RU2548141C1 - Method of treating new growths of anterior visual organ and device for implementing it - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method of treating new growths of anterior visual organ consists in applying spray cryotherapy and contacting a cryoapplicator tip to an exposed region with forced air circulation in the working area. The air circulation in the working area is performed by air injection with the tip provided with a forcibly size-varied outlet. An adjustable, metered air jet has a target and successive effect on the healthy tissues adjoining the cryotherapy regions as far as they are cryoirrigated. An air injection device comprises an air source for air injection and an air spray outlet tip. The tip is made of a flexible material, placed into a groove and has a free outer surface opposite the groove contacting a cam placed on a spring-loaded cantilever arms attached to the body of the device.

EFFECT: improving the method.

2 cl, 1 dwg, 1 ex

Description

The invention relates to medicine, namely to ophthalmology, and can be used to treat neoplasms of the anterior organ of vision.

A known method of treating neoplasms (see the description of the invention to patent No. 2291673 from 08/09/2005), which consists in carrying out cryotherapy in the form of a spray jet of a vapor-liquid mixture, followed by contacting the tip of the cryoapplicator with the affected area and performing forced air circulation in the working area. Despite the fact that the known method is intended for cryogenic treatment of cervical diseases, this method has more common features with the method proposed by the authors than all known methods for performing the same treatment, therefore, it is taken as a prototype of the present invention.

Known device for pumping air (see the description of the invention to patent No. 2291673 from 08/09/2005), including a source for pumping air and a tip for the exit of a jet of air.

A disadvantage of the known method and device is the low efficiency of the treatment of neoplasms in the known method due to the possibility of damage to healthy tissues adjacent to the cryotherapy zone. In this treatment, forced circulation of the air supplied by the air injection device and removed by means of a vacuum cannula located on the opposite side from the visualization side of the procedure is performed. Despite this, the areas adjacent to the cryogenic zone of healthy tissues, which were sprayed by drops from the spray jet and which must be urgently removed from these areas, are not blown off immediately after cryotherapy. In this method of treatment, this is impossible due to the constructive implementation of the device for supplying air to the cryogenic area and the cannula for its removal, as well as due to the procedure in a cramped, limited space, open only on one side for input of instruments and manipulations and from - for the difficult visualization of the operational process. In the known method, forced air circulation is performed in the vaginal cavity by supplying air from the visualization side of the procedure to the tip of the cryotool and actively aspirating air from the cavity, positioning the cannula of the suction device closer to the surface of the pathological focus compared to the level of the end face of the tip of the device for air injection. In this case, the air suction rate is higher than the air supply rate. In addition, in the known method, the depth of freezing is greater, the degree of cryotherapy is higher, the time of cryotherapy is longer, which is due to the structure of the tissues of the affected surface and the specific treatment of diseases of the cervix, because after spontaneous thawing, repeated cryotherapy is performed with a 2-3-fold increase in the number of exposure pulses, then, after thawing, “point” cryotherapy is performed with a 2-3-fold repetition of such applications in each pre-designated area after a 1-2-fold repeated I freeze-thaw cycles, therefore in this known process, and carry out forced air circulation. However, despite the presence of forced air circulation, in this known device it is impossible to carry out consistent, targeted blowing of healthy tissue adjacent to the cryotherapy zone and subjected to cryotherapy, precisely in the required place, changing the angle of inclination, the quantity and intensity of the jet of supplied air to the blown zone.

