KR20130128324A - Whole-body inhalation exposure chamber, and apparatus using the chamber - Google Patents

Abstract

Provided are a chamber and a device for a total body exposure test which does not shut experimental animals up in a small space without high installation costs. The chamber (1) for a total body exposure test comprises a rearing box (2), a net bottom (3), an air outlet member (4), a hopper (5), and an air inlet member (6). The rearing box (2) or the hopper (5) is formed of a transparent body. The rearing box (2) and the hopper (5) are joined by connecting each opening (2c, 5c) thereof. The air outlet member (4) penetrates a bottom plate (2a) of the rearing box (2) and is connected to an exhaust pipe (7). The air outlet member (4) has an exhaust pipe (4a) facing the lateral side not to absorb dust which passes through the net bottom (3) and falls. The hopper (5) and the rearing box (2) form a sealed space. The air inlet member (6) is attached to penetrate a fabric plate (5a) of the hopper (5) and is connected to an external air duct (8) which supplies test gas to the rearing box (2). The air inlet member (6) has an air inlet (19d) which spreads vortex of the test gas into the rearing box through the hopper (5).

Description

Whole-body Inhalation Exposure Chamber, and Apparatus Using the Chamber

The present invention relates to a chamber for performing a suction test by a systemic exposure method without restraining small animals for examination such as rats and mice, and a systemic exposure test apparatus using the same.

Background Art Conventionally, two methods, a systemic exposure method and a nasal exposure method, are known as a method of inhalation experiments in which a small game animal such as a rat, a mouse, a morphot, and the like are administered to a small test animal to investigate the effects on the living body of the drug. have. In the whole body exposure method, a test animal is accommodated in a test container and sealed, and then a test substance is supplied from one side of the container, and a mixed gas of the residual gas of the test substance and the expiration of the test animal is discharged from the other side. The non-exposure exposure method includes an inner tube through which the test substance-containing air is supplied, a non-exposure nozzle mounted on the inner tube, and a mixed gas of the exposed gas of the exposed test substance-containing air and the expiratory gas of the experimental animal. It consists of an outer tubular tube provided on the outside and an experimental animal holder attached to the outer tubular tube at a position opposite the non-exposure nozzle, and a test substance from the non-exposure nozzle is injected into the experimental animal by inhalation of the experimental animal (e.g., See Patent Document 1). Among them, in the whole body exposure method, since the test chamber is large and accommodates a large number of cages inside, it is difficult to observe the appearance of each animal from the outside, and a large amount of equipment cost is required. Since the test can be performed with a smaller exposure volume than the systemic exposure method, it is suitable for an exposure test using an expensive test material or a small test material. On the other hand, in the non-exposure method, by restraining the test animal for a long time in the cylindrical holder, stress on the test animal, such as weight gain suppression, may affect the reliability of the test results, and in the free state of the test animal Is impossible to observe. In addition, it is not preferable from the viewpoint of animal welfare.

Japanese Patent Laid-Open No. 9-187192

Therefore, an object of the present invention is to provide a systemic exposure test chamber and a systemic exposure test apparatus using the same, which do not require a large amount of equipment cost and do not restrain the experimental animal in a narrow space for a long time.

EMBODIMENT OF THE INVENTION Hereinafter, although it demonstrates with reference to the code | symbol of an accompanying drawing, this invention is not limited to this.

