DE3102029A1 - Appliance for separating ferromagnetic particles - Google Patents

Abstract

The object of the invention is, in particular, to simplify the separation of ferromagnetic particles from suspensions and to accelerate the treatment process required therefor. This is achieved by an appliance which has a test-tube holder (5) which can be inverted, with the test tubes (1) inserted therein, over a block (6). The block (6) has retaining holes (7), laterally to which permanent magnets (4) are arranged in a groove (8) (Fig. 1). The invention is particularly suitable for use in the field of protein separation with the aid of microgels.

Description

Device for separating ferromagnetic particles

The invention relates to a device for separating ferromagnetic Particles from several test tubes or test tube-like containers Suspensions with a holder opening for the test tubes Plate and at least one on the side of the receiving area for the respective test tube arranged permanent magnet.

As is known, adsorption granules or Adsorption granules such as Sepharose or Microgel are used. To the surface binding media such as antibodies or lectins are attached to the grains in turn bind the desired proteins again. The protein separation by means of this Procedure requires extensive washing of the small amounts of adsorption granules (5A). This process is further complicated by the fact that the grains only have a diameter of about 100. Because this washing process is very time consuming and, above all, time-consuming centrifugation is required magnetic microadsorption granules have already become known, which with the help of a Permanent magnets can be concentrated in one place of the test tube. The excess liquid can then be easily removed.

A method of this kind is described in "Immunochemistry, 1977, Vol. 14, pp. 443 to 447 ". From this document, a device is also described in the introduction named type known (p. 445, Fig. 3). The well-known there called "magnetic rack" Device -consists of two superimposed by four spacers screwed plates, in which holes are provided to accommodate the test tubes are.

There are 10 permanent magnets on the lower plate, which is made of plastic attached.

When using the known device, the test tubes - for example after treating the samples on a vibrator - individually from the test tube rack be taken out, in which they are for processing with the vibrator or for Processing with other facilities (e.g. incubator). This is, especially in view of the large number of repetitive processing steps, a very time consuming process.

Proceeding from this, the invention is based on the object of a device of the type mentioned to create, in which the time-consuming setting and There is no need to remove individual test tubes and an automatic or allows semi-automatic processing. The device should also be quick and be cheap to manufacture.

This task is achieved with a device of the type mentioned at the beginning solved according to the invention by a separate test tube holder known per se, which has the plate with the mounting openings and through one under the test tube holder matching block, the receiving openings and the permanent magnet or permanent magnets having, the geometric distribution of the receiving openings of the distribution corresponds to the mounting holes.

Thanks to the measure according to the invention, the test tubes with the samples contained in them in the test tube holder for all necessary treatment steps remain. The test tube rack is used to carry out the magnetic separation as it were placed over the block, whereby the test tubes in the sphere of influence the permanent magnets come and the separation is initiated. The supernatant liquid can then be aspirated with the help of a probe, with the test tubes in their Remain in position.

The device according to the invention is particularly suitable for a semi-automatic or automatic processing because there are no complex devices are required for gripping and moving individual test tubes.

The invention also relates to a device for separating ferromagnetic particles from in larger test tubes or test tube-like Containers located suspensions, with openings for the test tubes and at least one on the side of the receiving area for the respective test tube arranged permanent magnet.

It is also based on the object of a device of this In such a way that it is easy and inexpensive to manufacture and one precise positioning between the test tubes and the permanent magnet (s) is ensured.

This object is achieved in that the receiving openings in one Block are attached and that the block at least one. Has groove that runs so that the straight line defined by one of its boundary edges is at least one of the circular receiving openings and that the permanent magnets in the groove containing insert is arranged.

According to an advantageous development of a separating device with separate test tube holder is provided that the block has at least one groove, which runs in such a way that the straight line defined by one of its boundary edges at least one of the circular receiving openings intersects, and that in the groove vin the permanent magnets containing insert is arranged. This way it becomes easy to manufacture ensured, since the attachment of receiving openings and grooves in one block is particularly simple in terms of production technology. At the same time, however, the special arrangement of the permanent magnets a precise and stable positioning between the test tubes and the magnets.

In terms of manufacturing technology, it has also proven to be very proved advantageous if the groove runs so that the cut off by the straight line Circle segment has a central angle of 30 to 500.

A particularly efficient production and precise positioning of the Magnet unit is used in an advantageous adhere to further development of the invention achieved in that the insert is comb-shaped and in the spaces between the teeth of the comb, the permanent magnets are arranged.

