DE8337593U1 - Device for laboratory diagnostics - Google Patents

Description

The invention relates to a device for laboratory diagnostics for separating a liquid phase with a Container in which the liquid phase is contained.

The separation of a liquid and a solid phase is in laboratory diagnostics, 2.B. / fluorescence and enzyme-immunological investigations in which an antigen-antibody complex than fixed \ j phase must be separated from the present in the solution not bound antigens a very common way of working - in immunological conditions such as radio *. It is customary to do this by filtration or centrifugation, but this has the disadvantage, especially in radioimmunological determinations, that one does not work in a closed system and thus the environment can be contaminated with radioactivity. The same applies to many other determination methods where toxic or otherwise disruptive substances are present in the systems to be examined.

To avoid any hazard or contamination of the environment E.g. to avoid radioactive material, it is desirable to carry out the entire separation process in a closed To carry out a system in which the reading or Measurement can take place without opening, so that then the; entire system, e.g. the one that has been closed since the sample was entered Containers and contents can be discarded and disposed of.

Accordingly, the device is characterized in that I

the container is designed with a closure and that \

an absorbent material is arranged in the closure, i

in particular in such a configuration that it is through the:

Arrangement or by its nature is capable of the \

Aspirate liquid without venting. \

-δ-Ι When the liquid sucked from the absorbent material to be fed to the measurement, the container can be fed to a measuring device in such a way that only that contained in the closure Activity (or color changes or the like) is measured. If the solid is the component to be measured is can according to a preferred embodiment in the container, which is preferably elongated is, like a test tube with a cap, on the inside of the container, preferably on or predominantly create a bondable surface at the end opposite the closure which is the one to be measured Solid substance binds, so that when this end is entered in or on the measuring device there is counting or measurement.

For this reason, the shape of a test tube with a tightly fitted cap is preferred, the cap is in the form of a hollow, sufficiently long cap, so that an absorbent material, in particular Rolled strips of filter paper, which are used to prevent swelling when moistened with a cellulose acetate cover can be surrounded, has space.

The closure can be provided with a filter membrane at the end directed towards the inside of the tube, if one isolates the solid to be filtered either later or in any case combined in one place wants. The filtration process is then carried out by simply tilting the liquid either directly or through the filter membrane with the absorbent material comes into contact and is absorbed by it. The solid remains on the other side of the membrane.

However, if the inner surface of the tube, especially its other end or the opposite half of the inside of the closure with a bondable material

-δ-occupied, the implementation and binding of the to takes place there measuring solid substance. E.g. a tracer in the tube can be lyophilized and only when the buffer solution or If other water-containing material is added, the tracer reacts with, for example, the antibody or antigen and the solid formed in this way is bound to the places on the inside of the tube where the tracer adheres.

According to a further particularly preferred embodiment, the tube contains a pearl or a small ball made of material that binds a component / e.g. made of polystyrene or polyamide. For example, the antibody is attached to this pearl coupled and passivated in a known manner (e.g. with glycerine and PVA) * In a corresponding manner, you can also Antigens are bound to these spheres (or the inside of the tube). In the case of antibodies, it makes sense * fully proven to use polystyrene spheres for molecular weights up to approx. 1000 to 2000, while at higher molecular weights, e.g. 5000 to 25000, better polyamide balls are used.

Here, too, the reaction with the antibody takes place upon the ingress of water and the solid body formed in this way is fixed on the ball. If then the tube is upright is fed to the measurement, is the distance of this ball or the one at the lower end of the tube on the inside bound material from the closure holding the liquid by suction so large that no influence takes place when counting or other measuring.

It has been found particularly convenient to use tubes made of polystyrene, stopper made of polypropylene and, as mentioned, to use balls made of polystyrene or polyamide.

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This arrangement not only eliminates the need for centrifuging, which is now common practice, to remove the supernatant from the to be able to safely separate solid precipitated solids by centrifugation by decanting, but that The entire diagnostic container can remain closed from the time the material to be examined is added and can be disposed of without opening.

