RU159167U1 - LASER DEVICE FOR TREATMENT OF DYSTROPHIC DISEASES OF FEMALE GENITAL ORGANS - Google Patents

Abstract

1. A laser device for the treatment of dystrophic diseases of the female genital organs, including a working laser, an aiming laser, an optical delivery system for working and aiming laser radiation, a colposcope with an operating field illumination system and a video monitoring system, characterized in that the operating field illumination system is a multispectral LED illuminator, video monitoring system includes a highly sensitive color video camera with a zoom lens, the device additionally with Holds a control, analysis and recording registration system, including a working laser control module, an aim laser control module, connected to a working and aim laser, a radiation brightness and emission spectrum control module for a multispectral LED illuminator, connected to an LED illuminator, and a zoom lens control module, a registration module R, G, B of the video camera signals, the input of which is connected to the output of the camera, and a joint analysis module R, G, B of the signals okamery having an input coupled to an output module camcorder registration signals, a display system, whose input is connected to the output of a joint analysis unit R, G, B signalov.2. The laser device according to claim 1, characterized in that the working laser is in continuous operation. The laser device according to claim 1, characterized in that the working laser operates in a pulsed mode with a fill factor from the range of 5-90%.

Description

The utility model relates to medical equipment, namely to laser devices designed to treat dystrophic diseases of the female external genital organs (cervix, vagina, vulva).

The closest analogue to the proposed is a device for the treatment of pathology of the cervix (RF Patent No. 143678). The known device includes a working laser with a radiation wavelength of 0.98 ± 0.01 μm with a radiation power in the range of 0.1-15 W, an aiming laser with a radiation wavelength of 0.53 ± 0.1 μm and a laser radiation power of 1-3 mW output, a control unit for a working laser and an aiming laser, an optical system for delivering radiation from working and aiming lasers, an operating field illumination system.

The disadvantages of this device are that the visual assessment of changes in the color and shape of tissues when illuminated with white light is not informative enough to identify functional and structural changes that occur during the diagnosis of pathological processes, due to the low color contrast between healthy and pathologically changed tissues, which requires a very highly qualified doctor, significantly reduces the functional and diagnostic characteristics of the device in the diagnosis and control of the treatment process, and, accordingly about the quality of treatment.

The objective of the utility model is to improve the quality of treatment of dystrophic diseases of the female external genital organs by improving the functional and diagnostic characteristics of the proposed device by increasing the contrast of pathological areas against a background of healthy tissues.

The technical result is achieved in that in a laser device for treating dystrophic diseases of the female genital organs, including a working laser, an aim laser, an optical delivery system for radiation from the working and aiming lasers, a colposcope with an operating field illumination system and a video monitoring system, the operating field illumination system is multispectral LED illuminator, video monitoring system includes a highly sensitive color video camera with a zoom lens, a device The device additionally contains a control, analysis and registration system for the image, including a control module for a working laser, a control module for an aim laser connected to a working and aim laser, a module for controlling the brightness and emission spectrum of a multispectral LED illuminator, connected to an LED illuminator, and a lens control module zoom, the registration module R, G, B of the video camera signals, the input of which is connected to the output of the camera, and the module Lisa R, G, B video camera signal whose input is coupled to an output module camcorder registration signals, a display system, whose input is connected to the output of a joint analysis unit R, G, B signals.

The working laser operates in a continuous mode or in a pulsed mode with a duty cycle from the range of 5-90%,

The essence of the utility model is illustrated in FIG. 1, where: 1 - working laser; 2 - sighting laser; 3 - optical system for delivering radiation from working and sighting lasers; 4 - colposcope; 5 - node LED emitters illumination of the operating field with an electronic unit for controlling the brightness and radiation spectrum of the illumination of the operating field; 6 - a highly sensitive video camera equipped with a zoom lens 7; 8 - control system, analysis and registration of the image; 9 - control module aiming laser; 10 - control module of the working laser; 11 is a module for controlling the brightness of the radiation and the emission spectrum of a multispectral LED illuminator connected to the LED illuminator; 12 - module control zoom lens; 13 - module recording R, G, B of the video camera signals, the input of which is connected to the output of the video camera 6; 14 - module for the joint analysis of R, G, B (“red”, “green” and “blue”) signals of the video camera, the input of which is connected to the output of the module for recording signals of the video camera 6; 15 is a display system; 16 - the object of irradiation.