It is particularly useful when the mutual distance between the gaps is equal to the mutual spacing of the receiving openings, so that each receiving opening is assigned a space and thus a magnet.

According to a particularly advantageous development of the invention, has the groove to such a depth that its groove base is slightly above the test tube receiving area the receiving opening. This ensures that the magnetic field is not up to The bottom of the test tube is enough and consequently the magnetic grains on the edge the respective test tube and not at its bottom. Thus can with Use a probe or pipette to remove the supernatant liquid from the test tube be removed by the fact that the probe - past the grains deposited on the edge - is led to the bottom of the test tube. Sucking off the liquid is on the one hand made considerably easier, on the other hand it is also a complete one Suction of the liquid possible.

A conical design of the receiving openings ft; Y'rt according to a further advantageous embodiment for a particularly stable fit of the test tubes, especially if these are themselves conical. It is useful if the groove containing the magnet insert corresponds to the surface line of the conical The receiving opening is inclined.

Working with the device according to the invention can continue are facilitated by the fact that these - speaking to another advantageous embodiment - is equipped with a base that acts as an adjustment edge serves for the test tube holder. This will ensure that the test tubes - even when working quickly - precisely into the Ivesti2nmterl receiving openings of the magnetic body can be inserted.

The test tube holder expediently has a frame serving edge, the height of which is such that the test tubes are completely in the receiving opening of the magnetic block can be inserted without removing them from the holding openings of the test tube holder when slipped over the magnet block will.

According to a particularly advantageous embodiment of the invention in the case of a severing device with several rows, the one containing the magnetic insert Groove arranged on the same side of each row. The one with the treatment The laboratory technician employed by the samples will work on that side during his work set, which is the grooves and thus the magnetic inserts opposite, so that he Work on the samples undisturbed by the magnet insert - for example the supernatant liquid suction - can. The design mentioned simplifies the work insofar as changing the side or rotating the device is not necessary.

The invention is illustrated schematically in the following on the basis of the figures illustrated embodiment explained in more detail. It shows: Fig. 1: a Section through the device along the section line I-I in Fig. 2, Fig. 2: a top view of the device without magnets and without test tube holder, Fig. 3: a section along the section line III-III of FIG. 2, FIG. 4: a front view of the device with the magnet insert partially pulled out.

In the illustration of FIG. 1, a test tube holder 5 can be seen. This consists essentially of a horizontal plate 3, the four rows each with six mounting openings 2 for test tubes 1.

The reagent (3las} 1alter 5 has a circumferential, approximately right-angled to the plate 3 standing edge 14, which serves as a frame and usually on the Laboratory bench.

A block 6 is located below the test tube holder 5 Conical receiving openings 7 are attached, into which the in the holder openings 2 seated test tubes 1 protrude. To ensure an exact adjustment between the test tube holder 5 and the block 6, the latter has a circumferential base 13, on which the test tube holder 5 rests.

Each on the same side of the four rows of receiving openings (on the right in Fig. 1) run four grooves 8, each in cross section in Fig. 1 you can see. The grooves have the same inclination as the surface line of the conical Receiving opening. The position of the grooves 8 in relation to the rows of receiving openings 7 is chosen so that the receiving openings 7 are cut by the grooves 8, so that the receiving openings run approximately rectangular along their surface line Windows (15, Fi. 2,3) have, .und the area of the receiving opening 7 above this Window directly is in communication with the interior of the groove 8. In this groove 8 a comb-shaped insert 9 is used, of which in Fig. 1 essentially only the ridge can be seen in cross section. In the spaces between the Comb teeth (11, Fig. 4) sit permanent magnets, the direction of magnetization approximately runs parallel to the wall of the receiving opening 7. The distance between the spaces between the comb teeth 11 corresponds to the mutual spacing of the receiving openings 7, so that in each case a permanent magnet in front of the side window opening of the respective Receiving opening lies. As can be seen in FIG. 1, the groove base lies therewith the respective lower end of the permanent magnets 4 higher than the bottom of the Receiving opening 7 inserted test tubes 1. This ensures that the magnetic adsorption grains exclusively at the edge and not at the bottom of the Collect the test tubes so that the supernatant liquid is sucked off the substrate can be.

Fig. 2 shows the block 6 in plan view. There are those concerning its function already explained base 13 as well as the four rows of six each To recognize receiving openings 7. In this figure it can be clearly seen that each a delimiting edge 10 of the grooves 8 intersects the circular receiving openings, so that a window 15 is created between the respective groove 8 and the receiving opening 7. The central angle of the segment of a circle cut off by the delimiting edge 10 is about 400.

