DE10061352A1 - Device for evaluating dot blots, useful e.g. for diagnostic detection of antibodies, comprises plate with parallel slots for blot strips and covered with optical film - Google Patents

Abstract

Device (1) for evaluating blot strips (21) comprising plate (3), having at least two parallel slots (5) with their narrow ends placed the same distance from a long axis of (3), is new. (3) is covered with an optical film (31). An Independent claim is also included for a method of evaluating (21) by arranging them in (1) and evaluating the intensity or color of the blots, visually or instrumentally.

Description

The present invention relates to a device 1 and a method for evaluating blot strips 21 , the device consisting of a plate element 3 in which at least two slots 5 are arranged in parallel, the narrow ends of the slots 5 being the same distance 13 from a longitudinal edge 9 of the plate element 3 and the plate element 3 is coated with an optical film 31 . The device according to the invention allows a correct evaluation of blot strips in a short time and with little work. The invention also relates to the use of the plate element 3 and the device 1 for evaluating blot strips.

The blot, for example in the form of blot strips, is one of the most versatile and efficient tools in biological research, in particular Molecular biochemistry. Proteins can be found on the blot be immobilized so that they can be used with other substrates,  like ligands to interact. For example the protein is stained or sequenced with a Antibodies react, reacted with an enzyme or die Derivatization can be characterized.

Compared to the gel, the membrane is blotted on becomes, easy to handle and reaction and washing operations run fast and unimpeded by fusion problems efficiently. Blot membranes consist of, for example Nitrocellulose, polyvinylidene difluoride (PVDF), positive loaded nylon or polybren coated Glass fibers. The membranes bind the proteins hydrophobic or hydrophobic and ionic interactions.

The easy handling of proteins, antibodies, Carbohydrates, peptides, enzymes, dyes and others on blot membranes has resulted in blot membranes in Industry and research as well as in clinical and pharmacological field are widespread. For example, numerous test kits are offered that antibodies, proteins, peptides, carbohydrates or other biological or chemical structures on the Membrane of the blot strip to be bound with secretions, Breathing air, urine, stool, serum or tissue or Organ suspensions of patients interact.

The numerous uses of blots have this led to increasing blot membranes in the form of test kits in clinical and medical routine - and for  Parallel investigations - can be used. For the Evaluation in clinical routine and for Parallel examinations, however, it is necessary to use the blots evaluate in a standardized manner, for example to digitize. It is also necessary that several Blots, for example in the form of blot strips, parallel or evaluated simultaneously. According to previous methods this happens by using several blot strips an adhesive or a clip attached to a carrier become. It is necessary that the strips in the same distance from each other and in one Line up, that is, at the same height become. In standard tests, for example, 10 to 15 or more blot strips used in parallel. The application of 10-15 strips on a support requires approximately a period of 30 to 45 minutes. They are too previous software programs for digitizing the Information on the blots is limited in the Location, different or incorrect orientations of the Compensate for blots.

The invention is therefore based on the object To provide an apparatus and a method that a correct evaluation of blot strips in a short time and with less work and digitalization enable.

The present invention solves this technical problem by providing a device 1 and a method for aligning blot strips 21 , the device consisting of a plate element 3 in which at least two slots 5 are arranged in parallel, the narrow ends of the slots 5 being the same Have distance 13 of a longitudinal edge 9 of the plate element 3 and the plate element 3 is coated with an optical film 31 . The device according to the invention allows a correct evaluation of blot strips in a short time and with little work. The invention also relates to the use of the plate element 3 and the device 1 for evaluating blot strips.

In one embodiment variant of the invention, it is provided that the plate element 3 has a rectangular base area. With appropriate dimensions, the plate element can thus advantageously be used in various laboratory routines, in clinical and diagnostic areas. Numerous examination devices, such as microtiter plates, have a rectangular basic structure. There are numerous measuring and diagnostic devices or incubation aids for such devices. The plate element advantageously has such a length, width and height that it can be inserted into the already existing laboratory routines.

In a further embodiment variant, the plate element 3 comprises two longitudinal edges 9 , 11 lying opposite one another. The alignment of the longitudinal edges 9 , 11 lying opposite one another advantageously corresponds to that of laboratory devices already used. The integration of the plate element 3 in existing carrier and mounting devices and measuring instruments is hereby advantageously simplified.

In one embodiment of the invention, the plate element 3 can consist of metal. Metals advantageously have great strength and their properties can be varied almost freely due to the composition of individual metals and / or alloys. Plate elements 3 made of metal are advantageously reusable over a very long period of time, especially since they are only slightly attacked and modified by laboratory substances such as solvents or acids. Iron, nickel, magnesium, titanium, chromium, manganese, copper, zinc, tin and / or their legions can preferably be used as metals.

