JPH0734375Y2 - Instrument for measuring and measuring reaction of analyte - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to a device for measuring and detecting a reaction of an analyte.

Specifically, it is a reaction vessel or measurement vessel used for biochemical or immunological measurement, and is an ELISA (enzyme linked i
mmunosorbent assay) or a plate for particle agglutination reaction using an artificial carrier such as red blood cells and latex.

(Prior Art) Conventionally, this type of ELISA plate has 12 rows of wells having an 8-hole tube in the frame, 8 rows of wells having a 12-hole tube, or 6 rows of wells having a 16-hole tube. To
It is known that each is detachable.

(Problems to be Solved by the Invention) In the above-mentioned conventional plate for ELISA, the frame and the wells are both made of the same material made of a hard thermoplastic synthetic resin, and both are simply fitted together. However, friction, creaking, and rattling occur between each other, which causes variations in the measured values of the plate reader. In addition, mutual damage and damage are likely to occur, and moreover, wells are difficult to come off, and at the same time, when subjected to a machine that gives vibration or rotation, wells often pop out from the frame. .

(Means for Solving the Problems) This invention was developed with the object of solving the problems of the conventional products described above, and will be described with reference to the reference numerals of the drawings shown as specific examples.

That is, the present invention comprises a combination of a hard container (1) made of thermoplastic synthetic resin and a soft frame (2) made of thermoplastic synthetic resin, and the container (1) has an upper surface (3) opened.
A plurality of cylinders (5) having closed bottoms (4) are arranged in parallel to form a continuous well (6), and the wells (6) are also formed.
Make holes (9) and (10) in the collars (7) and (8) at both ends of
Also, the protrusions (11), (12) are provided on the lower part of the collars (7), (8)
, And two ribs (13), (1
4), (15), and (16) are integrally molded, and the frame (2) has a horizontal rail (1
7), (18) and the vertical bars (19), (20) form a rectangular frame, and the opposing horizontal bars (17), (18) are slightly curved inward with each other and are provided at intervals. The groove (21), (22) and the convex surfaces (23), (24) located between the grooves.
5) and (26) are projected, and a plurality of horizontal crosspieces (17) and (18) are respectively integrally formed with a plurality of facing surfaces (27) and (28) in an arc shape. Another object of the present invention is to provide a reaction measurement and detection instrument for a substance to be tested, which comprises a plurality of wells (6) fitted in parallel.

According to the present invention, when the well (6) is pushed into the frame (2), the grooves (21) and (22) of the frame (2) and the projections of the wells (6) of the pins (25) and (26) are projected. (11), (12)
And holes (9) and (10) match,
Wells (6) on the facing surfaces (27) and (28) of the frame (2)
The ribs (13), (14), (15), (16) of the above are engaged and fitted into each other. Thus, generally by fitting 12 rows of wells (6) into the frame (2),
96-well plate is set.

Since the frame (2) is made of a soft synthetic resin and the well (6) is made of a hard synthetic resin, the well (6) has a shape retention property, and the frame (2) is Since it is flexible and slippery, the well (6) can be smoothly fitted into the frame (2).

Also, two ribs (13) provided on both sides of the well (6),
The pins (14), (15), (16) eliminate the vertical runout in the vertical direction to improve the fitting action with the frame (2) and the pin provided on one of the horizontal bars (17). Since the pins (26) provided on the (25) and the other horizontal rail (18) are not located on the center line of the well (6), the frame (2)
Even if the well (6) is fitted to the machine, and it is set in a machine that vibrates vertically and horizontally and gives vibration, the bidirectionality can be dealt with and the well (6) does not jump from the frame (2). Moreover, there is no mistake in the directionality when fitting.

Further, since the opposing horizontal rails (17) and (18) are curved inward with respect to each other, the space between them is the narrowest, and the vertical rail (1
9), it is formed slightly wider toward (20), and since the frame (2) is made of soft synthetic resin, the middle part of the set well (6) is the frame when used. (2) is hard to come off, and the wells (6) on both sides are made easy to come off so as to perform the function of averaging at the time of attachment / detachment and disposal.