Our invention solves the problem of developing a new method for the treatment of neoplasms of the anterior organ of vision and a new device for its implementation. The technical result obtained in this case consists in increasing the efficiency of the operation due to the possibility of preventing damage to healthy tissues adjacent to the cryotherapy zone. This was made possible by blowing air into the nitrogen droplets that had fallen on healthy tissue sites surrounding the cryogenic area in order to evacuate these nitrogen droplets, which prevents overcooling and damage to healthy tissues. Moreover, this blowing is carried out sequentially, purposefully in the desired place, subject to cryotherapy, changing the angle of inclination, the quantity and intensity of the jet of supplied air to the blown zone, which is individually determined in each case, depending on the size, location, histogenesis and degree of malignancy of the neoplasm. None of the previously known methods for treating eye diseases provided the same technical result as our proposed method and device for its implementation, and this positive effect is directly related to the features that we included in the distinguishing part of the claims on the method and device. There is an inextricable link between the distinguishing features of the method and device and the technical result obtained through these signs. It is also necessary to keep in mind that with the proposed method, together with a device for its implementation, it is possible to treat neoplasms of the anterior organ of vision of various histogenesis, malignancy, localization and size. In general, our invention allows us to significantly reduce the likelihood of unwanted trauma to the healthy tissue surrounding the area of cryotherapy. During the entire period of cryotherapy, the surgeon is able to visually observe the surface subjected to cryotherapy, can assess the state of the surface of the newly formed and surrounding tissues, decide on the need to blow around the tissues surrounding the surgical field to prevent damage. At the doctor’s command, the assistant regulates the air flow according to pressure, volume, direction and time of exposure, and the doctor assesses the condition of surfaces subjected to cryotherapy. The design of our proposed device for pumping air with a tip equipped with a forced-to-size outlet, allows using the proposed method to provide a new technical result.

The specified technical result is achieved by the fact that in the method of treating neoplasms of the anterior organ of vision, which consists in carrying out cryotherapy in the form of a spray jet, followed by contacting the tip of the cryoapplicator with the affected area and performing forced air circulation in the working area, air circulation in the working area is carried out using devices for air injection with a tip equipped with a forcedly sized outlet, while adjustable, dosed the second stream of air acts purposefully and consistently on healthy tissues adjacent to the cryotherapy zone as they cryoirrigate. The specified technical result is also achieved by the fact that in the device for pumping air, including a source for pumping air and a tip for exiting the air stream, the tip is made of flexible material, placed in the groove and contacts the opposite outer groove with a free outer surface with a cam placed on a spring-loaded cantilever arm mounted on the device case.

The invention is illustrated by the drawing, which shows the proposed device in a perspective view.

A device for pumping air in the treatment of neoplasms of the anterior organ of vision includes a source 1 for pumping air and a tip 2 for the exit of a jet of air. The tip 2, made of flexible material, is placed in the groove 3 and contacts the opposite groove 3 with a free external surface with the cam 4. The cam 4 is placed on a spring-loaded cantilever lever 5 mounted on the device body.

A method for the treatment of neoplasms of the anterior organ of vision is as follows.

First, the size of the neoplasm and its localization are determined, i.e. area of cryotherapy, then anesthesia is performed. To perform anesthesia, instill in the conjunctival sac 1 drop 3 times with an interval of 1-2 minutes, 0.5% alkain solution for children and 1% for adults. Against the background of epibulbar anesthesia, a tip of the required size is installed in the cryoapplicator in accordance with the size of the neoplasm, the cryoapplicator is filled with liquid nitrogen, and then cryogenic is performed using a small-sized cryoapplicator. Cryotherapy is carried out first in the form of a spray jet, bringing the tip closer to the surface to be treated until a well-defined, stable freezing zone is obtained, then the cryoapplicator tip is permanently contacted with the affected area, after which the cryotherapy is completed. From the beginning of cryotherapy and until its completion, additional blowing is carried out with air supplied by source 1 for pumping air, zones of the area of influence and healthy tissues surrounding the surgical field from the forcedly sized outlet of tip 2 of the device for pumping air. To regulate the jet, changing its intensity and the amount of air supplied to the blown zone act on the cam 4, mounted on a spring-loaded cantilever lever 5, mounted on the device. In turn, the cam 4 interacts with the free outer surface of the tip 1, made of flexible material and placed in the groove 3, changing the size of the outlet of the tip 2. At the same time, an adjustable, dosed air stream acts purposefully and sequentially on healthy tissues adjacent to the cryotherapy zone as their cryoirrigation. A stream of air directed to the areas surrounding the operative field evaporates and removes drops of liquid nitrogen from the surface of healthy tissues that are not subject to cryotherapy. If necessary, cryotherapy is repeated in the same sequence.

