JPH0611444Y2 - Corneal test inspection chamber - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a chamber for examining and inspecting a cornea, for example, for examining its permeability and the influence of chemical substances on the cornea.

Vision, which is roughly classified into one of the five human beings, is as weak as physical defense against physical and chemical injuries, as compared with other sensory organs. There are many risks of damage in daily life. Moreover, sight is one of the most important aspects of social life.
Since it is more important than other sensory organs, if it should be damaged, it is likely to become a serious obstacle to a person's life.

With the development of the chemical industry in recent years, many chemicals, drugs, and the like that have a risk of affecting the cornea have appeared in the body. The present invention is capable of investigating the effects of these chemicals, drugs, etc. on the cornea, and provides guidelines on the proper handling of these products, and is further essential for the development of new and safer products. It provides an effective means for examining toxicity.

The eye puncture test is required for the development of cosmetics, soaps, detergents, medicines, public health chemicals, pesticides, other chemical products, and other chemical products, as one of the safety judgment means. .

The dryz method is often used as a method for checking ocular toxicity, particularly for the cornea, but this method requires the use of live rabbit eyes and can objectively quantify the determination of toxicity. It includes problems such as being extremely difficult. On the other hand, if the test chamber of the present invention is used, the cornea of cattle, pigs, rabbits, etc., which is supplied as a by-product of the animal killed for meat, is used, and the animal is alive. Since the cornea can be tested and inspected in this condition, it is not necessary to subject the experimental animal to sacrifice unnecessarily, which is beneficial from the viewpoint of animal welfare.

In addition, the chamber of the present invention is structurally simple in structure, and by making it possible to see through the cornea from the left and right, opacity (corneal opacity) measurement becomes easy, and the result can be easily quantified. It became possible and is very useful industrially.

The structure of the present invention is as follows.

Horizontal hollow parts (12) and (13) consist of left and right blocks (1) and (2) that penetrate through with the same axis, and if necessary, part of (1) or (2) may be coaxial horizontal. An upper opening cylinder (4) which is independent as a central block (3) having a hollow portion and vertically communicates with the horizontal hollow portion, and an opening protrusion (5) for attaching and pinching a bay-shaped cornea along the horizontal hollow portion. ) One block (1), the opening recess (6) that fits the opening protrusion (5), the other block (2) having an upper opening cylinder (7) vertically communicating with the horizontal hollow portion Plates (8) are provided at both ends of the left and right blocks to close the ends of the horizontal hollow portions and allow the respective hollow portions to be seen through. When the central block is not used, the opening recess (6) may be provided in the other block (2). When the central block is independent, the opening protrusion (5) or the opening recess (6) is provided in the central block.
If necessary, packing is used to fix each block or plate, and in order to integrate them, four sets of stud bolts (10) and wing nuts that are fasteners are used.
Appropriate means such as (11) can be taken.

Hereinafter, the configuration and the use procedure will be described in more detail with reference to the embodiments, but the present invention is not limited to the embodiments.

Example The test chamber consists of left and right blocks (1) and (2), and both blocks communicate with each other through a horizontal hollow part with a common axis.At the joint of both blocks, one block (1) is open. The protrusion (5) and the other block (2) have an opening recess (6) that fits into the above (5).

The cornea for inspection is placed over the center of the opening projection (5) or the opening recess (6) so as to cover it, and fixed by fitting both openings.

The opening protrusion (5) or the opening recess (6) is made independent as a central block (3) communicating with the horizontal hollow portion (Fig. 4,
An example in which an opening recess is provided in the central block is shown) When using, it may be joined to the left block or the right block via packing or the like.

The left and right blocks (1) and (2) have upper opening cylinders (4) and (7) that communicate vertically with the horizontal hollow portions (12) and (13).

Chemicals etc. used for the impact test can be injected into the chamber from the upper opening cylinders (4), (7), and the injected chemicals etc. reach the inspection cornea via the horizontal hollow part, and the cornea It is exposed to chemical substances and tested.

In the test, first inject the isotonic solution such as 0.9% saline solution or Tyrode solution (physiological saline solution) into the hollow parts (12) and (13) through the upper opening cylinders (4) and (7). , The standard value of corneal opacity in a normal state is measured. Next,
After removing the above injection liquid, inject a test chemical liquid such as a chemical substance through the upper openings (4) and (7), and shake the entire chamber for a certain time in a constant temperature bath to expose the cornea to the test chemical liquid. ,
The effect of the test drug solution on the cornea can be quantitatively grasped by injecting a fresh saline solution or Tyrode's solution and measuring the opacity of the cornea after being exposed to the test drug solution.

In the chamber of the present invention, the horizontal hollow part communicates and the left and right plates can be seen through, so it is possible to measure changes in the cornea without removing the cornea and removing the cornea. can do.

In this chamber, the cornea consists of a horizontal hollow (1
By contacting 2) and (13), the inside of the membrane on the aqueous humor side in one hollow portion and the outside of the tear fluid side membrane in the other hollow portion are exposed to chemical substances and the like, so that they can be tested simultaneously. In addition, the inside of the membrane on the aqueous humor side is directly observed through one hollow portion, and the outside of the tear fluid side membrane is directly observed through the other hollow portion.Also, through these horizontal hollow portions, changes in the transmittance thereof are electrically or electronically observed. It can be measured and measured quantitatively.

The horizontal hollow parts (12) and (13) of the blocks (1) and (2) are closed at both ends by transparent plates (8) via packing (9), etc. There is no danger of leaking out.

Each block or plate is fixed by an appropriate method such as a fastener using four sets of stud bolts and wing nuts.

The chamber can be immersed in a constant temperature bath, a water bath or the like as it is, and the cornea can be examined in a state similar to a living body.

Since each block of the present invention uses a material such as synthetic resin, metal or glass, it is not affected by the chemical liquid and does not affect the chemical liquid.

[Brief description of drawings]

Each of the drawings shows an embodiment, FIG. 1 illustrates the structure by a schematic sectional view, FIG. 2 is a side view, FIG. 3 is a plan view of a left block (1), and FIG. 4 is a right view. Top view of the central block, independent of block (2). In each figure, 1 and 2 are left and right blocks, 3 is a central block, 4 and 7 are upper opening cylinders, 5 is an opening protrusion, 6 is an opening recess, 8 is a plate, 9 is packing, 10 is a stud bolt, and 11 is a butterfly. The nuts 12 and 13 are horizontal hollow portions.

Claims (1)

[Scope of utility model registration request] 1. A horizontal hollow portion comprising left and right blocks (1) and (2), and if necessary, a part of (1) or (2) is made independent as a central block (3), and each block has a common axis. (12), (13)
, One block has an opening projection (5) and the other block has an opening recess (6) that fits in (5) above, and the left and right blocks (1) and (2) are connected to each other. Is an upper opening cylinder (4), (7) communicating vertically with the horizontal hollow parts (12), (13).
The left and right blocks (1), (2) horizontal hollow (12), (13)
The corneal test chamber is characterized in that both ends thereof are closed by transparent plates.