RU2269329C1 - Group radon procedures inhalatorium - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: inhalatorium can be used in city and town medicinal-prophylactic and sanatorium-resort institutions. Fractional bottle containing water concentrate of radon is disposed in dry box inside technical section. Bottle is provided with plug with two glass pipes - one lone and one shorter. Longer pipe reaches bottom of bottle and it is connected with microprocessor. Shorter pipe is connected with radon conduit, which leads to airtight chamber. For additional saturation of air with radon, evaporator filled with water concentrate of radon is mounted inside chamber. Evaporator is provided with capillary and ultrasonic head. Air is cleaned from daughter pollution of radon, there is re-circulation device inside the chamber. The re-circulation device is made in form of a basket. The basket having inlet and outlet holes at opposite sides. The re-circulator has electric fan and filter. Air-radon mixture can be introduced into chamber till reaching preset concentration to be kept to the same level during the whole procedure. Chamber can be cleaned simultaneously from daughter pollution.

EFFECT: higher safety of radon introduction into chamber; improved precision of procedure.

2 dwg

Description

The invention relates to medicine, namely to medical equipment, and can be used in urban health care and sanatorium institutions.

The relevance of the invention lies primarily in the fact that, given the significant expansion of indications for radon therapy and radonoprophylaxis (Razumov AN and others // Vopr. Kurortol., 2001, No. 5, p. 47-50; Gusarov I. I. et al. // Ibid., 2002, No. 2, pp. 46-47; Luckey Th.D. // Nutr. And Cancer. - 1999. - Vol. 34, No. 1. - P.1-11 ) it allows you to increase the throughput of the procedures, does not depend on the season, on the availability of natural sources of radon and opens the way to the highly effective method of radon inhalation, which was not previously used in the USSR and the Russian Federation; Artificially prepared aqueous concentrate of radon is used in the procedures and radiation safety of both patients and staff is ensured.

Mining with a high content of radon in the air can serve as an analogue of the invention, where patients are treated with radon inhalations, for example, in Austria at the Bad Gastein spa (Gusarov II Radonoteralia. - M., 2000) and at some other foreign resorts. The disadvantages of the operation of the analogue are: binding procedures to the area where there are mothballed mines (adits) with a certain content of natural radon; the need to go down to the shaft by elevator; dependence on air temperature in the mine; possible content of harmful impurities in the air of the mine; the difficulty of maintaining the therapeutic or prophylactic concentration of radon in the mine’s operating compartment.

The prototype of the present invention can be considered a model of the box-emanatorium, in which an air-radon mixture is supplied from a bottle to create a given concentration of radon. The idea of boxing was described theoretically (Shchepotieva ES // Fundamentals of balneology - M., 1956. - T.1. - p.285-288), but was not implemented.

The disadvantage of this device is: the imperfection of the box and containers for the preparation of the air-radon mixture; the entry of radon into the air of boxing both during initial filling and during refueling from one source; low accuracy of dosing of radon manually using a tap; issues of purification of boxing air from radon daughter products and ensuring radiation safety of personnel when working with this device were not taken into account.

The technical result of the invention is the possibility of a simpler, more accurate and radiation-safe introduction into the chamber of the inhalation of an air-radon mixture to a predetermined concentration, followed by maintaining it at the same level throughout the procedure and purifying the chamber air from daughter radon products.

The specified technical result is achieved using a portion bottle with a radon water concentrate, located in a fume hood in the technological compartment, equipped with a cork with two glass tubes: a long one, reaching the bottom of the bottle and connected to a microcompressor, and a short one connected to a radon conduit leading to a procedural hermetic chamber, and for air saturation with radon in the chamber, an evaporator with an aqueous radon concentrate is installed, equipped with a capillary and an ultrasonic head, while for purifying air from of black radon products, a recirculation device is installed in the chamber in the form of a box having inlet and outlet openings at opposite ends and containing an electric fan and a Petryanov filter; outside the chamber there is a compartment for a nurse with a remote control for turning on / off the inhalation devices, as well as a ventilation device for ventilating the camera after the procedure.

Description of the device inhalation.

The inhalation (see diagram, Fig. 1) consists of a treatment chamber (1) and utility rooms: through the vestibule (2) - a compartment for a nurse (3), in the second technological compartment (4) there is a fume hood (5).

In the fume hood there is placed (Fig. 2) a standard portioned flask (6) containing a predetermined aqueous radon concentrate, which is equipped with a microcompressor (7) and a cork (8) with two glass tubes - long (9), reaching the bottom of the flask, and short tap (10) connected to the radon conduit (11) leading to the treatment chamber; all elements of the system located in a fume hood are under lead protection.

The inhalation chamber contains (Fig. 1): a household water evaporator (12) equipped with a capillary and an ultrasonic head and having a predetermined radon concentrate in its capacity, and a recirculation device in the form of a box (13) containing an electric fan (14) and a Petryanov filter (15) and having inlet and outlet openings at opposite ends. The chamber has furniture (table, chairs, armchairs, couch) for patients.

Outside the inhalation chamber, there is a ventilation unit of any design (16). In the nurse’s compartment there is a remote control for turning on the microcompressor, evaporator, filter electric fan and ventilating ventilation unit, as well as a clock and a counter-radio dosimeter.

Description of work inhalation.