When the used well (6) is to be removed from the frame (2), the plate is turned upside down and the bottom portions of the well (6) (while pulling the horizontal crosspieces (17) and (18) of the frame (2) ( It can be easily discarded by pressing 4) lightly.

Example 1 The present invention was manufactured by using acrylic butadiene styrene (ABS) as the frame (2) for setting 12 rows and polystyrene as the well (6).

When setting 12 rows of wells (6) in the frame (2),
When the plate was agitated with a plate mixer, the well (6) did not bounce off the frame (2), did not sime each other, and was not damaged.

Also, when removing the wells (6) that have been acted on from the frame (2), the body is turned over and the bottoms (4) of the wells (6) are lightly pressed while slightly pulling both ends of the frame (2). , Well (6) was easily removed and could be discarded.

Although the well (6) was an 8-hole cylinder and had a U-shaped bottom surface, the 12-, 16-, and 24-well flat bottoms, U-bottoms,
It is also possible to change the design to the V bottom or the like.

(Example 2) Application to enzyme immunoassay The plate of this invention was subjected to ELISA. The plate of the present invention used a frame (2) for setting 12 rows made of acrylic butadiene styrene (ABS) and a well (6) made of polystyrene. The bottom shape of the well was U-shaped.

Commercially available anti-CRP antiserum (manufactured by ATAB) was salted out with ammonium sulfate, and then DEAE-
It was fractionated and purified by cellulose column chromatography. Apply this purified anti-CRP antibody (100 μg / ml) to the plate
100 μl was added and the mixture was allowed to stand at 37 ° C. for 5 hours. To this
200 μl of (w / v)% BSA-PBS was added, the mixture was allowed to stand still for 5 hours, the liquid was discarded, and the plate was dried to prepare an anti-CRP antibody-immobilized plate. As a control, a commercially available separation type plate (96 well U type modular plate manufactured by Nunc) was prepared in the same manner.

A sample was prepared by diluting a CRP standard solution (manufactured by Shinotest Co., Ltd.) in 10 steps with 1% BSA-PBS. As the POD-labeled antibody, an in-house manufactured one was used. 50 μl of sample was added to each well of the plate and stored at 37 ℃ for 3 hours, then 0.05% Tween-20-PB
After washing with S, 200 μl of coloring solution (ABTS) was added, and the mixture was allowed to stand at 37 ° C. for 30 minutes. This is a plate reader (Corona Electric MTP-3
It was measured in 2).

As a result, the plate of the present invention does not cause rattling and does not cause the well to pop out of the frame during the plate washing operation, as compared with the commercially available separation-type plate.
It was also possible to turn the plate over and completely drain the washing solution. Further, since there was no rattling, there was little variation in the measured values of the plate reader. Moreover, the used wells could be easily discarded by turning the plate over and gently pushing on the bottom of the well while pulling on both ends of the frame.

(Example 3) Application to particle agglutination reaction The frame (2) and well (6) used in Example 2 were used. Using the plate of the present invention, the performance of the plate was investigated for the commercially available reagent for detecting HBs antigen, therodianty HBs.

To the first well of the plate of the present invention, 50 µl of the serum dilution solution and 25 µl of each of the second to eighth wells were dropped. 5 μl of HBs antigen-positive serum was taken with a micropipette, placed in the first well, and then diluted from the first well to the eighth well. 25 μl of control blood cells were dropped in the first well and 25 μl of sensitized blood cells were dropped in the second to eighth wells to make the total volume of each well 50 μl. This plate was placed on a plate mixer (tray mixer), shaken for 1 minute at the maximum setting, and then allowed to stand at room temperature for 1 hour to determine an aggregated image. As a control, 96 well U
A mold plate was used.