FIG. 3 shows a section at right angles to the section in FIG. 1 About the content of Fig. 1 is in Fig. 3 of the channel-shaped insert 9, in which the Permanent magnets 4 are to be accommodated to be recognized. Fig. 3 also clearly shows the already mentioned windows 15, through the cut between the groove 8 and the receiving openings 7 arise.

Fig. 4 shows a front view of the block 6 with partially pulled out Insert 9. The comb teeth 11 can be seen. In the spaces between the Xammzinken are the magnets to use in any way - for example can be attached by gluing and the shape is preferably chosen so that they fill up the gaps.

To adjust the suspensions in all test tubes as low as possible Separate conditions, all permanent magnets 4 are in the same direction transversely to adjacent wall of the respectively assigned test tube polarized. So be the adsorption grains are always attracted to only one of the two poles and can do so no magnetic field zero points occur.

It is also essential that the receiving openings 7 go completely through block 6.

In the top view of the test tubes 1 can be in this way easily determine whether the separation has been completed and the adsorption components fully cover the side walls of the test tubes 1 anyeluc; ert, so free the bottom of test tubes 1. Block 6 was previously called Manufactured from solid material described and shown.

Of course, the block can also be hollow or as a box or the like be executed.

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Claims (14)

Claims: 1. Device for separating ferromagnetic particles from several test tubes (1) or test tube-like containers Suspensions, with a plate having holding openings (2) for the test tubes (1) (3) and at least one on the side of the receiving area for the respective test tube (1) arranged permanent magnet (4), characterized by a separate, per se known test tube holder (5), which holds the plate (3) with the mounting openings (2) and by a rassendon block (6) under the test tube holder (5), the inflation openings (7) and the permanent magnet or permagnets (4), wherein the geometrical distribution of the receiving openings (7) corresponds to the distribution of the Bracket openings (2) corresponds. 2. Device for separating ferromagnetic particles from in several Suspensions in test tubes (1) or test tube-like containers, with receiving openings (7) for the test tubes (1) and with at least one on the side A = ranentmaqnet arranged on the receiving area for the respective test tube (1) (4), characterized in that the receiving openings (7) are made in a block (6) are and that the block (6) has at least one groove (8) which extends so that the straight line defined by one of its boundary edges (10) at least one of the circular receiving openings (7) and that in the groove (8) a permanent magnet (4) containing insert (9) is arranged. 3. Apparatus according to claim 1, characterized in that the block (6) has at least one groove (8) which runs so that the through one of their Boundary edges (10) defined straight line of at least one of the circular receiving openings (7) cuts, and that in the groove (8) a permanent magnet (4) containing Insert (9) is arranged. 4. Apparatus according to claim 2 or 3, characterized in that the groove (8) runs in such a way that the segment of a circle cut off by the straight line has a Has a central angle of 30 to 500. 5. Device according to one of claims 2 to 4, characterized in that that the insert (9) is comb-shaped and in the spaces between the comb teeth (11) the permanent magnets (4) are arranged. 6. Apparatus according to claim 5, characterized in that uaß the mutual The distance between the spaces is equal to the mutual distance between the receiving openings (7) is. 7. Device according to one of claims 2 to 6, characterized in that that the groove (8) has such a depth that its groove base (12) is slightly above of the test tube receiving area of the receiving openings (7). 8. Device according to one of claims 2 to 7, characterized in that that the receiving openings (7) taper conically and the groove (8) about the same Inclination like the closest cone envelope line. 9. Apparatus according to claim 1 or one of claims 3 to 8, characterized characterized in that the block (6) has a base (13) acting as an adjustment stop for the test tube holder (5). 10. The device according to claim 1 or one of claims 3 to 9, characterized in that the test tube holder (5) has a frame serving as a has circumferential edge (14) directed approximately perpendicular to the plate (3). 11. Device according to one of claims 1 to 9, characterized in that that the receiving openings (7) are arranged in several rows, and that the grooves (8) run on the same side of the rows. 12. Apparatus according to claim 1 or 2, characterized in that each receiving opening (7) of the block (6) is assigned a separate permanent magnet (4) is and that all permanent magnets (4) are polarized in the same direction. 13. The apparatus according to claim 12, characterized in that the Permanent magnets (4) transversely to the adjacent wall of the respectively assigned test tube (1) are polarized. 14. Apparatus according to claim 1 or 2, characterized in that the receiving openings (7) go completely through the block (6).