Prior to the procedure (see the diagram), a portion bottle (6) is placed in a fume hood (5), filled with an aqueous concentrate of radon of a given activity; it is closed by a stopper (8) with two glass tubes. A microcompressor (7) is attached at the outer end of the long tube (9), and the short outlet tube (10) is connected to the radon conduit (11) leading to the treatment chamber (1). Patients through the vestibule (2) go into the cell and sit there on request in chairs, armchairs, etc. in ordinary clothes. When the microcompressor (7) is turned on, air under pressure is passed through the aqueous concentrate of the flask and saturated with radon, after which the air-radon mixture fills the chamber volume through the radon line (11) within 2-3 minutes.

Turning on the microcompressor (7), the nurse detects the start time of the procedure, and after 2-3 minutes turns off the microcompressor and turns on the evaporator and filter fan. In the evaporator (12), dropwise, through the capillary, the aqueous radon concentrate enters the ultrasonic head, which vaporizes it and feeds it into the air of the chamber, which provides for multistage mechanical regulation of the volume of the radon aqueous concentrate to the ultrasonic head. The required concentration of radon in the vessel of the evaporator is selected experimentally taking into account the decrease in the activity of radon in the air of the chamber during its continuous operation. The recirculation device in the duct (13) drives the air of the chamber through the Petryanov’s filter (15) through the Petryanov’s filter (15), purifying it of the radon daughter products that accumulate during the procedure; for complete air purification requires seven times passing it through the filter for 1 hour of operation.

At the end of the procedure, the nurse turns off the evaporator and the recirculation device and turns on the chamber ventilation (16), after which the patients go outside through the vestibule and the door in the nurse's compartment.

Air purification of the chamber from daughter products of radon is necessary, since they are filtered in the lungs of patients and create irradiation that is unnecessary for the procedure.

When developing standard procedures for radon inhalation for various purposes (prevention, treatment), it is necessary to measure the concentration of radon in the air of a specific chamber with a given cubic capacity, regulating the flow of radon from the utility room and the intensity of saturation with an ultrasonic evaporator. Equivalent equilibrium activity of radon is measured by a device of the type "RAA-10". During operational use of the inhalation system, the need for continuous measurement of radon activity disappears, and the device is used periodically to monitor the health of the system.

It should be remembered that in order to comply with the parameters of the procedure, only the concentration of radon and the length of stay of the patients in the inhalation chamber are important. Compliance with the required concentration (and radon consumption) depends on the cubic capacity of the chamber, and the concentration and duration of the procedure and course are determined by the prescription of the doctor depending on the purpose (treatment of any disease or primary prevention of healthy morbidity - all taking into account age).

Indications and contraindications for radon inhalation are the same as for other radon procedures. Optimum therapeutic dosages: 40-80 kBq / m ³ , prophylactic: 4-8 kBq / m ³ .

An example of calculating the necessary activity of radon to ensure a given dosage in the air of an inhalation chamber with a volume of 90 m ³ (5 × 6 × 3) for 5-10 patients. The target concentration of radon is 40 kBq / m ³ . The total amount of radon needed to create a given concentration of radon in the volume of this room is 40 × 90 = 3600 kBq. An aqueous radon concentrate in a radon laboratory is prepared with an activity of 120-150 kBq / ml. Therefore, it is required to add 24.3-29.7 ml of an aqueous concentrate of radon to a 100 ml batch flask, then connect it with a tube plug to the microcompressor, which will transfer all radon from the batch flask to the chamber room volume.

The proposed inhalation for group radon procedures allows you to strictly dose the radon content during the initial filling of the chamber, maintain the specified activity during the procedure, clean the chamber air from daughter products of radon, ventilate the chamber between procedures, which at the same time achieves radiation safety of patients, and when using the remote control, staff safety.

Treatment in radon adits is inaccessible and expensive (in Russia there are practically no suitable adits). The organization of inhalation using artificially prepared aqueous concentrate of radon is technically and economically more effective, allows you to create them not only in resorts, but also in extra-resort conditions and use them both for the prevention of various diseases (primarily cancer), taking into account the effect of radiation hormesis, and for the treatment of patients with different pathologies.

Currently used medical radon procedures are mostly individual in nature, which is associated with certain costs of material and time. They justify themselves in treating patients, but are less cost-effective for mass radonoprophylaxis. On the contrary, it is economically more profitable to use radon inhalations for group preventive procedures, although with the correct selection of groups of patients indicated for radon therapy (similar in prescribed dosages and some other characteristics), treatment sessions can also be carried out in an inhalation.

The development of a network of radon inhalers is of great medical and socio-economic importance, it will revitalize the work of sanatoriums and other medical institutions and can make a significant contribution to the health of the Russian population.

Claims (1)

An inhaler for carrying out group radon procedures, comprising a sealed treatment chamber, characterized in that it further comprises a technological compartment with a fume hood, a ventilation device and an evaporator with radon water concentrate, equipped with a capillary and an ultrasonic head, and a recirculation device in the form a box having an inlet and an outlet and containing an electric fan and a Petryanov filter, while a batch is installed in the fume hood a bottle with an aqueous concentrate of radon, equipped with a cork with two glass tubes - a long one connected to a microprocessor and a short one connected to a radon conduit leading to the treatment chamber.

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