention relates to medical equipment, namely to means for influencing a biological object with electromagnetic radiation of the optical range, and can be used both for physiotherapeutic effects on an animal or person for prevention and therapy, for example, in ophthalmology, and in agricultural practice.

 A device is known for influencing a biological object with electromagnetic radiation of the optical range, including a source of pulsed optical radiation on a semiconductor emitter (laser). (RF patent N 2010581, class A 61 N 5/06, 1992).

 However, this device provides pulsed action only in a narrow range of laser radiation. This dramatically reduces the capabilities of the device, for example, in the treatment of various diseases. So, in the treatment of a number of diseases with the help of an eye effect, it is necessary to use a quasi-continuous flux of ultraviolet or visible radiation radiation for effective treatment (see application N 97102766/14), which the known device does not provide.

 Known light-treatment device containing a source of electromagnetic radiation and an optical switch, the role of which is performed by the light guide (USSR Author's Certificate N 1761158, class A 61 N 5/06, 1989 - prototype).

 However, this device is a single-channel with manual control of changes in the wavelength and width of the radiation spectrum with a small range of regulation of the flow intensity. It does not allow to obtain simultaneously multiple radiation fields with several different monochromatic radiation fluxes.

 The basis of the invention is the goal to develop such a device for influencing a biological object with electromagnetic radiation of the optical range, which will provide continuous alternating and / or simultaneous, individual and / or group selective exposure to a wide range of monochromatic and / or polychromatic electromagnetic radiation, operatively controlled according to the applicable way.

 The technical result of the invention is the creation of such a device that will allow for effective bioresonance exposure by any optical monochromatic or polychromatic radiation of the optical range necessary for the selected method to biorhythms and biological activity of various biological objects and living organisms, on the functioning of their individual elements, structures and life support systems.

 The essence of the invention is to achieve the aforementioned technical result in a device for exposing a biological object to electromagnetic radiation of the optical range, comprising a source of electromagnetic radiation and an optical switch, in which additionally placed between the electromagnetic radiation source and the optical switch, sequentially mounted collimator, a light filter and a diffraction grating, a data input unit, a control unit and an integral metering unit were also introduced radiation current, as well as a series-connected unit for the formation of an annular polychromatic field and a block of masks, the inputs of the control unit connected to the outputs of the data input unit and the integrated radiation flux batcher, and its outputs connected to the input of the latter and the input of the optical switch, the output of which is connected to the input of the unit the formation of an annular polychromatic field, while the optical switch is made matrix, multi-channel with the possibility of obtaining modulated in brightness and adjustable in the wavelength and spectrum width of continuous electromagnetic radiation for alternating and / or simultaneous individual and / or group selective electromagnetic radiation.

 In addition, in this device, the optical switch contains a controlled system of matrix mirrors equipped with electric drives and a block of slotted diaphragms, as well as a modulation and switching unit for the radiation flux with an electric drive, while the optical input of the system of matrix mirrors is the input of the optical switch, and its outputs are multi-channel and / or single-channel optical outputs of the modulation and switching unit of the radiation flux. In this case, the diffraction grating is made reflective with a variable period and brightness angle, and the optical switch is made on the basis of a unit of single acousto-optical switches made on a waveguide plate using the technology of ultra-large integrated circuits.

 The principle of exposure to a biological object carried out using the proposed device is based on the bioresonance effect of electromagnetic radiation of the optical range on sensitive zones of biological objects, such as biologically active points and zones, visual analyzer and others. This ensures the normalization of biorhythmic processes of objects, improving their functioning. For example, improving the state of eye function by achieving simultaneous or alternating calming and stimulating effects on human vision.

 In FIG. 1 shows a device for influencing a biological object with electromagnetic radiation of the optical range, a block diagram; figure 2 - matrix optical switch, block diagram; figure 3 is a block diagram of one of the channels of the modulation and switching unit of the radiation flux; figure 4 - biconical prism of the block forming an annular polychromatic field.

 The device contains an electromagnetic radiation source 1, a collimator 2, a light filter 3, a diffraction grating 4, an optical matrix switcher 5 (IOC), a control unit 6, an integrated radiation flux dispenser 7, an input data unit 8, blocks of elements 9 and 12, designed specifically for exposure on biological objects, a block for the formation of an annular polychromatic field 10, a block of masks 11 and optical communication lines 13, 14, 15, 16.

 The electromagnetic radiation source 1 can be made in the form of a set of zonal sources of optical radiation, providing the range of radiation necessary for a particular method of use in the IR, UV, or visible spectral regions.

 The collimator 2 provides the formation of narrow beams of parallel or linearly diverging rays in separate zones of the infrared, visible and ultraviolet ranges of radiation, is used to increase the conversion efficiency and the quality of the allocated monochromatic region of the spectrum.

