DE3110345A1 - DEVICE FOR READING THE OPTICAL DENSITY OF SAMPLES, ESPECIALLY OF ELECTROPHORETICALLY OBTAINED SAMPLES - Google Patents

Description

Device for reading the optical density of samples, especially of samples obtained electrophoretically -

The invention relates to a device for evaluating samples, in particular for reading the optical density, as is the case, for example is carried out with the help of so-called densitometers or similar laboratory equipment.

In the case of biological samples that are obtained, for example, by electrophoresis or similar processes, im general multiple samples in the form of parallel strips, which are equidistant with a predetermined distance on sheet-shaped supports are arranged. The carriers can be evaluated in transmitted light, i.e. as transparencies, or in incident light, i.e. through reflection will.

Devices are currently used on which a single sheet-shaped carrier can be attached, on which a there is a limited number of strip-shaped samples obtained at the same time. The various samples are in the most cases optically scanned individually one after the other, with a corresponding reading head after scanning a sample is displaced relative to the sheet-shaped sample carrier. Devices of this type work and are comparatively slow relatively space-consuming.

The invention is based on the object of faster dismantling /

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Jesung of the individual samples and thus a larger number of To achieve readings per unit of time. Another purpose is to increase the productivity of each agent increase. Yet another purpose is to reduce the space required for the same number of readings. More with the Invention pursued aims and advantages are: The replacement of alternating movements by rotational movements; the independent Positioning of the individual cover glasses for the sheet-shaped sample carriers, for example by means of small magnets and thus a compensation for possible alignment errors in the connection of the membrane or sheet-shaped carrier and cover glass (which is not possible with feed magazines with samples arranged in stacks); easy removability of the sample carrier and quick exchange of the same for another prepared sample carrier.

Further advantages result from the use of optical glass fibers. These include: The reduction of interference effects, which are due to the cloudiness and the diffuse light (in the case of not completely transparent membranes); a filter effect on the ambient light; the possibility the arrangement of the lamp and the photodetector at a mutual distance and at a distance from the samples; good radiation guidance with light entry and exit with reduction of the ambient light penetrating from the end areas.

To achieve the objectives and advantages described above, a device for reading the optical density of samples, in particular for the quantitative optical evaluation of electrophoretically obtained samples with sample carriers and evaluation means characterized according to the invention by a disk-shaped holder, in the edge area of which the samples can be attached are, by means for rotating the disc-shaped holder and by selection means for moving the reading means in a direction which is substantially radial in relation to the disc-shaped holder.

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in general, the samples on the sample carrier are in strip form arranged and have a fenchromatisch variable drawing in the longitudinal direction of the stripes. According to a further education According to the invention, each of several groups of samples is arranged in the form of juxtaposed strips so that the the strips forming the samples are oriented perpendicular to a substantially radial direction and that adjacent groups of samples for reading while rotating the disk-shaped Bracket are arranged along an annular part of the disc-shaped bracket.

In this case, a reading head can be provided, by means of which one of the strip-shaped samples can be read in a known manner, the reading head being movable by suitable drive means in a direction which roughly corresponds to the above-mentioned essentially radial direction and the movement at ' each revolution of the disk-shaped holder takes place over a distance section which is equal to the distance between adjacent strip-shaped samples of the same group. The movement of the reading head over the mentioned route section is preferably carried out after the completion of one revolution of the disk-shaped holder and during a brief standstill of the same.

According to another variant, the strip-shaped samples be arranged with a substantially tangential alignment on a spiral line of the disk-shaped holder, the movement of the reading head taking place continuously in synchronism with the rotational movement of the disk-shaped holder.

Another variant is characterized in that the evaluation means comprising a plurality of read heads aligned with one another along a substantially radial line in a mutual Distance are arranged which corresponds to the distance between the strip-shaped samples of one and the same group, such that a corresponding number of samples can be selectively evaluated at the same time. -According to another further development of the invention-

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tion, the strip-shaped samples are arranged to run essentially radially and a read head is provided whose substantially linear shape and its positional arrangement corresponds to the shape and arrangement of the samples and by means of this all zones of one and the same sample simultaneously and selectively and then the zones of the respectively neighboring ones Sample can be evaluated.

The disk-shaped holder is preferably designed to hold groups of samples lying next to one another, each of these groups being on a sheet-shaped sample carrier that is independent of the other groups.

Alternatively, the. disc-shaped holder also designed be that it is suitable for receiving an annular sample carrier on which all groups of Samples are located together.

In the following the invention is exemplified with reference to the drawings explained in more detail:. .

Fig. 1 shows in a highly schematic manner an embodiment of the device according to the invention in one longitudinal section diametrically to the disc-shaped holder »

Fig. 2 shows a plan executed as a local section, the corresponds essentially to the line H-II of Fig. 1,

Fig. 3 shows a plan view of a disc-shaped holder with a different arrangement of the sheet-shaped Sample carrier,

FIGS. 4 and 5 show, schematically and analogously to FIG. 2, further variants for the arrangement of the sample carriers and / or the reading means.

