RU2003184C1 - Apparatus for simulating bronchial asthma - Google Patents

Abstract

Usage: experimental equipment, scientific research on the development of methods for the diagnosis and treatment of bronchopulmonary pathology Summary of the invention: the device includes a housing with a cover for accommodating animals, an ultrasonic inhaler, an air supply device with inlet and outlet nozzles, an oxygen supply source, a pressure sensor connected to the cavity of the housing, and a chamber located in the bottom of the housing for one of the animals under study, equipped with electrodes for recording respiratory excursions connected by means of a rheoplethysmograph with a recorder of ventilation indicators of bronchial patency, the inhaler additionally contains means for supplying bronchodilator preparations into the body cavity, a diaphragm is installed in each of the nozzles, which has means for adjusting the passage section of its openings, the body and camera are made of organic glass and the latter has a movable partition. 1 ill.

Description

The invention relates to an experimental technique, namely, devices for simulating bronchial asthma, and can be used in scientific research to find and develop new, more effective methods for the diagnosis and treatment of bronchopulmonary pathology.

A device for simulating bronchial asthma is known which consists of a wooden box for experimental animals, a nebulizer for producing allergen aerosols using compressed air, a water-jet pump for circulating air and removing aerosols from the chamber.

However, this device does not allow the rapid formation of stable signs of bronchial obstruction; due to the lack of dosage, the allergen aerosol does not provide modern revitalization of animals due to the impossibility of injecting oxygen into the chamber and precisely dosing therapeutic aerosols. This device does not provide for measuring ventilation parameters of bronchial permeability of laboratory animals while studying the effects of allergen aerosol on them, and does not contain means for supplying bronchodilating drugs. It is bulky, accommodates only three animals. A village camera makes it difficult to observe animals1

A device for measuring respiration parameters of laboratory animals is known, comprising a housing with a movable conical part, a clamp in the form of insulated electrodes on the inner surface of the conical part, and a recording device with a sensor at the smaller base of the conical part.

A disadvantage of this device is the discomfort of a fixed animal, which reduces the reliability and accuracy of measuring respiratory fluctuations. Moreover, only respiratory rate, which does not characterize differentially impaired bronchial obstruction, can be measured. The device accommodates one animal, and low throughput lengthens the duration of the test.

The purpose of the invention is to increase the accuracy of reproduction of the clinical variant of bronchial asthma, the possibility of revitalizing animals, providing a metered supply of oxygen to the chamber, simultaneous recording of bronchial patency indicators,

The goal is achieved in that in a device for simulating bronchial asthma, to increase the accuracy of reproduction

a clinical variant of bronchial asthma and the possibility of revitalizing animals in life-threatening conditions, an additional oxygen supply source, a pressure sensor, and a chamber for one of the animals under study, equipped with electrodes for recording respiratory excursions, connected via a repletemograph with a recorder of ventilation indicators of bronchial patency; the inhaler further comprises means for supplying bronchodilator drugs to the body cavity, in each of the nozzles there is a diaphragm having means for regulating the passage section through its openings. The housing and the chamber are made of organic glass and the latter has a movable partition.

In prior art solutions with similar features, we will consider a bronchial asthma simulator which consists of a wood box. Similar features are the presence of a sealed enclosure with a lid for placing animals, an ultrasonic inhaler for feeding allergen aerosol into the cavity of the enclosure, and an air supply device with inlet and outlet nozzles.

The known device is intended only to supply air and allergen to the chamber. The inventive device, in addition to supplying allergen to the body cavity, further comprises an oxygen supply source connected to the body cavity, a pressure sensor and a chamber for one of the test animals located in the bottom of the body, equipped with electrodes for recording respiratory excursions connected via a reoplethysmograph with a valve recorder tion indicators of bronchial patency, and the ultrasonic inhaler additionally contains means for supplying bronchodilating “drugs to the body cavity; at the same time, a diaphragm is installed in each of the nozzles with means for regulating the bore of its openings. All parts of the device are interconnected and significantly increase the accuracy of reproduction of the clinical variant of bronchial asthma and the possibility of revitalizing animals in life-threatening conditions. In addition, to realize the latter property, the housing and chamber are additionally made of organic glass and the latter has a movable partition. The properties are different, which means that the claimed device meets the criterion of significant differences.

