RU208954U1 - Device for simulating gassing in animals - Google Patents

Abstract

The utility model relates to the field of biomedical research and is designed to simulate the poisoning of animals by gaseous substances, including those formed during fires (for example, gas mixtures containing carbon monoxide), and endangering humans during a fire, and to study changes in the behavior of animals during moving in a poisoned atmosphere. The device for simulating gas poisoning in animals is characterized by a common chamber made of translucent plastic with a collapsible labyrinth, a chamber for rodents connected by a door to the common chamber, covers with seals at the points of contact with the walls of the common chamber, holes in the upper part of the common chamber with toxic substance inlet valves and to relieve pressure located on opposite sides of the common chamber, a cylinder with a gaseous toxic substance, a valve for supplying / shutting off a toxic substance, a gas analyzer, a vacuum pump and an inlet valve from a pump with which toxic substances are removed from the common chamber at the end of the experiment, a fan, installed near the toxic injection hole, the place of bait for rodents. The technical result is an increase in the reliability of the study due to the possibility of studying the behavior of several animals at the same time and controlling various conditions of the study. 1 fig.

Description

The utility model relates to the field of biomedical research and is intended for modeling the poisoning of animals by gaseous substances, including those formed during fires, for example, gas mixtures containing carbon monoxide, and creating a danger to humans during a fire, and studying changes in their behavior when moving in a poisoned atmosphere. Using this installation, you can quickly create the required uniform concentrations of the substance being evaluated, excluding pressure drops on the animals in the chamber, quickly clean the chamber for the following experiments.

A device for modeling carbon monoxide poisoning in small laboratory animals is known from the prior art (patent RU No. 2584553, publication date 20.05.2016). Kit for modeling carbon monoxide poisoning in small laboratory animals, containing: a device for the synthesis of carbon monoxide, including a flask with concentrated sulfuric acid connected by tubes, equipped with a separating addition funnel containing formic acid, and three Drexel flasks, the first flask contains a solution of hydroxide sodium, in the other two - distilled water, and a rubber reservoir for the accumulation of carbon monoxide, which on one side is connected to a tube extending from the Drexel bottle, and on the other - to a tube with a roller clamp for connection with a syringe, a chamber for contacting the animal with carbon monoxide gas in the form of a flat-bottomed cylindrical glass vessel with a volume of 3 l, the neck of which is elongated and narrowed, with a rounded hole with a diameter of 90 mm, while the vessel is closed with a lid through which a silicone tube passes into the vessel for supplying carbon monoxide, on the outer part of which a roller clamp, and placed on a rectangular and a wooden stand 200 mm long, 15 mm wide, 30 mm thick, the front surface of which is equipped with a rigidly fixed metal clamp in the form of a semicircle with a diameter of 150 mm for fixing the glass vessel in a horizontal position, and a syringe for taking carbon monoxide from a rubber reservoir and introducing it into chamber for contact of the animal with carbon monoxide. The disadvantage of this model is the complexity of the design and the impossibility of controlling the concentration of carbon monoxide affecting laboratory animals and the impossibility of modeling poisoning with other toxic gaseous substances.

In the prior art, a device is known for modeling poisoning by wood combustion products on small laboratory animals (patent RU No. 2535474, publication date 10.12.2014). A device for simulating poisoning by wood combustion products on small laboratory animals, including a flat-bottomed cylindrical glass vessel with a volume of 3 l, the neck of which is elongated and narrowed, with a rounded hole 90 mm in diameter and a screw thread on the outer surface of the elongated part for fixing the lid, which is a reservoir for accumulation of gaseous combustion products, as well as a chamber in which the biomodel contacts with combustion products; a bowl-shaped metal container made in the form of a hemisphere with a volume of 0.03 ± 0.01 l, a thickness of 0.5 mm, along the perimeter of the bottom of which, at a distance of 5 mm from each other, there are five holes with a diameter of 2 mm, in which the combustion process of the substance takes place, while the bowl-shaped container is equipped with a metal cylindrical stand 0.5 mm thick, 115 mm high, with a base diameter of 75 mm and a top diameter of 75 mm; rectangular wooden stand 200 mm long, 15 mm wide, 3 mm thick, the front surface of which is equipped with a rigidly fixed metal clamp in the form of a semicircle with a diameter of 150 mm to fix the glass vessel in a horizontal position. The disadvantage of this model is the inability to control the concentration of combustion products affecting laboratory animals.

