DE9409089U1 - Sample plate - Google Patents

Description

Sample plate

The invention relates to a sample plate with a plurality of sample locations for receiving radioactively labelled samples.

Sample plates with a large number of sample spaces are used in blood group serology, in antibiotic test series and also in laboratory work where geometric dilution series are required. Such sample plates consist of a transparent plastic material that has a large number of wells as sample spaces for receiving the samples. The samples are manually or automatically pipetted, freeze-dried or evaporated into the individual sample spaces.

For photometric evaluation of the samples, the bottom of known sample plates is designed as a flat bottom suitable for known photometers.

However, with these known sample plates, the measurement of l4C-radioactively labelled samples using radioluminography image plates proves to be extremely difficult. The 14C ß-radiation to be measured does not penetrate the bottom or the wall of known sample plates. The image plate can therefore only be exposed at the open top. The disadvantage of such an approach is that the sample areas that are open at the top are covered by the image plate and reactions between the image plate and the samples can lead to falsification of the measurements.

50.508 DE MW/KÖ 01 June 1994

In particular, it is extremely problematic to measure 14 C-radioactively labeled samples using radioluminography image plates with small sample volumes. For example, with microbore HPLC, the sample volumes are approximately 1-50 microliters or with capillary electrophoresis 1-100 nanoliters, the small amount of which makes the exposure of the image plate on the open top considerably more difficult.

The invention is based on the object of providing an easy-to-handle sample plate for the measurement of radioactively labelled samples, in which the detection sensitivity of in particular 14C ß-radiation is considerably improved.

The above task is solved by the sample places being hollow bodies firmly connected to a structure, the bottom surfaces of which are formed by a common foil that enables the exposure of image plates.

With the sample plates according to the invention, it is now possible to evaluate radioactively labeled samples in accordance with previous photometric evaluation with a photometer. In particular, the use of an e-oil, the thickness of which is preferably about 2 /im , offers no or only a negligible resistance to the 14C ß radiation used for the evaluation. This enables very precise measurement of 14C-radioactively labeled samples using radioluminography image plates in the conventional manner.

A film that meets these requirements is sold under the protected name Hostaphan by Farbwerke

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Distributed by Hoechst AG.

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escape unhindered, so that the sample plate according to the invention is suitable for a 14C radioactivity measurement in the usual way by placing it on an image plate. For this purpose, the base area of the sample plate, not shown here, can also have an edge for enclosing an image plate.

This makes it particularly advantageous to attach radioluminography image plates to both sides of the sample plate and to increase the accuracy of the evaluation.

The film 8 serves directly as the base of the hollow bodies 3 and is glued to the front sides of the hollow bodies 3 or the structure 4, so that liquid or finely powdered samples can also be introduced into the sample places 2 »

• The sample locations 2 shown on the sample plate 1 have a circular cross-sectional area, the diameter of which changes by 1 millimeter over the total height of the sample plate 1 from about 1 centimeter. This tapering of the cross-sectional area of the hollow bodies 3 towards the base surface 7 also enables, in particular, a uniform filling of the sample locations 2.

The dimensions shown in Figures 1 and 2, which show the sample plate 1 according to the invention on an approximately 1:1 scale, correspond to the standard dimensions of such sample plates, so that standardized image plates or photometers can continue to be used.

With suitably selected dimensions, the sample plate according to the invention can also be used advantageously for small sample quantities in microbore HPLC (high pressure liquid chromatography) or in capillary electrophoresis.

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In an embodiment of the invention, the film as the base of the hollow body is glued to the structure and the front sides of the hollow body. This measure also enables the measurement of fine-grained or liquid samples.

In a preferred embodiment, it is further provided that the sample plate is designed on both sides to accommodate a radioluminography image plate. This advantageously enables the samples to be evaluated using two image plates, whereby the detection sensitivity and accuracy of the measurement are significantly increased.

