RU136723U1 - DEVICE FOR TREATMENT OF GENITAL PAPILOMAVIRUS INFECTION - Google Patents

Abstract

1. Device for the treatment of genital papillomavirus infection, including a laser with a wavelength of radiation from the range of 0.8-1.1 μm, operating in continuous mode, characterized in that the device further comprises a system for the formation of the spatial distribution of laser radiation and an applicator, a flat distal end which is coated with an absorbing chromophore layer, the system for forming the spatial distribution of laser radiation creates a distribution on the surface of the absorbing chromophore layer facing the applicator Leniye laser energy in accordance with a zone of spread papilomavirusnoy infection, the laser power is 25 W, the irradiation dose of the laser is in the range of 100-150 J / see 2. The device according to claim 1, characterized in that the laser output is connected by a light guide to the input of the system for forming the spatial distribution of laser radiation. The device according to claim 1, characterized in that the transparent applicator for laser radiation with a wavelength of 0.8-1.1 μm is used.

Description

The utility model relates to medicine, and can be used to treat and prevent relapses of manifestations of papillomavirus infection on the mucous membranes and skin of the anogenital area (cervix, vagina, vulva, perianal zone) by laser destruction of papillomatous lesions. This procedure, as a rule, is carried out using a colposcope and the doctor has the ability to change the direction of the laser beam in a controlled manner, acting only on his chosen pathological zones and avoiding exposure to healthy tissues.

The closest analogue to the proposed is a device for laser treatment of background and precancerous diseases of the cervix [Patent for the invention No. 2330630]. The known device includes a continuous laser with a radiation wavelength of 1.06 μm and an energy flux density on the irradiated biological tissue in the range of 300-600 J / cm ² and a system for generating the spatial distribution of the laser beam. Laser radiation in a known device irradiates a layer of carbon dye deposited on the surface of a biological tissue, heats it and initiates thermal coagulation of the biological tissue. After the carbon dye is burned and removed from the surface of the biological tissue, the laser spot is moved to an adjacent area until the carbon dye is completely burned and removed from the surface of the biological tissue.

A disadvantage of the known device is the heterogeneity of the effect of laser radiation over the entire surface of the affected organ due to the inability to ensure uniform thickness of the carbon dye layer deposited on the surface of the biological tissue, and the inability to ensure uniform focus and power density of the laser radiation over the entire surface of the dye, which is associated with a three-dimensional profile and surface structure of biological tissue.

The technical result of this utility model is to increase the efficiency of the treatment process by increasing the uniformity of the effect of laser radiation over the entire affected surface of the organ and reducing the likelihood of laser damage to unaffected biological tissue.

The specified technical result is achieved in that the device for the treatment of genital papillomavirus infection, including a laser with a wavelength of radiation from the range of 0.8-1.1 μm, operating in a continuous mode, a transparent applicator with a flat distal end coated with a layer of an absorbing chromophore, further comprises a system for the formation of the spatial distribution of laser radiation, which creates on the surface of the layer of the absorbing chromophore facing the applicator the distribution of laser energy in accordance obstacle to the spread area papilomavirusnoy infection, the laser power is 25 W, the laser irradiation dose is in the range of 100-150 J / cm ^2.

The specified technical result is also achieved by the fact that the laser output is connected by a fiber to the input of the system for the formation of the spatial distribution of laser radiation.

The specified technical result is also achieved by the use of a transparent applicator for laser radiation with a wavelength of 0.8-1.1 microns. The essence of the utility model is illustrated in Fig. 1, where: 1 - the applicator, 2 - the flat distal end of the applicator, 3 - the layer of the absorbing chromophore, 4 - the system for the formation of the spatial distribution of laser radiation, 5 - the light guide, 6 - the laser, 7 - the processed surface of the biological tissue.

The claimed device operates as follows.

The applicator 1 with a uniform flat layer of absorbing chromophore 3 applied to its flat distal end 2 is pressed against the biological tissue 7. In this case, the biological tissue takes the form of a distal end, that is, it becomes flat. This makes it possible to equally focus the laser radiation over the entire surface of the absorbing chromophore and the same heating over the entire processed surface of the biological tissue. Set the operating parameters of the laser 6 of the proposed device: power density 5-10 W / cm ² and the exposure time, based on the permissible dose of laser radiation of 100-150 J / cm ² . Laser radiation is introduced into the optical fiber 5, which delivers the laser radiation to the input of the system for the formation of the spatial distribution of laser radiation 4, which provides the ability to adjust the size of the laser spot. After passing through the spatial distribution formation system, the laser radiation passes through the applicator and enters the layer of the absorbing chromophore, heating it and initiating thermal coagulation of the biological tissue. After laser exposure with a given dose of radiation, the laser radiation is automatically turned off.

With the parameters of laser radiation selected according to the proposed utility model, the effect of radiation directly on a healthy biological tissue is minimal from the point of view of damage, because absorption in it is small, and the energy flux density is insufficient for such damage. The application of the chromophore to the end face of the applicator makes it possible to provide the required thickness and uniformity of the layer of the absorbing chromophore in contact with the mucous surface of the pathological area of the biological tissue over the area.

The proposed device can be successfully used to eliminate (remove) human papillomavirus from the surface of the cervical mucosa, not only with already colposcopically observed picture of the erosive surface of the cervix, but even at the initial stage of the diagnosis of viral infection, when there are no visual changes. This allows you to increase the effectiveness of the treatment process and allows you to successfully vaccinate patients who underwent the elimination of human papillomavirus.

Claims (3)

1. A device for the treatment of genital papillomavirus infection, including a laser with a wavelength of radiation from the range of 0.8-1.1 μm, operating in continuous mode, characterized in that the device further comprises a system for forming a spatial distribution of laser radiation and an applicator, a flat distal end which is coated with an absorbing chromophore layer, the system for forming the spatial distribution of laser radiation creates a distribution on the surface of the absorbing chromophore layer facing the applicator Leniye laser energy in accordance with a zone of spread papilomavirusnoy infection, the laser power is 25 W, the irradiation dose of the laser is in the range of 100-150 J / cm ^2. 2. The device according to claim 1, characterized in that the laser output is connected by a light guide to the input of the system for forming the spatial distribution of laser radiation. 3. The device according to claim 1, characterized in that the transparent applicator is used for laser radiation with a wavelength of 0.8-1.1 μm.

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