In the prior art, an inhaler for laboratory animals with a controlled level of supply of the active substance is known (patent RU No. 177360 U1, publication date 02/19/2018). An inhaler for laboratory animals with an adjustable level of supply of the active substance, including three containers made of transparent plastic, hermetically and in series connected to each other, the first of which contains the active substance and is connected by means of a supply tube with a ball valve and dampers, with a volumetric cover installed above the exhaust a fan with a potentiometer of the second container - a chamber for experimental animals, which, through a pipe installed in a side hole, is connected to a third container - a detox chamber, which also has an opening on the side surface with an exhaust fan installed in it with a potentiometer, while on the side opposite to the fan on the side of the last chamber there is a hose for the exit of carbon dioxide and oxygen, and on the front surface of the second container there is an opening with gaskets for the rat's neck and an operating field in front of it. This model is characterized by a high design complexity and a complex process of obtaining statistical results.

A device for modeling hypoxia in small laboratory animals is known from the prior art (patent RU No. 78743 U1, publication date 04/18/2018). A device for simulating hypoxia in small laboratory animals, containing a sealed chamber with two fittings - inlet and outlet, a water pressure gauge, a rotametric system, check valves and a gaseous nitrogen cylinder, characterized in that the outlet fitting is equipped with an adjustable check valve, and the inlet fitting is connected to air pipeline of the rotametric system combined with a heating device connected to the temperature sensor of the hermetic chamber, the bottom of which is made in the form of a pallet with a longitudinal groove and an elastic seal at the end of its walls for fixing and sealing the body, and at the bottom of the pallet there are floor supports. The disadvantage of this model is the impossibility of assessing the degree of impact of toxic gases on the physiological processes occurring in the animal's body. In the claimed device, the general behavior of the animal, the ability to make decisions and navigate is directly observed.

A device for studying the effect of smoking mixtures on animals is known (patent RU No. 153429 U1, publication date 20.07.2015). A device for studying the effect of smoking mixtures on animals, containing a seed sealed chamber made of a translucent material, a ventilation device, a smoke source of smoking mixtures, characterized in that holes are made on opposite sides of the chamber, equipped with animal motion detectors, while the hole is on one side communicated with the source of smoke of smoking mixtures, and the hole on the other side is connected to the source of smoke, which is a control aerosol, and the motion detectors of the animal are connected to light signaling devices. The disadvantage of this device is the impossibility of calculating which substances and at what concentration are in the chamber. In the claimed device, by controlling the amount of substances entering the chamber at a given volume of the chamber, the concentration of substances in the air is known.

The technical result is an increase in the reliability of the study due to the possibility of studying the behavior of several animals at the same time and controlling various conditions of the study.

The technical result is achieved due to the fact that the device for simulating gas poisoning in animals is characterized by a common chamber made of translucent plastic with a collapsible labyrinth, a chamber for rodents connected by a door to the common chamber, covers with seals in places of contact with the walls of the common chamber, holes in the upper part a common chamber with toxic inlet and pressure release valves located on opposite sides of the common chamber, a cylinder with a gaseous toxic substance, a toxic substance supply / shut-off valve, a gas analyzer, a vacuum pump and a supply valve from the pump, with which toxic substances are removed from common chamber at the end of the experiment, a fan installed near the hole for injection of a toxic substance, a place of bait for rodents.

The utility model is illustrated by a drawing, FIG. one.