The whole body exposure test chamber 1 of the present invention for solving the above problems is a breeding box 2 capable of breeding a plurality of experimental animals A therein, and a net bottom installed below the breeding box 2. (3), the exhaust port member 4 for sucking air in the breeding box 2, the hopper 5 which cooperates with the breeding box 2, and forms a sealed space, and the test gas in the breeding box 2 It is provided with the air supply member 6 provided on the top plate 5a of the hopper 5 in order to send out. Either or both of the breeding box 2 or the hopper 5 are comprised by transparent bodies, such as a transparent synthetic resin and glass. The breeding box 2 has a substantially rectangular bottom plate 2a, a side plate 2b standing up at the circumferential edge of the bottom plate, and an approximately rectangular opening 2c surrounded by an upper edge of the side plate 2b. The net bottom 3 is provided in the lower part in the breeding box 2 so that the experimental animal A may be accommodated, forming predetermined space | interval with the bottom plate 2a. The exhaust port member 4 is located below the net bottom 3, is attached to penetrate the bottom plate 2a of the breeding box 2, and is connected to an external exhaust pipe 7. Moreover, the exhaust port member 4 is provided with the exhaust port 4a facing to the side so that the dust which falls through the net bottom 3 may not be attracted. The hopper 5 includes a top plate 5a, an oblique side plate 5b extending downward from the circumferential edge of the top plate in a substantially quadrangular pyramid shape in four directions, and a substantially rectangular opening 5b surrounded by the lower edge of the oblique side plate 5b And this opening 5c is hermetically joined to the opening 2c of the feeding box 2 so as to cooperate with the feeding box 2 to form a closed space. The inclined side plate 5b of the hopper 5 is provided with a plurality of freely open and closed insertion openings 5d for inserting accessory devices such as various measuring instruments therein. The air supply member 6 is attached to penetrate through the top plate 5a of the hopper 5, and is connected to an external air supply pipe 8 for sending a test gas into the breeding box 2. Moreover, the air supply member 6 is provided with the air supply 19d which spreads the eddy current of the test gas into the breeding box through the hopper 5.

The whole body exposure test apparatus 11 of this invention arrange | positions several said test chamber 1, and is hold | maintained in the rack 12. As shown in FIG. On the rack 12, the operation knobs 16 of the meters, such as the internal pressure monitor 13, the internal temperature monitor 14, and the exhaust flow rate monitor 15, which are provided to correspond to the respective chambers 1, and the intake / exhaust flow rate adjustment valve The control panel 17 which aggregated such an adjustment operation terminal is provided.

The whole body exposure test chamber of the present invention and the test apparatus using the same can be miniaturized, and thus do not require a large amount of equipment cost and do not restrain the experimental animal in a narrow space for a long time, and thus are excellent in terms of animal welfare. It combines the advantages of a large systemic exposure test facility and a small non-exposure test device.

1 is a front view of the whole body exposure test chamber according to the present invention.
FIG. 2 is a side view of the whole body exposure test chamber of FIG. 1. FIG.
3 is a plan view of the whole body exposure test chamber of FIG.
4 is a cross-sectional view taken along the line IV-IV in FIG. 1.
5 is a front view of the whole body exposure test apparatus according to the present invention.
FIG. 6 is a side view of the systemic exposure test apparatus of FIG. 5. FIG.
FIG. 7 is a cross-sectional view of a part of the whole body exposure test apparatus of FIG. 5. FIG.

An embodiment of the present invention will be described with reference to the drawings.

1 to 4, the whole body exposure test chamber 1 is provided in a breeding box 2 capable of breeding a plurality of experimental animals A, such as a mouse, and a lower portion in the breeding box 2 therein. A net bottom 3, an exhaust port member 4 for sucking air in the breeding box 2, a hopper 5 made of a transparent synthetic resin which cooperates with the breeding box 2 to form a sealed space, and breeding The air supply member 6 provided on the top plate 5a of the hopper 5 is provided for sending out a test gas into the box 2. Either or both of the breeding box 2 or the hopper 5 are comprised of transparent bodies, such as synthetic resin and glass, in order to make observation of the experimental animal inside easy.

The breeding box 2 is made of transparent synthetic resin or metal, and is surrounded by a substantially rectangular bottom plate 2a, a side plate 2b standing on the circumferential edge of the bottom plate 2a, and an upper edge of the side plate 2b. It has an approximately rectangular opening 2c (FIG. 1).