In a further embodiment variant of the invention it is provided that the plate element consists of plastic, optionally also of metal and plastic or plastics. Modified natural materials, thermosets and / or thermoplastics or synthetic plastics such as polycondensates, polymers and / or polyadducts can advantageously be used as plastics. Plastics such as polystyrene, acrylonitrile, polyethylene, polybutene, polyvinyl acetate, polypropylene, polycarbonate, polyamide, polyimide, methyl methacrylate, cellulose acetate, nylon, Teflon, PVC, vinyl chloride, cellulose nitrate and / or polyester films can be used as thermoplastic materials. The plastics used are advantageously only very slowly combustible or flame-retardant. Plastics, such as PVC, have a high chemical resistance or, like methylene methacrylates, have good optical properties. Plastics such as polyethylene, polypropylene, silicone are advantageously biologically inert and therefore only interact to a small extent with substances from the laboratories. Plastics such as nylon and teflon are advantageously very resistant to organic foods. A plate element 3 made of or with plastic can thus advantageously be used in almost all areas of the laboratory routine and also used for aligning blot strips 21 which are treated with aggressive solvent.

In a further embodiment of the invention it is provided that the slots 5 arranged in parallel have the same length, preferably the same length and width. Such plate elements 3 can advantageously be used for the diagnostic and clinical routine. In the routine operation of clinics, for example, several hundred different blot strips 21 can be obtained for evaluation. The blot strips 21 have almost the same length and width, in particular in the clinical and laboratory routine. Advantageously, therefore, the plate element 3 , which comprises slots 5 with an identical dimension, can be used to align corresponding blot strips 21 quickly and uniformly.

According to the invention, the slots 5 are arranged in alignment in one plane and are at the same or almost the same distance from at least one of the longitudinal edges. It is advantageously possible to align the blot strips in such a way that the differently transferred proteins, lipids or carbohydrates are located on the individual blot strips in an imaginary line.

According to the invention, the plate element 3 is coated with an optical film 31 . The optical film modifies, for example, the light with which the blot strips 21 are acted upon and / or scanned for evaluation. The blot strips 21 can be evaluated, for example, by detecting the discoloration or the intensities of the blots on the blot strips 21 . It is advantageously possible to record the discoloration in digitized form. For this purpose, the individual blot strips 21 can be positioned, for example, on a scanner in such a way that it is possible to detect discrete discolourations of the blots 23 , 25 , 27 in comparison to the background coloring of the blot strips 21 . In order to minimize disturbing effects, for example during scanning, it can advantageously be provided that the optical film 31 is applied to the plate element 3 in such a way that interference radiation and / or deflections are largely eliminated. With the aid of the optical film 31 , it is advantageously possible to prevent Newton's rings from occurring.

The optical film 31 is preferably a photo filter and / or a spectral filter. Numerous development methods for making the reaction to the blot strip 21 visible are difficult to detect with the simple eye. Scanning in can also result in certain spots being blended onto the blot strip 21 , ie not being detected optically. By applying the optical film 31 in the form of a photo filter and / or spectral filter, it is possible to change certain wavelengths in such a way that the optical detection of the blot strips 21 is optimized.

In one embodiment variant of the invention it is provided that the device 1 has spacers 3 which are intended to prevent the optical film 31 from resting on the scanner or another surface. Interfering interference phenomena in particular are advantageously avoided by the spacers 33 on the optical film 31 .

The advantage of the device according to the invention is that the blot strips in a very short period of time with little Workload parallel and aligned, i.e. in a line, can be arranged. For example, the  same defined areas on the blot strips as Measuring ranges are digitized or analyzed. For example, in defined areas on the Blot strip extracts from pathogenic microorganisms immobilized. The blot strips treated in this way can e.g. B. to be incubated with serum from patients determine whether antibodies to the Microorganisms are present, their extracts on the Blot strips were immobilized. This is in particular, statements about whether the patient is with has come into contact with the relevant organisms. Through the exact and defined alignment of the blot strips it is still with the device according to the invention possible, even on relatively short blot strips Variety of separate and discrete extracts from different microorganisms. With advantage can e.g. B. on a blot strip that has a thickness of preferably 5 mm and a length of preferably 3 cm has up to 20 different microorganism extracts applied separately and discreetly and subsequently evaluated become. The blot strips can advantageously do this be dimensioned so that they fit almost exactly into the individual slots can be inserted. This prevents that is on a glass plate during a scan for digitizing the blot strips of Newton's rings form.

The invention also relates to the use of a plate element 3 , in which at least two slots 5 are arranged in parallel, the narrow ends of the slots 5 being at the same distance 13 from a longitudinal edge 9 of the plate element 3 or a device 1 consisting of the plate element described and the There is an optical film 31 for evaluating blot strips 21 . By using the described plate element 3 with parallel slit strips, it is advantageously possible to quantify individual blots 23 , 25 , 27 quickly and with little effort. In the case of parallel examinations in particular, it is necessary for the blot strips 21 to be arranged such that a direct comparison between the same blots 23 , 25 , 27 on the individual blot strips 21 is possible.

In an advantageous embodiment variant of the invention, it is provided that the evaluation of the blot strips 21 includes digitization. Not all changes in color and / or intensity of the blots 23 , 25 , 27 on the blot strips 21 can only be detected without any doubt by the human eye. It is therefore advantageously provided that the chemical and / or biological reactions that have taken place on the blot strip 21 are digitized and evaluated with the aid of systems and / or instruments.