As a result, the wells (6) in the present invention did not sime each other and were not damaged even when the plate mixer was vibrated to the maximum. Moreover, abnormal vibration of the well did not occur, and the measurement reagent did not spill out of the well. The detection sensitivity of aggregation did not differ from that of the 96-well commercial plate. Furthermore, the removal of the used plate was as easy as in Example 2.

(Effect of the Invention) According to this invention, the frame (2) is made of soft synthetic resin, and the well (6) is made of hard synthetic resin. ), (18) is narrowed in the middle and gradually widened toward the vertical crosspieces (19), (20), for attachment / detachment and non-directional grooves (21), (22), protrusions. (11), (12), pin (2
5), (26), holes (9), (10), ribs (13), (1
By combining 4), (15), (16), etc., the well (6)
The attachment and detachment with respect to the frame (2) and the engagement are extremely smooth and easy, and the operations such as setting, reaction measurement, detection and disposal are simple. Also, during operation, damage,
The breakage, scraping, friction, stains, etc. do not occur easily, and since there is no runout or rattling and the fitting is good, the well (6) does not jump from the frame (2) even when it is rotated and stirred, and the accuracy is high. It is possible to obtain high inspection results.

[Brief description of drawings]

1 is an explanatory perspective view, FIG. 2 is a plan view of a container (well), FIG. 3 is an explanatory vertical sectional view of the same, FIG. 4 is a bottom view of one end, and FIG. 5 is the same. It is a bottom view of the other end. In the figure, reference numeral (1) is a container, (2) is a frame,
(3) is a top surface, (4) is a bottom portion, (5) is a cylinder, (6) is a well, (7) and (8) are flanges, (9) and (10) are holes, (11) and (12). ) Is a protrusion, (13), (14), (1
5) and (16) are ribs, (17) and (18) are cross rails, (19)
And (20) are vertical bars, (21) and (22) are grooves, (23) and (24) are convex surfaces, (25) and (26) are pins, and (27) and (28) are opposing surfaces. .

Front page continuation (72) Inventor Toshio Moriyama 4-10-19 Higashi, Kiryu-shi, Gunma Prefecture (56) Bibliography Sho 2-46599 (JP, U)

Claims (2)

[Scope of utility model registration request] 1. A hard container (1) made of thermoplastic synthetic resin,
It consists of a soft frame (2) made of thermoplastic synthetic resin,
The container (1) has a well (6) in which a plurality of cylinders (5) whose upper surface (3) is open and whose bottom (4) is closed are arranged in parallel.
And forming holes (9) and (10) at least one of which is not located on the center line of the well (6) in the collars (7) and (8) at both ends of the well (6), and 7) and (8) have projections (11) and (12) at the bottom, and two ribs (13), (14) and (15) on both sides of the container.
(16) are integrally molded, and the frame (2) includes horizontal crosspieces (17), (18) continuous vertically and horizontally,
A rectangular frame is formed by the vertical bars (19) and (20), and the opposing horizontal bars (17) and (18) are slightly curved inward with each other.
Grooves (21) and (22) provided at intervals, and pins (25) and (26) projecting from the convex surfaces (23) and (24) located between the grooves, and the horizontal rail (17). , (18) each having a plurality of facing surfaces (27), (28) integrally formed in an arc shape, and the projections (11), (12) of the container (1) are formed in the groove (2) of the frame (2).
Insert holes (9) and (10) into pins (25) and (2) in (1) and (22).
6) respectively, and at the same time, the cylinders (5) at both ends of the well (6) are loosely fitted along the arc shape and the ribs (1)
3), (14), (15) and (16) are facing surfaces (27) and (28)
A device for measuring and detecting a reaction of a substance to be tested, which is formed by combining a plurality of containers (1) in parallel with a frame (2) by engaging with the frame. 2. The device for measuring and detecting a reaction of a substance to be tested according to claim 1, wherein the container (1) is made of polystyrene and the frame (2) is made of acrylic butadiene styrene (ABS).