The drawing shows the proposed device.

The device contains an ultrasonic inhaler (1), a volumetric respirator (2) connected through an inlet pipe (3) and a diaphragm (4) with an external chamber (5), in the opposite side wall of which the end of the outlet pipe (6) is sealed with a diaphragm ( 7), connected to a powerful aspirator (8) and outlet pipe (9), The internal single chamber (10) is equipped with a movable partition (11} to communicate with the space of the external chamber (5). outer part of pressure sensor (13), electric wires rods (14) connected to the inner chamber and connected to the repletismograph (15), the output of which is connected to the input of the recorder - Elkar apparatus (16) for recording ventilation indicators.

The device operates as follows.

An ultrasonic inhaler 1, a volume respirator (2) are turned on, air begins to flow through the inlet (3) and the open diaphragm (4) into the chambers (5, 10). Test animals (guinea pigs) in the amount of 10 individuals are placed in the first chamber (5). Electrodes (14) are placed on one of them and the animal is placed in the second chamber (10), the partition of which (11) is moved closer to the animal. Close the first chamber (5) with a sealed cover (12). After the animal is adapted to the electrodes, the recorded respiratory parameters are calibrated using a rheoplethysmograph and an Elkar apparatus.

The pressure in the chambers is adjusted with the diaphragms (4, 7-) by the volumetric respirator adjustment knobs (2) and a stable pressure of 20-25 mm water is achieved. Art. the slightly open outer end of the outlet pipe (6) that attaches to the aspirator (8). The outer end of the outlet pipe (9) communicates with atmospheric air. In the dual chamber under

Claims (1)

The claims A device for simulating bronchial asthma, comprising a sealed enclosure with a lid for placing animals, an ultrasonic inhaler for feeding allergen aerosol into the cavity of the enclosure, an air supply device with inlet and outlet nozzles, characterized in that, for the purpose of A fine aerosol of allergen is supplied by air pressure, the amount of which is strictly dosed by an ultrasonic inhaler. Air pressure in a double chamber of 20-25 mm of water. Art. maintained at the same level by adjusting the opening of the diaphragms (4.7) and periodically turning on the aspirator (8). The signal of respiratory fluctuations of the animal arrives at rheoplethysmograph (15) and is recorded using the Elkar apparatus (16). With severe life-threatening animal bronchospasm, aspiPODODv is activated (8), the diaphragm (7) of the outlet pipe (b) opens, the allergen solution is removed from the ultrasonic inhaler (1), and oxygen, a solution of zuspira, adrenaline or bronchodilator are dosed into the double chamber drug hydrocortisone emulsions. After completion of the experiment, the allergen aerosol is removed using an aspirator (8) through the nozzle (9). Testing of the proposed device provides a significant increase in the accuracy of reproduction of the clinical variant of bronchial asthma and the possibility of revitalizing animals in life-threatening conditions The goal is realized by that the claimed device further comprises an oxygen supply source, a pressure sensor and a chamber located at the bottom of the housing connected to the cavity of the housing for one of the test animals, equipped with electrodes for recording respiratory excursions, connected by means of a rheoplethysmograph with a recorder of ventilation indicators of bronchial patency, the inhaler additionally contains means for supplying bronchodilator drugs to the body cavity, and a diaphragm is installed in each of the nozzles, which has means for regulating its passage village holes; the housing and the chamber are made of organic glass and the latter has a movable partition. (56) Int. Arcls Allergy Appl Immun, 77-85 (1984), increase the accuracy of reproduction of the clinical variant of bronchial asta and the possibility of revitalizing animals In life-threatening conditions, it additionally contains an oxygen supply source, a pressure sensor and a chamber located in the housing part for one h of the studied animals, equipped electrodes for registering respiratory airways into the body cavity, while on excursions connected by means of a peon — each of the nozzles is equipped with a diaphletismograph with a cigar valve recorder. having a means for regulating bronchial permeability or the passage section of its openings, the inhaler additionally contains a middle body and the chamber is made of organics for supplying bronchodilator primal glass and the latter has a movable partition. 8