RU90685U1 - UNIVERSAL THREE-WAVE LASER-DIODE MEDICAL DEVICE - Google Patents

Abstract

1. A universal laser-diode three-wave medical device containing a power supply, a control panel with a digital liquid crystal screen, optical emitters aligned with the output fibers of monofilament emitters, and nozzles, characterized in that the device further comprises an adder-collector connecting the output fibers with the output the optical fiber to which the nozzles are connected, as well as the laser drivers of the optical radiation sources, which control the pulse fronts from low-frequency to high frequency optical radiation, and the adjustment of the radiation power is possible from 1 to 100%. ! 2. The device according to claim 1, characterized in that the optical emitters are selected in the wavelength ranges of 380-420 nm, 630-688 nm, 1264-1273 nm and with radiation powers up to 3 W, 5 W, 10 W, respectively, the length the radiation wave of the second channel corresponds to the wavelength of the second harmonic of the radiation of the third channel. ! 3. The device according to claim 1, characterized in that the additional output fiber can be connected with permanent or variable magnets with a field strength of 10-70 mT.

Description

The utility model relates to medical equipment, namely to therapeutic and photodynamic equipment, and can be used in medicine, biology, veterinary medicine.

One of the main areas of physiotherapy in recent years has been the use of therapeutic laser devices, including devices, with a radiation wavelength corresponding to the absorption peaks of intrinsic (endogenous), or introduced (induced) photosensitizers.

The objective of this utility model was to create a device that allows you to create optimal biological, photodynamic, photothermal effects.

As an analogue of the utility model, one can indicate the means described by the models RU No. 28034 dated August 16, 2002 (device for electromagnetic exposure to biological tissue) and No. 28033 dated March 6, 2002 (Laser medical ophthalmic device).

The closest analogue is the model of a three-wave laser device described in certificate RU No. 28033. In this device, the main sources of radiation are laser emitters with wavelengths of 500-580, 620-680, 700-1070 nm. However, the known device does not take into account the latest advances in technology in terms of using wavelengths in the region of the peak of oxygen absorption to create photodynamic effects in biological media, as well as the feasibility of achieving the necessary characteristics of radiation power, and bioresonance phenomena that can be used using the choice of wavelengths being harmonics of each other.

The goal is achieved by the fact that the proposed device introduces an emitter generating in the violet and near ultraviolet spectral regions (band 380-420 nm): the biological activity of the band is due to the peak absorption of almost all known porphyrins and, at the same time, the absence of a mutagenic factor; and an emitter with a wavelength of 1264-1273 nm, which is the peak of absorption of atomic oxygen with a maximum depth of absorption of biological tissue, as well as additional wavelengths corresponding to the peak of absorption of chlorins and which are harmonic waves in the range 1264-1273 nm.

The proposed utility model allows you to expand the arsenal of medical and biological equipment. The characteristics of the device is the use of new structural elements, the presence of an optimized connection between them.

Universal three-wave laser-diode medical device and the interaction of its parts is schematically represented in figure 1

The device consists of a power supply unit 1, adapted to the household electric current network, connected to a microprocessor control unit 2, a control panel with a digital liquid crystal screen (display) 3, and laser drivers of optical radiation sources 4, 5, 6. Drivers control the power of optical radiation sources 7, 8, 9. Optical emitters are aligned with the output fibers of monofilament emitters 10, 11, 12, which are connected through an adder collector 13 to the output fiber 14, to which are connected personal attachment 15, including intracavitary.

Laser drivers allow you to adjust the fronts of the pulses from low-frequency to high-frequency optical radiation for simultaneous synchronization of laser radiation of various wavelengths and external meters and allow you to provide continuous radiation modes with any combination of power and wavelength. The power of the optical emitters of the used wavelengths 380-420, 630-680, 1264-1273 are up to 3, 5, 10 W, respectively, and are selected depending on the estimated areas of irradiation of the objects. Moreover, the adjustment of the radiation power is possible from 1 to 100%. The selection of emitters is made in such a way that the wavelength of the radiation of the second channel corresponds to the wavelength of the second harmonic of the radiation of the third channel.

The model as a whole is a desktop device, with the output of monofilament radiation from laser and diode emitters. Methods of exposure can be therapeutic, photodynamic, photochemical, photothermal.

An embodiment is a device whose output fiber is connected to permanent or variable magnets with a field strength of 10-70 mT.

Laser and diode emitters of the device are located in a case made of medical ABC plastic, the output is a standard optical connector SMA-905, a means of control, parameter setting is a resistive liquid crystal screen.

General view of the device shown in figure 2

The device operates as follows:

1. Turning the current key turns on the device;

2. At the same time, the number of laser channels for operation or previously required exposure programs that are previously saved are selected on the display screen

3. Then the necessary power parameters of individual channels are set on the screen and, finally, the time-frequency radiation parameters are set on the screen

4. the positioning of the fiber-irradiator and the inclusion of radiation for the procedure

The main advantages of the proposed utility model:

1. the achievement of new, previously not used radiation characteristics and a combination of parameters

2. universality of the device in terms of the use of combined photodynamic, photochemical and photothermal techniques. The ability to use the device in various fields of therapy and surgery

3. The use of an informative liquid crystal screen allows optimal control and monitoring of parameters using a microprocessor

4. the ability to save, program complex work algorithms

5. low cost in comparison with the use of individual devices.

Claims (3)

1. A universal laser-diode three-wave medical device containing a power supply, a control panel with a digital liquid crystal screen, optical emitters aligned with the output fibers of monofilament emitters, and nozzles, characterized in that the device further comprises an adder-collector connecting the output fibers with the output the optical fiber to which the nozzles are connected, as well as the laser drivers of the optical radiation sources, which control the pulse fronts from low-frequency to high frequency optical radiation, and the adjustment of the radiation power is possible from 1 to 100%. 2. The device according to claim 1, characterized in that the optical emitters are selected in the wavelength ranges of 380-420 nm, 630-688 nm, 1264-1273 nm and with radiation powers up to 3 W, 5 W, 10 W, respectively, the length the radiation wave of the second channel corresponds to the wavelength of the second harmonic of the radiation of the third channel. 3. The device according to claim 1, characterized in that in addition the output fiber can be connected with permanent or variable magnets with a field strength of 10-70 mT.