1 with a base part is designated in its entirety in the drawings, on which with the help of bearings 3 a "vertical shaft 5 is stored. On the shaft 5 there is a disc-shaped neck

■ bracket 7 installed. The shaft 5 is of one preferably as a synchronous or stepping motor or as a direct current motor designed electric motor 8 can be driven, denoted by 9 and via a worm gear 10, 11 with the shaft 5 is coupled. The control of the motor 9 is based on a program explained in more detail below.

The disc-shaped holder 7 has in its edge area a plurality of seats 7A, in each of which a sheet-shaped Carrier 12 can be introduced, on which strip-shaped produced by electrophoresis or similar processes .ge samples are located. The sheet-shaped carrier 12 are in the At'spiel according to FIGS. 1 and 2 positioned in such a way that die'strip-shaped samples, (those with the same Distance are arranged in parallel), are oriented perpendicular to a central radial direction.

A threaded spindle 14 is also mounted on the base part 1, the axis of which is horizontal and perpendicular to the vertical one Axis of the shaft 5 runs. The spindle shaft 14 is further down by means of an electric stepping motor 16 control program described can be driven. It is coupled to a threaded piece 18, which is part of a designated 20 is radially guided to the disk-shaped holder 7 carriage. The carriage 20 has two fork-shaped arranged arms 22 and 24 which enclose the edge of the disc 7 in the reading area. With the upper arm 22 is a bundle optical glass fibers 26 connected, which establish an optical connection to a designated 28 photodetector. The latter is in turn connected to signal processing circuits. Similarly leads to the lower one Arm 24 of carriage 20 is a bundle of optical glass fibers 30 which are connected to a light source 32. These The arrangement is used to read transparent sample carriers, with a bundle of light rays emerging from the glass fibers 30 and penetrates the sample, arrives at the fiber optic bundle 26 and the optical signal modulated by the sample dem

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photodetector 28 functioning as an optoelectronic converter is supplied.

In the device described above, the sheet-shaped sample carriers 12 are placed on the disc 7 in such a way that each sample lies on a circular line common to all sheet-shaped sample carriers. Accordingly is a number of such circular lines corresponding to the number of samples present on each sample carrier is provided. With the help of the control system 16, 14, 18, the carriage 20 can be moved so that the optical bundle for the reading of the samples first in the area of a first circular Alignment of the specimen is positioned. When the disc-shaped bracket 7 and the control influence of the electric motor 9 and the worm gear unit 10/11 executes one revolution, all samples are evaluated that are on the sample carriers attached to the disc 7 and lie on the same circular alignment line. After a Rotation of the disc-shaped holder 7, the carriage 20 is relative to the disc 7 in the direction of the spindle shaft 14 radially shifted by a distance equal to the distance between two adjacent strip-shaped samples on each of the sample carriers 12 corresponds. Then the samples evaluated, which are located on the circular alignment line controlled by the read head. The movement of the sled 20 is preferably carried out during a brief standstill of the disk-shaped holder 7. However, it is also possible to let the disc 7 rotate further during the advance of the carriage.

In the device described above, the optical fiber bundles 26 and 30 are flexible and can therefore compare limited displacements of the carriage 20 follow. However, an embodiment is also conceivable in which the reading head, the light source 32 and the photodetector 28 are fixedly arranged on the base part and the disk 7 carrying carriage is slidable on this.

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.-According to a variant not shown, the reading system works, which uses the transparency of the sample carrier in the device described above, with reflection. For this For example, a fiber optic bundle can be provided, the fibers of which are used on the one hand for lighting and on the other hand for reading and which, for example, on the Arm 22 of the carriage 20 is attached.

In Fig. 3 an embodiment is shown in which both the disk-shaped holder and the read head supporting carriage are moved continuously. In this case, the disk-shaped holder marked 107 is marked with Seats 107A equipped, which are arranged in such a way that the strip-shaped pattern is essentially perpendicular to are aligned in a central radial direction, but the individual sheet-shaped sample carriers and thus the individual seats 107A have a distance from the center of the disc 107 which changes progressively. So the individual strip-shaped samples essentially on a spiral, the line spacing of which corresponds to the spacing of the strip-shaped Corresponds to samples on a sample carrier. In this case, the carriage 20 is rotated for each revolution of the disk 107 moves a distance corresponding to the line spacing mentioned. Reading is therefore carried out with continuous movement during a number of revolutions corresponding to the number of samples arranged on a sample carrier. At the end of the continuous During the reading process, the disk-shaped holder 107 is stopped for the exchange of the samples. The sled 20 is returned to its original position.