The net bottom 3 is provided in the lower part in the breeding box 2, and forms the space | interval with the bottom plate 2a. The test animal A is placed on the net bottom 3 to be accommodated, and manure or residue passes through the net bottom 3 and falls on the bottom plate 2a. The net bottom 3 can connect a partition net for dividing the inside of the breeding box into a plurality.

As shown to FIG. 1, 7, the exhaust port member 4 is located below the net bottom 3, and is attached so that it may penetrate the bottom plate 2a of a breeding box, and it is a breeding box through the connection member 24. As shown to FIG. It is connected to the external exhaust pipe 7 which sucks in the air in (2). The exhaust port member 4 includes a plurality of exhaust ports 4a facing in the breeding box 2 so as not to suck in dust falling through the net bottom 3.

1 to 3, the hopper 5 is made of a transparent synthetic resin, and includes a top plate 5a, an inclined side plate 5b that extends downward in a square pyramid shape from the peripheral edge of the top plate, and the inclined side plate ( It has an approximately rectangular opening 5c (Fig. 1) surrounded by the lower edge of 5b). The openings 5c are hermetically joined to the openings 2c of the breeding box 2, so that the hopper 5 and the breeding box 2 cooperate to form a sealed space. A packing is interposed between the end faces of both openings 2c and 5c, and the circumferential edge is tightened by the clamp 9. The hopper 5 and the breeding box 2 are removable by loosening the clamp 9.

The inclined side plate 5b of the hopper 5 is provided with a plurality of insertion openings 5d for opening and closing freely for inserting various measuring instruments such as thermometers and gas concentration meters and accessory equipment such as sampling devices therein.

On the top plate 5a of the hopper, a substantially cylindrical air supply member 6 having an upper end is attached to penetrate the top plate 5a. The air supply member 6 is connected to an external air supply pipe 8 that sends a test gas into the breeding box 2. As shown in FIG. 4, the air supply member 6 has an air supply mechanism 19d that is opened at an angle α inclined with respect to its radial direction R, thereby breeding the vortex of the test gas. Diffusion in the box (2).

The whole body exposure test apparatus 11 holds the said test chamber 1 in multiple numbers on the rack 12, and maintains the internal pressure monitor 13, the internal temperature monitor 14, and the exhaust which correspond to each chamber 1, respectively. A plurality of control panels 17 in which the flow rate monitor 15 and the operation knobs 16 and the like of the intake and exhaust amount adjustment valves are assembled are provided.

As shown in FIG. 1, the air supply member 6 of the hopper 5 in the chamber 1 includes a base member 18 having a substantially cylindrical shape fixed to the top plate 5a, and the base member 18. The connection member 19 which is detachable via the clamp 20 is provided on the upper surface.

As shown to FIG. 1 thru | or 4, the connection member 19 is equipped with the main body 19a, the connection pipe 19b extended laterally from a main body, and the fixing bracket 19c. The main body 19a is a substantially cylindrical body with the upper end closed, and the lower end is joined to the base member 13. The connecting pipe 19b extends from the main body 19a horizontally at an angle α inclined with respect to the radial direction R of the main body 19a in FIG. 3, and one end of the connecting pipe 19b opens to the inside of the main body 19a. It is connected to 19d, and the other end side is connected to the air supply pipe 8 (one of the clean air supply pipe 8a, and the other of the test substance containing gas supply pipe 8b) via a branch pipe.

The fixing bracket 19c has a connection part whose one end side is fixed to the upper surface of the main body 19a, is horizontally extended laterally, is bent upwards in the middle, and is fixed to the rack 12 at the upper end.

5 and 6, on the rack 12, a pair of left and right guide rails 21 holding the bottom of the chamber 1 and the chamber 1 are placed at predetermined set positions on the guide rail 21. The stopper 22 for positioning is fixed. The guide rail 21 extends horizontally in the front-rear direction, and slides the chamber 1 freely in the front-rear direction.