In an embodiment of the invention, it is provided that the cross-sectional area of the hollow bodies tapers towards the bottom. It can also be provided that the cross-sectional area has a circular edge and that the diameter of each hollow body changes by one millimeter to one centimeter in height. The geometry of such a plate makes it possible to fill the hollow bodies evenly, in particular by pipetting. Mixing or centrifugation is also possible in the usual way with such an embodiment.

Finally, it is intended that the total height of the sample plate is approximately 1 cm, whereby with a possible base area of approximately 82 x 127 mm, the dimensions of the inventive sample plate meet the usual, standardized dimensions.

In addition to these standardized dimensions, it has proven to be extremely advantageous to provide a total height of between 1 and 2 mm for a final design of the sample plate. Especially for small sample volumes, as is the case with microbore HPLC

50.508 DE :..::.:.: m&& :X\.: 01 June 1994

or capillary electrophoresis, the geometry of the sample plate significantly improves exposure of the radioluminography plates.

The invention is explained in more detail using an embodiment shown in the drawing. In the drawing shows:

Figure 1 is a plan view of a sample plate according to the invention and

Figure 2 shows a longitudinal section through the sample plate along the line A-A in Fig. 1.

The sample plate 1 shown in Figures 1 and 2 has a large number of sample locations 2, in particular for receiving radioactively labeled samples, which can be pipetted, freeze-dried or otherwise applied in the usual way manually or automatically. The sample locations are designed as tubular hollow bodies 3 with a circular cross-sectional area. The hollow bodies lie next to one another and form a uniform grid in the plan view according to Figure 1 and are firmly connected to a structure 4. The area of the structure 4 enclosing the hollow bodies 3 can have markings 5 so that each sample location 2 can be clearly identified. The structure 4 is delimited by an edge 6 which, in conjunction with the structure 4, is suitable for holding image plates in the usual way directly above the sample locations open at the top for exposure.

As Figure 2 shows, the bottom surface 7 of the hollow body 3 is formed by a film 8 made of clear plastic, the thickness of which is greatly exaggerated in the drawing, and whose thickness is actually approximately 2 /im. C14 ß radiation can be largely blocked by such a film.

50.508 DE :..::. _: , >m?W\ : \"\ \A oi» June 1994

BeziKjszeichenliste

1 Sample plate 2 Rehearsal space 3 Hollow body 4 structure 5 mark 6 edge 7 Floor area S foil

50.508 DE : ::. :mw^K3 :*..·: : oi. June 1994

Claims (1)

Protection claims 1. Sample plate with a variety of sample locations
for collecting radioactively labelled samples,
characterized in that the sample places (2) with a structure (4) firmly connected hollow bodies (3) whose bottom surfaces (7) are formed by a common film (8) enabling the exposure of image plates. 2. Sample plate according to claim 1, characterized
characterized in that the thickness of the film (8) is approximately
two micrometers. 3. Sample plate according to claim 1 or 2, characterized
characterized in that the film (8) as the bottom (7) of the hollow body (3) with the structure (4) and the
Front sides of the hollow bodies (3) are glued. 4. Sample plate according to one or more of claims 1 to 3, characterized in that the Sample plate (1) on both sides for holding a
Radioluminography image plate. 5. Sample plate according to one or more of claims 1 to 4, characterized in that the
Cross-sectional flat hollow body (3) tapering towards the bottom (7). »508 DE :..::. _: . jMlf/Kf · ·!··*. ^: ... ^: 01 June 1994 • · &PSgr; * &PSgr; · 6. Sample plate according to one or more of claims 1 to 5, characterized in that the Cross-sectional area of the hollow bodies (3) circular
is bordered. 7. Sample plate according to one or more of claims 1 to 6, characterized in that the
Diameter of each hollow body (3) by a millimeter to one centimeter in height. 8. Sample plate according to one or more of claims 1 to , characterized in that the total height of the sample plate (1) is approximately 1 cm. 9. Sample plate according to one or more of claims 1 to 8, characterized in that the total height of the sample plate is between 1 mm and 2 mm. 50.508 de : ::.mw/kö:: :*··*:..· &ogr;&igr;. June 1994