The blot strips 21 are evaluated by aligning the blot strips 21 in the slots 5 of the described plate element 3 or the described device 1 and evaluating the intensity or color of the blots 23 , 25 , 27 visually or by means of corresponding measuring devices.

Further advantageous embodiment variants of the invention result from the description.

The invention is intended to be illustrated below using an example are illustrated without the invention on this Example to be limited.

An embodiment of the invention is based on the attached drawings explained. Show it

Figure 1 is a plan view of a device 1 with a rectangular plate member 3 with six pa rallel slots 5 of the same length and width.

Fig. 2 is a sectional side view of the Vorrich device 1 with film 31 and spacer 33rd

The device 1 preferred according to the invention consists of a plate element 3 which has at least two slots 5 arranged in parallel. The slots 5 are continuous and the narrow ends of the slots 5 are each at an equal distance 13 or 15 from the nearest longitudinal edge 9 . The plate element 3 has a rectangular base area 7 . The plate element 3 is delimited by two longitudinal edges 9 lying opposite one another and two longitudinal edges 11 lying opposite these. The distance 13 of the narrow side of the slots 5 to one longitudinal edge 9 is the same for all slots 5 , just as the distance 15 of the slots 5 to the other longitudinal edge 9 is almost identical for all slots 5 . The slots 5 are arranged in the plate element 3 such that the distance 19 of the slots 5 is equal to one another. Due to the parallel and flush alignment of the slit strips 5 , blot strips 21 can be aligned parallel and in an imaginary line. Chemical reactions to the blot strips, which are indicated by discoloration of the blot 23 , can thus be compared directly between the individual blot strips 21 . Due to the exact and parallel alignment, it is easily possible, for example, to identify blots 25 , 27 and 29 as different positive reactions.

Fig. 2 is a sectional side view of the device 1 with the film 31 and spacer 33. The slits 5 are closed off on one side by the film 31 . The blot strips 21 are stored in the slots 5 directly on the film 31 . When illuminating or scanning the blot strips 21 , the blots 23 on the blot strips 21 can be determined efficiently by the optical film 31 . The illumination or scanning can take place from the underside 35 of the plate element 3 . For this purpose, the device 1 is positioned with the underside 35 on a glass plate and scanned or illuminated. Due to interference, z. B. Newton's rings occur. These interference phenomena are weakened by the spacers 33 in such a way that they do not negatively influence the evaluation process.

LIST OF REFERENCE NUMBERS

1

contraption

3

panel member

5

slots

7

Base area of the plate element

9

.

11

Longitudinal edges of the plate element

13

.

15

Distance to the long edges

19

Distance between the slots

21

blot strips

23

.

25

.

27

.

29

blots

31

optical film

33

spacer

35

Bottom of the plate element

3

Claims (11)

1. Device for evaluating blot strips ( 21 ) consisting of a plate element ( 3 ) in which at least two slots ( 5 ) are arranged in parallel, the narrow ends of the slots ( 5 ) being the same distance ( 13 ) from a longitudinal edge ( 9 ) of the plate element ( 3 ) and the plate element ( 3 ) is coated with an optical film ( 31 ). 2. Device according to claim 1, characterized in that the plate element ( 3 ) has a rectangular base ( 7 ). 3. Device according to claim 1 or 2, characterized in that the plate element ( 3 ) consists of metal, preferably of iron, nickel, magnesium, titanium, chromium, manganese, copper, zinc, tin and / or their alloys. 4. The device according to claim 1 or 2, characterized in that the plate element ( 3 ) consists of plastic, wherein the plastic is preferably made synthetically and / or is a modified natural product. 5. Device according to one of claims 1 to 4, characterized in that the slots ( 5 ) have the same length. 6. Device according to one of the preceding claims, characterized in that the optical film ( 31 ) is a photo filter and / or a spectral filter. 7. Device according to one of the preceding claims, characterized in that the device ( 1 ) has spacers ( 33 ). 8. Use of a plate element ( 3 ) in which at least two slots ( 5 ) are arranged in parallel, the narrow ends of the slots ( 5 ) being at the same distance ( 13 ) from a longitudinal edge ( 9 ) of the plate element ( 3 ) for evaluation of blot strips ( 21 ). 9. Use of a device ( 1 ) according to claim 1 for evaluating blot strips ( 21 ). 10. A method for evaluating blot strips, characterized in that the blot strips ( 21 ) are aligned in the slots ( 5 ) of a plate element ( 3 ) in which at least two slots ( 5 ) are arranged in parallel, the narrow ends of the slots ( 5 ) have the same distance ( 13 ) from a longitudinal edge ( 9 ) of the plate element ( 3 ) and the intensity or color of the blots ( 23 , 25 , 27 ) is evaluated visually or by means of appropriate measuring devices. 11. A method for evaluating blot strips, characterized in that the blot strips ( 21 ) are aligned in a device ( 1 ) according to claim 1 and the intensity or color of the blots ( 23 , 25 , 27 ) is evaluated visually or by means of appropriate measuring devices becomes.