A device for modeling gas poisoning in animals consists of a chamber made of translucent plastic 1 with a collapsible labyrinth 2 made of collapsible elements (walls, plates, etc., not shown in the drawing), the design of which allows you to quickly ventilate the chamber and equalize concentrations toxic substances (for example, the use of a material that allows air to pass through, or the choice of the height of the labyrinth, which does not allow rodents to climb over the walls, but leaves an air gap), a chamber for rodents 3, separated by an air-permeable door 4 from the common chamber 1, covers 5 with a seal in places of contact with the walls of the chamber 1, necessary for cleaning the chamber from rodent feces, installation and modification of the labyrinth, holes in the upper part of the chamber 1, holes for the inlet of a toxic substance 6 and for pressure relief 7, located on opposite sides, of a cylinder with a gaseous toxic substance 8 , which is priming, by the supply / overlap valve 9 then toxic substance, gas analyzer 10, vacuum pump 11 and supply valve from pump 12, elimination of gaseous substance from the chamber, fan 13 installed near the injection hole of the toxic substance so as to blow off the supplied toxic substances for uniform distribution of the mixture throughout the volume of the chamber, the place of bait for rodents 14.

For the purity of the experiment, it is necessary that the total size of the maze be such that rodents on average need at least 10-15 seconds to complete it. The bottom surface of the chamber 1 is a rough surface to prevent the animals from slipping when moving. Due to the use of toxic substances, the entire plant is housed in a fume hood. All openings for injection and removal of gaseous materials are located in the upper part of the chamber, and the fan moves the air flows towards the substance injection opening, the gas analyzer is located on the opposite side of the chamber to exclude the influence of concentration gradients on measurements. The concentration of gaseous substances used to inoculate animals is in the range from 0 to 4‰ by volume. Due to the removal of gaseous mixtures, a constant pressure is maintained in the chamber. To ventilate the chamber, it is recommended to use a vacuum pump model CPS VP8D with a capacity of 192 l / min, for fast ventilation (approximately 40 seconds). For measurements, the gas analyzer TESTO 310 is recommended with a carbon monoxide concentration measurement range of 0 to 4‰ by volume and a resolution of 0.1‰. Valves and connections must be installed in such a way as to prevent the entry of toxic substances into the outside room. The outlets of the pressure relief and ventilation valves must be connected to an exhaust system in which, if necessary, filters are installed to neutralize especially toxic substances before being released into the atmosphere. It is recommended to install the entire unit in a fume hood.

The technical result is achieved when studying up to 5 rats at the same time, monitoring and changing in real time the concentration of toxic substances in the chamber, eliminating the impact of third-party factors associated with concentration heterogeneities, pressure surges when concentration changes, time differences when conducting studies on different animals, simplicity and accessibility device, the convenience of the experiment, the rapid preparation of the device for the next experiment.

The device works as follows.

After creating labyrinth 2 in chamber 1 with bait 14, rodents (rats) are placed in chamber 3, cover 5 is closed, fan 13 is turned on, valve 9 is opened, and toxic gaseous substance is supplied from cylinder 8 through valve 6. Valve 7 equalizes pressure for purity experiment. By measuring the concentration of a toxic substance with a gas analyzer 10, the rate of its supply is gradually reduced by closing the valve 9. If necessary, you can wait for some time so that the rodents receive an additional dose of a toxic substance. The door 4 opens, and the rodents begin to move towards the bait. After all the rodents have reached the bait, the pump 11 is turned on, the toxic gas is removed from the chamber, the lid 5 is opened, and the rodents and their feces are removed from the chamber.

Claims (1)

A device for modeling gas poisoning in animals, characterized by a common chamber made of translucent plastic with a collapsible labyrinth, a chamber for rodents connected by a door to the common chamber, covers with seals at the points of contact with the walls of the common chamber, holes in the upper part of the common chamber with toxic substance inlet valves and for pressure relief, located on opposite sides of the common chamber, a cylinder with a gaseous toxic substance, a valve for supplying / shutting off a toxic substance, a gas analyzer, a vacuum pump and a supply valve from the pump, with which toxic substances are removed from the common chamber at the end of the experiment, a fan , installed near the injection hole of a toxic substance, a place of bait for rodents.

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