FI59932B - BLANDNINGSANORDNING - Google Patents

Description

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Patent and ocean registration in the United Kingdom published 31.07.81 (32) (33) (31) Requested utuikaut — Bagird priority (71) Ortho Pharmaceutical Corporation, Raritan, Nev Jersey, USA (US) (72) Bruce John Helriegel, Chatham, New Jersey, USA (US) (7U) Oy Kolster Ab (5U) Mixing device - Blandningsanordning

The invention relates to a device for mixing test reagents, comprising a test surface having at least one concave portion for reagents, and a support member for supporting the test surface, and in particular a rotary plate device for performing immunochemical and serodiagnostic test reactions. uniformly. When the test reagents are mixed evenly, the result is an easy, reproducible reaction that gives the user of the device a more accurate test result.

Immunochemical and serodiagnostic test reactions are the most common laboratory tests to determine the presence or absence of substances or antibodies that cause antibodies in body fluids, such as serum 1. blood and urine. The results of the assay are used to aid in the diagnosis of certain physiological or pathological conditions in humans and animals. An immunochemical reaction may cause the formation of a precipitate at the endpoint, in which case it is a precipitation reaction. When a reaction takes place between substances partitioned into a liquid substance, at least one of which is solid and agglomerates, it is known as an agglutination reaction. Tests on blood type, pregnancy, mononucleosis, and the like are just some of the immunochemical tests that can be performed in this way. However, in most of these • experiments, the effect is that usually only 2,59932 people trained in this will be able to see with absolute certainty whether the test result is completely correct.

It is already known that certain immunochemical tests, e.g. the determination of pregnancy, can be performed on glass slides, with the presence or absence of agglutination determining the endpoint. However, as already mentioned above, immunochemical experiments performed in this way often give uncertain results due to difficulties in determining the endpoint.

U.S. Patent Application No. 328,219, filed January 31, 1973, discloses a method by which immunochemical experiments are performed on a concave test surface, in which case in many cases an easily perceptible pattern is formed on the surface which can be easily seen even by an untrained person. This is especially true for the stress test, in which a mosaic pattern is formed at the end point.

In all immunochemical experiments involving agglutination, the reagents are mixed on a glass plate, usually with a glass rod, spatula, etc., then the plate is gently moved and the presence or absence of agglutination is determined. The success of these experiments often depends on how carefully the reactants are mixed. An uncertain test result may be due to insufficient mixing of the reagents as well as other factors. In order to obtain uniform test results, it is therefore desirable to have a device with which the reagents can be mixed evenly each time, so that the results obtained are reproducible and, consequently, more reliable.

The present invention has been able to substantially eliminate the uncertainty associated with obtaining correct experimental results in immunochemical and sero-diagnostic experimental reactions due to insufficient mixing of the reagent, Po. the invention means a mixing device with which the test reagents can be mixed uniformly by means of a predetermined movement of a curved, concave test surface. The reagents are mixed on a concave surface attached to the support so that it can rotate in a circular shape, thereby forming a 360 ° wave. Thanks to this rotational movement, the reagents mix evenly, resulting in an easily detectable and reproducible endpoint.

The device according to the invention is mainly characterized in that the support member has at least one planar surface and that the support member fixedly supports the test surface in such a position that the angle between the support member plane and the horizontal is at least 5 ° and at most 1 * 5 °. around, centrally with respect to the test surface and towards-directly against it. When using an angle greater than 1 + 5 ° or 5 ° smaller, the test results are usually poor or unclear. Optimal results are achieved ...

3,59932 when the plane of the support device is at an angle of approx. 15 ° to the horizontal. The recess in the test surface may be located eccentrically with respect to the axis of rotation of the test surface. The curved test surface is arranged in the support device so that it rotates about its axis. The test surface rotates in a support in a circular path, and the angle of rotation causes the liquid substance to form a wavy pattern, again resulting in thorough mixing of the reagents.

The support device can be any device that can be used to support the test surface so that it can rotate freely. The support device can be, for example, a planar surface which is raised at an angle of 5 ° to ^ 5 ° with respect to the bottom surface of the support device. The inclined part must be arranged in such a way that the test surface can rotate in it. The test surface can be placed in the raised part of the planar surface. Any suitable method for mounting the test surface on the support can be used. In this case, just remember that the angle between the support device and the horizontal is at most U5 ° and at least 5 ° ·

Although a test surface has been described above which is arranged to rotate in a support part, in another embodiment of the invention the test surface comprises only one unit, e.g. a part of a ball. The spherical test surface is then rotated, either manually or mechanically at the desired angle on a hard surface, e.g. a table, to mix the reagents.

The dimensions of the curved, concave test surface are not critical. The surface only needs to be sufficiently curved for the test reagents to remain on it. The test surface can be of any shape as long as it has a recess for test reagents. However, a hemispherical test surface is recommended. The test surface recess may comprise all or part of the hemisphere. In one embodiment of the invention, the test is performed directly in the recess of the test surface. Alternatively, however, a separate plate can be used for the test reagents, e.g. a watch glass placed in a recess in the test surface. When such a plate is used, it is located in the recess of the test surface as the test surface rotates. It is therefore advantageous to use a separate plate for the reaction, because it can be discarded after each experiment, for example, so that the test surface can be used indefinitely.