 The filter 3 aligns the brightness of the radiation flux over the entire spectrum of the radiation or corrects the radiation flux according to the method of use, for example, in the case of a halogen radiation source, it adjusts the brightness in the middle of the emission band, which at this source is higher than at the edges.

 The diffraction grating 4 can be made with variable periods of strokes and light angles in the zones of infrared, visible and ultraviolet radiation ranges. The implementation of the diffraction grating 4 with a variable period of strokes cut on a special machine controlled by a computer or using holographic methods, provides diffraction efficiency and a continuous spectrum of the decomposition of optical radiation. The diffraction grating may be concave.

 Matrix optical switch 5 selects the necessary narrow spectral sections of optical radiation, their intensity modulation according to the method of exposure (for example, physiotherapy method) and their distribution: individual on the optical communication line 13 or group on the optical communication line 14.

 Matrix optical switch 5 (figure 2) contains a system of matrix mirrors 17 with slotted diaphragms 19. Each of the mirrors is connected to the corresponding electric drive unit 18 of the electric drive, for example, a stepper motor with a sine mechanism, and selects a portion of monochromatic radiation.

 In addition, the IOC 5 includes a modulation and switching unit for the radiation flux 20 with the electric drive unit 21. The modulation and switching unit of the radiation flux is made in the form of a system of obturator devices, 22 each of the obturators 22 of which is ellipsoid in shape and connected to the corresponding electric drive of the unit 21, for example, an electromagnetic vibrator. The system of obturator devices provides switching on and off each of the selected optical radiation fluxes and its modulation according to the necessary law (for example, when pulsed, generates radiation pulses of a given period, duration and intensity) individually in each channel.

 Matrix optical switch 5 can also be made on the basis of acousto-optical switches (AOP) with collectors on waveguide plates that channel monochromatic radiation beams through n channels. It can be made by the method of ultra-large integrated circuits (VLSI). Such an MOC provides switching a narrow monochromatic stream from the entire dispersed stream of optical radiation incident on the matrix field to the output of the corresponding channel when a signal is received from the control unit 6.

 The control unit 6 provides program-time control of the matrix optical switch 5 according to hard or flexible programs in accordance with the requirements and the algorithm inherent in the used method of exposure (see, for example, application N 97102766/14) and can be performed on a computer basis.

 The batcher 7 of the integrated radiation flux, which can also be done on the basis of a computer, automatically calculates the time of the exposure session and the permissible brightness of the radiation flux in each individual case in accordance with the characteristics of the characteristics of this biological object, the real biostimulation mode embedded in the next exposure session taking into account permissible biomedical dose.

 The data input unit 8 provides the input to the control unit 6 of the initial conditions for the effect, the individual characteristics of the patient and other data necessary for the effect in accordance with the physiotherapy method used, as well as an indication of the progress of the specified exposure modes.

 As a data input unit 8, computer tools that perform similar functions can be used.

 Blocks of elements 9 and 12 ensure the transmission of monochromatic and polychromatic beams of optical radiation, respectively, formed directly to the biological exposure zone. Each of them includes a number of optical emitters made, for example, in the form of tips of single optical fibers or optical fiber bundles superimposed on biological exposure zones, or installed in a camera with a direct observation window, or enclosed in special glasses. In this case, glasses or cameras can be equipped with an information hologram used in the exposure process.

 The annular polychromatic field forming unit 10 provides m-pair channels for the number of irradiated objects with n-sectors of different monochromatic radiation and includes t two-sided biconical prisms, each of which has 7 2n mirror faces (see Fig. 4).

 Moreover, n = 3, ..., N, the required number of channels K IOM optical communication lines 15 is determined as follows: K = nxm, where m is determined by the number of objects of simultaneous exposure.

 The rotation of the annular polychromatic field is achieved by continuously changing the position of the mirrors of the matrix optical switch 5, and the unit for forming the annular polychromatic field 10 provides in-phase rotation with the opposite direction of the annular polychromatic field for each channel pair. The block of masks 11 provides selective irradiation of surface areas of objects due to the formation of the required radiation field and contains, for example, cutting masks, the holes of which are made in accordance with the requirements of the exposure method. The holes of the masks can be equipped with holographic modules, shape synthesizers, which in some cases increases the effectiveness of the effect.

 The optical communication line 13 of the single-channel outputs of the modulation and switching unit of the radiation flux consists of channels, each of which can include only one single optical fiber, and each of the channels of the optical communication lines 14, 15, 16 of the multi-channel outputs of the said block contains a set of optical fibers or a fiber optic bundle.

 The principle of operation of the device is as follows. The stream of rays from the source of electromagnetic radiation 1 enters the collimator 2, which forms a parallel or linearly diverging beam of rays. The formed beam of rays passes through a light filter 3, which compensates for the non-uniformity of the optical radiation of source 1, and enters the diffraction grating 4 with a variable stroke pitch, providing a continuous spectrum of its decomposition into the matrix field of the MOC 5.