A laser device for treating dystrophic diseases of the female genital organs contains (Fig. 1) a working laser 1, an aiming laser 2, an optical system 3 for delivering radiation from a working and aiming laser, a colposcope 4 with an operating field illumination system based on a multispectral LED illuminator 5 and a video monitoring system, including a highly sensitive color video camera 6 with a zoom lens 7, a control system, image analysis and recording 8, including a module 9 control the aiming laser 2, mod ul 10 controls the working laser 1, connected respectively to the aiming 2 and working 1 lasers, a module 11 for controlling the radiation brightness and emission spectrum of a multispectral light guide 5, connected to the LED light 5, module 12 for controlling the zoom lens 7, module 13 for recording R, G , B of the signals of the video camera 6, the input of which is connected to the output of the video camera 6, and the module 14 for the joint analysis of R, G, B of the signals of the video camera 6, whose input is connected to the output of the module 13 for recording signals of the video camera 6, image 15, the input of which is connected to the output of module 14 of the joint analysis of R, G, B signals. In the process of treatment, the radiation of the working laser 1 and the target laser 2 through the optical system 3 irradiates the radiation object 16.

A laser device for the treatment of degenerative diseases of the female genital organs works as follows.

The radiation from the working 1 and sighting 2 lasers is introduced into the optical system 3 for delivering laser radiation to the irradiated object 16. The colposcope 4 of the device is equipped with a highly sensitive video camera 6 with a zoom lens 7, which is controlled by the control module 12, which allows color images with different magnifications on the screen to be formed display system 15. The display system 15 provides an image recording in real time and in a storage mode with the possibility of subsequent viewing of the taken pictures on the screen. The multispectral LED illuminator 5, the spectrum and brightness of which is controlled by module 11, in combination with the module 13 for joint analysis of the R, G, B signals of a high-sensitivity video camera, provide, thanks to special mathematical processing, the necessary level of contrast of the irradiated object on the surgical field.

The treatment process consists in the thermal effect on the infected mucous membrane that occurs during laser irradiation of a laser-contrast substance applied to pathological areas of the biological tissue. A significant and fundamental difference between the method and the known ones used in gynecology is the use of laser radiation in the field of transparency of biological tissues (0.6-1) μm, together with the absorbing laser contrast material, which allows almost completely eliminating uncontrolled damage to biological tissues in the absence of a laser-contrasting substance. The area of destruction of biological tissue as a result of a thermochemical reaction at the site of laser irradiation due to the release of thermal energy completely coincides with the area of application of the substance, without affecting the "unfilled" area. Injury to underlying tissues (submucosal layer, vascular masses, nerve endings) is minimal. A colposcope with a television camera allows you to receive a real-time image on the monitor (if necessary, on multiple monitors) and several doctors to participate in the examination simultaneously.

During the irradiation, the laser-contrasting substance is removed from the surface of the biological tissue and from this moment the thermal effect on the biological tissue in this area practically ceases.

The laser device can be used to treat diseases of the female genital area, in particular for the treatment of degenerative diseases of the cervix, vagina, vulva.

Claims (3)

1. A laser device for the treatment of dystrophic diseases of the female genital organs, including a working laser, an aiming laser, an optical delivery system for working and aiming laser radiation, a colposcope with an operating field illumination system and a video monitoring system, characterized in that the operating field illumination system is a multispectral LED illuminator, video monitoring system includes a highly sensitive color video camera with a zoom lens, the device additionally with Holds a control, analysis and recording registration system, including a working laser control module, an aim laser control module, connected to a working and aim laser, a radiation brightness and emission spectrum control module for a multispectral LED illuminator, connected to an LED illuminator, and a zoom lens control module, a registration module R, G, B of the video camera signals, the input of which is connected to the output of the camera, and a joint analysis module R, G, B of the signals okamery having an input coupled to an output module camcorder registration signals, a display system, whose input is connected to the output of a joint analysis unit R, G, B signals. 2. The laser device according to claim 1, characterized in that the working laser operates in a continuous mode. 3. The laser device according to claim 1, characterized in that the working laser operates in a pulsed mode with a fill factor from the range of 5-90%.

Images