In FIG. 4, an exemplary embodiment is indicated in which the disk-shaped holder 7 is combined with a structure 120 is, which is either fixed or attached to a slide. This construction carries several optical ones Read heads 122, the number of which is the fixed number of samples provided on each sheet-shaped sample carrier 12 in this case is equivalent to. The read heads 122 are in accordance with the circular

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-migen alignment lines of the samples carried by the holder 7 arranged. All samples of a sheet-shaped sample carrier 12 are read at the same time. The entirety of the disk-shaped holder 7 is arranged samples during a single rotation of the disk 7 or during a number read from the number of revolutions corresponding to the number of samples on each sample carrier, in the latter case one Switching between the various reading heads 122 takes place.

In a further variant shown in Fig. 5 is a -Disc-shaped holder 207 with sheet-shaped sample carriers 212 ^ provided, on which the individual samples perpendicular to "the samples of the exemplary embodiments described above are oriented, i.e. the strip-shaped samples are on each of the sheet-shaped sample carrier 212 aligned parallel to a central radial direction. In this case the Read head 220 has a complex of optical glass fibers 225 arranged elongated in the radial direction of disk 207 Glass fiber complex transfers a true image of the individual sample strips to a linear matrix of optoelectronic Converters. Each of the strip-shaped samples is evaluated simultaneously over its entire length if it is in the reading zone corresponding to the reading head 225 is located. There is no radial relative movement between the reading head and disc-shaped bracket but only an angular movement of the bracket instead.

In the embodiments shown in FIGS electronic or mechanical programming means can be provided be that an adjustment of the relative movements of each piece of equipment in relation to the number of on each of the sheet-shaped sample carriers and the spacing between these samples. The seats can be designed so that they can accommodate sheet-shaped sample carriers of different dimensions. It can different interchangeable disc-shaped brackets can also be provided, which are adapted to the dimensions

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- r-

: the pro are adapted.

It is also possible to use closed ring-shaped sample carriers on which the strip-shaped samples are placed radially
(analogous to the embodiment according to FIG. 5) are arranged. In this case, the individual samples are evaluated one after the other in the manner already described.

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Claims (9)

r claims 1. Device for reading the optical density of samples, in particular for the quantitative optical evaluation of electrophoretically obtained samples, with sample carriers and reading devices, marked - by a disc-shaped holder (7), in the edge area the samples (on 12) can be attached, - by drive means (9, 10, 11) for rotating the disk-shaped Bracket (7) -. • and by selection means (14, 16, 18, 20) for movement 'the reading means (26, 28) in a with respect to the disc • "Ben-shaped holder (7) in a substantially radial direction. 2. Apparatus according to claim 1 for samples in the form of strips with a chromatically variable in the longitudinal direction of the strips Drawing, characterized in that each of several groups of samples is arranged in the form of juxtaposed strips so that the samples forming Strips are oriented perpendicular to a substantially radial direction and that adjacent groups of samples for a reading during the rotation of the disk-shaped holder (7) along an annular surface of the disk-shaped Bracket (7) are arranged. 3. Apparatus according to claim 1 and 2, characterized by a reading head (22, 26), by means of which in each case one the strip-shaped samples can be read, as well as by drive means (14, 16, 18, 20) for moving the reading head (22, 26) in a direction that is substantially the same as that mentioned corresponds to the radial direction, this movement with each revolution of the disc-shaped holder (7) takes place in each case over a route section which is equal to the distance between adjacent strip-shaped samples of the same Group is. 130061/0636 -a 4. Apparatus according to claim 3, characterized in that the movement of the reading head (22, 26) over said Route section after completing one revolution of the disc-shaped holder (7) and during a short one Standstill takes place the same. 5. Apparatus according to claim 1 to 3, characterized in that the strip-shaped samples with substantially tangential alignment on a spiral line of the disk-shaped holder (107, Fig. 3) are arranged and that the read head (26) is continuously synchronized with the disc-shaped. Holder (107) is movable. 6. Apparatus according to claim 1 and 2, characterized in that that the evaluation means several read heads (122, Fig. 4) which are arranged in alignment with one another along a substantially radial line at a mutual distance are the distance between the strip-shaped samples corresponds to one and the same group, so that a corresponding plurality of samples can be selectively evaluated at the same time. 7. Apparatus according to claim 1, d a d u r c h characterized in that the strip-shaped samples extend substantially radially are arranged and that a read head (225, Fig. 5) is provided, the substantially linear shape and whose positional arrangement corresponds to the shape and arrangement of the specimens and by means of which all zones one and the same sample simultaneously and selectively and then the zones of the respectively neighboring sample can be evaluated are. 8. Apparatus according to claim 1 to 7, characterized in that the disc-shaped holder for receiving adjacent groups of samples is formed, each of these groups being on a sheet-shaped sample carrier that is independent of the other groups. 130061/0636 9. Apparatus according to claim 1 to 7, characterized in that the disc-shaped holder for receiving a sheet-shaped sample carrier is designed in the form of a closed circular ring, which all groups of samples is common. 130061-0636