 The matrix optical switch 5, according to the commands and control signals of the control unit 6, selects the necessary narrow spectral sections of radiation, combines several channels to provide the necessary spectral bandwidth, modulates them according to the selected method of exposure, and distributes individually - along line 13 of optical communication and group - along line 14 optical communications.

 To protect the biological object from exposure to overdose and the dangerous brightness of the optical radiation flux, the dispenser 7 monitors and integrates the control signals and commands of the control unit 6, automatically calculates the integrated energy of the optical radiation flux during exposure through each of the optical exposure channels, taking into account the characteristics of a given biological object, the actually adopted exposure regimen, taking into account the permissible biomedical dose and d line of radiation waves and determines the exposure time for each of the irradiated objects.

 The choice of the program of the impact, its modes, monitoring the progress of their implementation is carried out using the data input unit 8.

 The monochromatic narrow radiation beams formed in the matrix optical switch 5 are transmitted via the optical communication line 13 to the elements of block 9. The spectral bandwidth of the radiation is changed by combining several monochromatic neighboring radiation beams in one optical communication line.

 The multi-channel narrow radiation beams formed in the matrix optical switch 5 are transmitted via optical communication line 15 to the two-sided prisms of the annular polychromatic field forming unit 10. The annular polychromatic field 10 formed here with the in-phase and opposite direction of rotation for each pair of object channels enters through the optical communication line 16 on the mask block 11, which form the necessary radiation field in accordance with the requirements of the exposure.

 From the output of the block of masks 11, the formed polychromatic radiation field through the optical communication line 14 is supplied in pairs to the elements of the block 12.

 The device is used as follows.

 Using the data input unit 8, the operator enters into the control unit 6 data with exposure characteristics, data on the biological object and selects the necessary rigid program or generates a flexible program according to the adopted method of exposure, compares the planned session time with the integral radiation flux admissible according to the doser 7. If necessary, sets the masks of block 11 required by the method.

 Then, for example, the patient is placed near the optical emitter. In this case, either special glasses are put on the patient, or the tip of the optical fiber is applied to the biological exposure zone, or the patient is placed near the information window. Next, turn on the device and conduct a session of physiotherapy exposure to a beam of optical radiation.

 This device allows you to effectively influence electromagnetic radiation of any wavelength from the entire optical range on biologically active zones of biological objects, on the eyes and biologically active points of a person or animal according to an individual program with automatically adjustable time, brightness, frequency, shape and type of exposure, as well as lengths waves of monochromatic and polychromatic radiation. It allows you to measure the combination of the wavelengths of polychromatic radiation, form an annular sector field, rotate its sectors and adjust the frequency of their supply. It can be used to select the necessary information hologram used during exposure. This allows you to significantly increase the effectiveness of exposure to various biological objects, including increasing the effectiveness of physiotherapeutic treatment of a wide range of human diseases and pathological changes in other biological objects.

 Program change of the wavelength and width of the radiation spectrum with a wide range of regulation of the intensity of the optical radiation flux, as well as the possibility of obtaining using the proposed device simultaneously several radiation fields with various monochromatic and polychromatic optical radiation fluxes, can significantly expand the scope of this device for effective impact on biological objects electromagnetic radiation of the optical range, on their biorhythms and biologists eskuyu activity. The device also allows for group exposure sessions.

Claims (4)

 1. A device for influencing a biological object with electromagnetic radiation of the optical range, containing a source of electromagnetic radiation and an optical switch, characterized in that it additionally includes a collimator, a light filter and a diffraction grating located in series between the electromagnetic source and the optical switch, and a block is also introduced data input, control unit and integrated radiation flux dispenser, as well as series-connected a ring polychromatic field and a block of masks, the inputs of the control unit connected to the outputs of the data input unit and the integrated radiation flux batcher, and its outputs connected to the input of the latter and the input of the optical switch, the output of which is connected to the input of the unit for forming the ring polychromatic field, while the switch is made matrix, multi-channel with the possibility of obtaining modulated in brightness and adjustable in wavelength and spectral width of a continuous electromagnetic radiation for alternating and / or simultaneous individual and / or group selective electromagnetic radiation.  2. The device according to claim 1, characterized in that the optical switch contains a controlled system of matrix mirrors equipped with electric wires and a block of slotted diaphragms, as well as a modulation and switching unit for the radiation flux with electric wires, while the optical input of the matrix mirror system is the input of the optical switch, and its outputs are multi-channel and / or single-channel optical outputs of the modulation and switching unit of the radiation flux.  3. The device according to claim 1, characterized in that the diffraction grating is made reflective with variable period and brightness angle.  4. The device according to claim 1, characterized in that the optical switch is made on the basis of a unit of single acousto-optic switches mounted on a waveguide plate and made using ultra-large integrated circuit technology.

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