The dimensions of a disposable, Kovero plate are not critical. The recess in it need only be large enough to accommodate the reagents used in each case. Both glass and plastic materials can be used as disposable plates. When plastic is used, its surface must be permanently moist. Suitable materials for this include general purpose styrene and acrylic resins. Other materials can also be used as the test surface, e.g. wax paper or other specially treated paper grades. The test surface and support can be made of various materials known for this purpose, e.g. all known plastics, cardboard, metals, etc. are suitable.

Plates with different dimensions and recesses can be used. The dimensioning of a particular plate depends on the test in question and the material used. However, it is preferred to use watch glass having a diameter of about Uo to 65 mm and a depth of about 4,59932 nys about 3.08 to about 7.3 mm. The corresponding dimensions are also ideal for a recess in a test surface which does not use a detachable disposable plate.

Alternatively, the test surface may also have a device for rotating it. Such a device may comprise a knob with which the disc is controlled by fingers or otherwise. The device may also have a small recess in the test surface, e.g. a finger hole to control the rotation of the plate.

The support surface may also have a device that supports po. units when performing the test. Such a device may also include a liquid dispensing device, e.g. a dropper, and / or a container for the reagents to be used. In this case, the body of the support part may have a sufficiently large recess for the reagent dispensing device and the container. However, neither of these is a substantial po. for using the device.

Although the rotating test surface can be rotated by hand, it is also conceivable that it is rotated mechanically, e.g. from a shaft driven by a motor mounted on a support.

For ease of understanding the invention, reference is made to the drawings, in which Figure 1 is a perspective view of an embodiment of the invention, Figure 2 is a partial cross-section of the mixing device shown in Figure 1 taken along line 2-2 of Figure 1, Figure 3 is a perspective view of another embodiment of the invention; a cross-section of the mixing device shown in Fig. 3 along the line 4-4 in Fig. 3.

Figure 3 is a cross-section of the mixing platform and illustrates a test surface arranged to be mechanically operable.

The mixing device shown in Figures 1 and 2 comprises a holding surface 1 arranged to rotate in the support 3, the angle between the plane surface of the support device and the horizontal being then at least 3 and at most 45 · The test surface has a curved, concave recess 2 for reagents. The device with which the test surface can be rotated is shown as a recess 3 in the plane of the test surface. * It should be noted, however, that any other suitable device can be used to rotate the test surface.

The finger openings 6 shown in Figure 1 are not essential for the operation of the test surface. They usually come into play in cases where a detachable disposable plate is used on the test surface, which is easy to lift out of the device by means of the fingers inserted into these openings.

In the embodiment of the invention shown in Figures 3 and 4, the test surface 1 is rotatably mounted on a support 3 · Although a tripod support is shown in the figures, it should be noted that this support device is by no means the only possible solution. less than 45 · 5 59932

The test surface 1 shown in Fig. 5 is fixed to the surface of the support 3 and rotates mechanically by means of a motor 7. In this embodiment, the motor is driven by a clutch 8, whereby the test surface 1 rotates from the opening 9 driven by the associated shaft 10. Although the motor is shown in Figure 5, it should be noted that any conventional drive can be used to effect mechanical rotation of the test surface.

When starting to use the mixing device, the person in question places the reagents and the body fluid sample in the recess of the test surface. Preliminary mixing of the reagents is done by hand, for example with a stir bar. The immunochemical reaction is then performed by rotating the test surface a certain number of revolutions. The exact number of revolutions of the test surface, 1 speed, depends on the test to be performed. If, for example, a pregnancy test is performed on the test surface, the best result is obtained by rotating the surface about 23 revolutions to its sum in half a minute. The reaction mixture is then examined to determine whether the result is positive or negative.

It is also possible that the test surface has two or more recesses for performing several test reactions simultaneously.

Claims (6)

59932 6 An apparatus for mixing test reagents, the apparatus comprising a test surface (1) having at least one concave part (2) for reagents and a support member (3) for supporting the test surface, characterized in that the support member (3) has at least one plane surface and that the support member fixedly supports the test surface (1) in such a position that the angle between the plane surface of the support member and the horizontal is at least 5 ° and at most 1 »5 ° *, the test surface (1) being mounted on the support member rotatably about a centrally located axis with respect to the test surface and directly towards it. Device according to Claim 1, characterized in that the device is provided with mechanical means (7 ~ 10) for rotating the test surface (1). Device according to Claim 1, characterized in that the angle between the plane surface and the horizontal plane of the support element (3) is 15 °. Device according to Claim 1, characterized in that the angle between the plane surface and the horizontal plane of the support element (3) is kS °. Device according to Claim 1, characterized in that the concave part (2) of the test surface (1) is hemispherical. Device according to Claim 5, characterized in that the depth of the hemispherical concave part (2) is 3.08 to 7.30 mm.