Sin AusfUhrungsbeispiel the invention is based on the Drawing explained. Show it

Pig * 1 a device for radio-immunological

Determination of antigens and FIG. 2 a view of the underside of the closure according to arrow II of FIG. 1.

Fig. 1 shows a diagnostic unit 10 with a container 12 designed as a tube, a closure 14 and a Polystyrene bead 16. The bead 16 can, depending on the diagnostic test for which it is prepared and therefore suitable, be colored differently for easier identification. The bead 16 contains either the antigen bound or a tracer bound and thus absorbs the solid formed during the reaction, while the liquid by tilting the entire array of tubes 12, Bead 16 and closure 14 is then absorbed in the closure 14 and held there.

As can be seen from FIG. 2, the closure 16 then in its hollow interior two rolls of filter paper 18, 20, each with to prevent swelling a cellulose acetate film 22 are tightly wrapped. In this way, two channels 24, 26 are formed through which the air can escape when the liquid is sucked up, when the assembly 10 is tilted.

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The closure 14 is closed at one end and provided at the open end with a flange 28, the outer diameter of which corresponds approximately to the inside diameter of the tube 12. On the flange 28 circumferential ribs 30 i

i designed to provide a firm hold of the clasp in to effect the tube. On the outside of the closure is provided with a longitudinal knurling 32, to make handling easier.

XO Of course, another structural design or a suitable choice of the absorbent Material absorbing all of the liquid is achieved without venting. For example, the The length of the absorbent material in the closure be less than the length of the space inside the closure, so that in the free space behind the absorbent material the air that is displaced during the absorption will accumulate and compress.

Any solid particles from the absorbent material to prevent, a filter plate can be placed in front of the absorbent material before the device is assembled on which particles can collect when the arrangement is tilted.

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Claims (9)

Patent Attorneys · European Patent Attorneys Ob. MSHiT-Bor * and Pmitner · POB 280147 ■ D-StOO Mummies 28 Dr. W. Müller-Bore t Dr. Paul Deufel DipL-Chem ,, DipL-Wirtsdu-Ing. Dr. Alfred Scfaöa DipL-Chem. Werner Hertel Diploma in Phys. Dietrich Lewald DipL-Ing. Dr.-Ing. Dieter Otto Dipl.-Ing. G 3326 Ot / Sz 2 9. D8Z, 1983 Device for laboratory diagnostics PAgBMgANSPRUCHE 1. Device for laboratory diagnostics for separating a liquid phase with a container in which the liquid phase is contained, characterized in that the container (12) is formed with a closure (14), and that in the closure (14) an absorbent material (18, 20) is arranged. 2. Apparatus according to claim 1, characterized * in that the container (12) is in the form of a test tube and the closure (14) is in the form of a cap. Some 2 Isartorplatz β fob 28024?;. ·; ; ₍ , D-8000 Münden 29 ,, · Mlltbijpat,., · ', Ρββ < ft 14 83 · Telecopier tnfotec 6400 B Telex G II + 1It (089) 2296 43 5-24286 f
V -2- 3. Apparatus according to claim 1 and 2, characterized in that the container (12) made of polystyrene, the Closure (14) made of polypropylene and the absorbent material (18, 20) is made of cellulose fibers. 4. Device according to one of claims 1 to 3, characterized in that in the closure (14) at least two sections (18, 20) of a rod-shaped, absorbent Material are arranged and that the sections (18, 20) of a sellulose acetate film (22) are wrapped. 5. Device according to one of claims 1 to 3, characterized in that on the inner wall of the closure Surveys are formed. 6. Device according to one of claims 1 to 5, characterized characterized in that on the outside of the closure (14) a longitudinal ribbing (32) and on that in the container inserted circumferential surface of a flange (28) a circumferential corrugation (30) is formed. 7. Device according to one of claims 1 to 6, characterized in that in the closure in front of the absorbent Material a filter membrane is arranged. 8. Device according to one of claims 1 to 7, characterized by a bead (16) in the container (12) is freely movable and on which antibodies or antigens are coupled and passivated. 9. Apparatus according to claim 8, characterized in that the bead (16) is made of polystyrene or polyamide. 35