Clinical example

Patient S., born 1998

Diagnosis: progressive pigmented nevus of the conjunctiva, limb OD. Objectively: OD - on the conjunctiva of the sclera and limbus at 9 o’clock an unevenly pigmented, with uneven borders, 7 × 6 × 1.5 mm neoplasm with large supply vessels is determined. The neoplasm began to develop about 5 years ago, the last 2 years increased more intensively.

The patient was prescribed a course of combined treatment consisting of a cryotherapy session of the neoplasm followed by application of brachytherapy using an ophthalmic applicator C - 1 ( ⁹⁰ Sr). The patient underwent a cryotherapy of the neoplasm on the OD as follows: blepharostat was applied under mask anesthesia, after performing instillation anesthesia with 0.5% alkaine, the area of the neoplasm was 3 times dried with a gauze cloth. From a cryoapplicator with a tip having a micro-hole, a stream of gaseous-liquid nitrogen was supplied to the surface of the newly formed tissue. The tip of the cryo-applicator was brought closer to the operated surface at a distance of 1 to 3 mm, then after the formation of the freezing zone, the tip of the cryo-applicator was permanently contacted with the affected area. From the beginning of cryotherapy and until its completion, additional blowing was carried out with air supplied by source 1 for injecting air, the zone of the area of influence and healthy tissues surrounding the surgical field from the forcedly sized outlet of tip 2 of the device for pumping air. To regulate the jet, change its intensity and the amount of air supplied to the blown zone acted on the cam 4, placed on a spring-loaded cantilever lever 5, mounted on the device. In turn, the cam 4 interacted with the free outer surface of the tip 1, made of flexible material and placed in the groove 3, changing the size of the outlet of the tip 2. At the same time, an adjustable, dosed air stream acted purposefully and sequentially on healthy tissues adjacent to the cryotherapy zone as their cryoirrigation. A stream of air directed to the areas surrounding the operative field evaporated and removed droplets and splashes of liquid nitrogen from the surface of healthy tissues that were not subject to cryotherapy in order to protect them from unwanted cooling and damage. To obtain a stable freezing zone over the entire surface and deeper layers of the newly formed tissue, a stopwatch was switched on and such a zone was maintained for 60 seconds using both the spray method and short-term, repeated contact of the cryoapplicator tip with the neoplasm surface. In this case, a blown air stream was supplied continuously during the entire cryosurgical intervention, helping to reduce trauma to surrounding tissues and reducing the likelihood of an undesirable adhesion-sticking effect of the cryoapplicator tip to the neoplasm surface.

At the end of the procedure, saline was liberally installed in the eye, after a 3-minute break the procedure was repeated in the same sequence.

After performing a cryotherapy session, consisting of two procedures for freezing newly formed tissue for 60 seconds each, the eye was washed with saline, a tetracycline ointment was applied and a bandage was applied, and two hours later they started brachytherapy.

After 3 months, an examination was performed after combined treatment: OD - complete resorption of the pigmented nevus of the conjunctiva, limbus, no complications were detected.

Claims (2)

1. A method of treating neoplasms of the anterior organ of vision, which consists in carrying out cryotherapy in the form of a spray jet, followed by contacting the tip of the cryoapplicator with the affected area and performing forced air circulation in the working area, characterized in that the air is circulated in the working area using a device for air injection with a tip equipped with a forcedly sized outlet, while an adjustable, metered air stream acts enapravlenno and successively on adjoining area cryoexposure healthy tissue as they krioorosheniya. 2. A device for pumping air, including a source for pumping air and a tip for exiting the air stream, characterized in that the tip is made of flexible material, is placed in the groove and contacts the opposite outer groove with a free outer surface with a cam placed on a spring-loaded cantilever arm fixed to device case.