Located between the pair of guide rails 21, a connector lever 23 is provided on the rack 12. The connector lever 23 is provided with the connector member 24, is pivotally mounted to the rack 12 by the hinge 25 in the rear end side, and is provided with the engaging member 26 in the front end side. The connector lever 23 is rotatable between a connecting position (solid line in Fig. 6) arranged horizontally and a non-connecting position (imaginary line in Fig. 6) whose front end side is opened downward, and the step member 26 in the connecting position. ) And the rack 12. As shown in FIG. 7, the connection member 24 is provided with the connection opening 24a connected to the exhaust pipe 7, and the exhaust opening of the chamber 1 in a set position when the connection opening lever 23 is in a connection position. It is in airtight communication with the member 4.

In the case of using the test apparatus, a plurality of experimental animals are accommodated in the breeding box 2 in a state where the hopper 5 is separated, and then the hopper 5 is placed on the breeding box 2, and the clamp 9 is placed. Both chambers are tightly tightened to constitute the chamber 1. In this state, the air supply member 6 of the hopper 5 is separated into the base member 18 and the connecting member 19, and only the base member 18 is attached to the hopper 5. The connecting member 19 is separated from the base member 18 and is fixed to the predetermined position on the rack 12 by the fixing bracket 19c. When the chamber 1 is mounted on the guide rail 21 on the rack 12, and the rear part is pushed in until it comes into contact with the stopper 22, the chamber 1 is positioned at a predetermined set position. In this set position, since the base member 18 and the connection member 19 of the air supply member 6 are joined, they are hermetically connected by the clamp 20. In this position, when the connecting lever 23 is disposed in the connecting position and the rack 12 is hooked by the locking member 26, the exhaust port member 4 and the connecting port member 24 are hermetically connected. In this way, when the several chamber 1 is set on the rack 12, the test apparatus 11 is comprised.

The air pressure and the test substance concentration in each chamber 1 are adjusted in advance, and then the test is started. The state of the experimental animal A in the chamber 1 can be easily observed through the transparent hopper 5 gradually. In addition, the hopper 5 can be made from metal, and in this case, the inside of the breeding box 2 can be observed by making the breeding box 2 into a transparent body.

The test chamber of the conventional whole body exposure test apparatus is designed by maximizing the number of experimental animals (number of cages) accommodated therein. For this reason, a chamber becomes large and the floor area per unit, height of a test chamber, etc. which are needed for installation become large. In addition, the number of chambers required according to the test conditions increases, so the installation equipment requires a huge cost and a large running cost.

According to the whole-body exposure test apparatus 11 which concerns on embodiment of this invention, since the small test chamber 1 is comprised by the breeding box 2 of a test animal, it does not require a large facility investment and a running cost, The whole body exposure test apparatus 11 can be comprised by combining a some chamber 1 freely according to a test objective. Each chamber 1 can be separated into a breeding box 2 and a hopper 5, and the air supply member 6 can be separated into a base member 18 and a connecting member 19, so that maintenance work such as cleaning can be performed. Can be performed easily.

One… chamber
2… Breeding box
2a ... Bottom plate
2b ... shroud
2c ... Opening
3 ... Net flooring
4… Exhaust port member
5 ... Hopper
5a ... Top plate
5b... Inclined shroud
5c... Opening
5d... parenthesis
6 ... Air supply
7 ... vent pipe
8… Air supply
9 ... clamp
11 ... Whole body exposure test device
12... Rack
13 ... Internal pressure monitor
14 ... Internal temperature monitor
15... Exhaust flow monitor
16 ... Operation knob
17 ... Control panel
18 ... Base member
19 ... Connection member
19a... Body of connection member
19b... Connector
19c... Fixed bracket
19d... Feed mechanism
20... clamp
21 ... Guide rail
22... stopper
23 ... Connector lever
24 ... Connector
25... Hinge
26 ... Steps

Claims (6)

A breeding box having a bottom plate, a side plate standing on the peripheral edge of the bottom plate, an opening surrounded by an upper edge of the side plate, and capable of breeding a plurality of experimental animals therein;
A net bottom installed at a lower portion in the breeding box to form an interval between the bottom plate to accommodate the experimental animal;
An exhaust port member positioned below the bottom of the net and attached to the bottom plate of the breeding box and connected to an exhaust pipe that sucks air in the breeding box;
A top plate, an inclined side plate that extends downward from the circumferential edge of the top plate, and an opening surrounded by the lower edge of the inclined side plate, and the opening is hermetically joined to the opening of the breeding box to cooperate with the breeding box to form a closed space. With hopper forming,
It is provided on the said top plate of this hopper so that it may penetrate this top plate, and it is provided with the air supply member connected to the air supply pipe which sends out a test gas in a breeding box,
One or both of the breeding box or the hopper is made of a transparent body,
The exhaust port member is provided with an exhaust port facing laterally so as not to suck the dust falling through the bottom of the net,
The air supply member is provided with a air supply for diffusing the vortex of the test gas into the breeding box through the hopper,
The inclined side plate includes a plurality of insertion openings for inserting an accessory device such as various measuring instruments therein. A breeding box having a substantially rectangular bottom plate, a side plate standing on the circumferential edge of the bottom plate, an approximately rectangular opening surrounded by an upper edge of the side plate, and capable of breeding a plurality of experimental animals therein;
A net bottom installed at a lower portion in the breeding box to form an interval between the bottom plate to accommodate the experimental animal;
An exhaust port member positioned below the bottom of the net and attached to the bottom plate of the breeding box, and connected to an external exhaust pipe that sucks air in the breeding box;
A top plate, an inclined side plate that extends in all directions in a substantially rectangular pyramid shape downward from the peripheral edge of the top plate, and an approximately rectangular opening surrounded by the lower edge of the inclined side plate, and the opening is hermetically sealed to the opening of the breeding box. A hopper which is joined to form a sealed space in cooperation with a breeding box,
It is provided on the said top plate of this hopper so that it may penetrate this top plate, and it is provided with the air supply member connected to the air supply pipe which sends out a test gas in a breeding box,
One or both of the breeding box or the hopper is made of a transparent body,
The exhaust port member is provided with an exhaust port facing laterally so as not to suck the dust falling through the bottom of the net,
The air supply member is provided with a air supply for diffusing the vortex of the test gas into the breeding box through the hopper,
The inclined side plate includes a plurality of connection ports for inserting an accessory device such as various measuring instruments therein. The whole body according to claim 1 or 2, wherein a packing is interposed between the opening perimeter edge of the breeding box and the opening perimeter edge of the hopper, and both opening perimeter edges are detachably tightened by a clamp. Exposure test chamber. A rack for arranging and holding a plurality of chambers for whole body exposure testing according to any one of claims 1 to 3,
And a control panel provided on the rack so as to correspond to the respective chambers. 5. The rack according to claim 4, wherein the rack comprises a pair of left and right guide rails extending horizontally in the front and rear directions so as to freely slide the bottom of the chamber in the front and rear directions, and the chamber is positioned at a predetermined set position on the guide rail. A stopper and a connector lever positioned between the pair of guide rails and pivotally mounted at the rear end side;
This connector lever is rotatable between a horizontally arranged connection position and a non-connected position where the front end side is disposed with a predetermined opening angle downward, and is a set position at the same position as a step member that is caught by the rack in the connecting position. A connection member in airtight communication with the exhaust member of the chamber in
The connection member includes an exhaust pipe connecting portion for connecting an exhaust pipe connected to the exhaust device. The air supply member of the said hopper is provided with the substantially cylindrical base member fixed to the said top plate, and the connection member detachably detachable through a clamp on this base member,
The connecting member has a generally cylindrical main body whose upper end is closed and the lower end is joined to the base member, and the air supply opening opening inside the main body at one end, and the other end is horizontally inclined with respect to the radial direction of the main body. And a fixing tube having a connecting pipe extending laterally and having one end fixed to the main body and extending laterally and fixed to the rack at the other end.

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