DE4314493A1 - Method and test strips for determining an analyte - Google Patents

Abstract

Immunological detection methods with enzyme labels have been of considerable importance in quantitative determinations of analytes for many years. The determinations are, owing to the large number of steps necessary, time-consuming and costly, and they require trained users to carry them out. The test strip according to the novel method makes it possible to carry out quantitative immunological determinations in a short time and without special knowledge. The test strip consists of four zones made of porous material which are fixed on a common base element and are in liquid contact. After entry of the sample liquid into the test strips it flows through the individual elements and there dissolves the reagents necessary for the reactions. An enzyme-labelled analyte analogue and an antibody against the sample analyte are used for the determination. Sample analyte and enzyme-labelled analogue compete for binding to the antibody. The unbound enzyme-labelled analogue is passed into a zone in which a substrate is converted by the labelling enzyme. The reacted amount of substrate is proportional to the amount of the analyte. Test strips for determining cortisol in saliva.

Description

The invention is particularly directed to immunological detection methods such as for many years with qualitative and quantitative determinations of Ingredients in body fluids play a significant role. You stand out characterized by high specificity and sensitivity and are based on the immunological interaction between the analyte and one of these Analytes with high specificity binding biomaterial. By marking one of the Binding partner of the immunological determination can be the degree of implementation and thus the concentration of the analyte can be determined.

A distinction is made between different immunological methods of determination according to selected marker. The present invention is directed to so-called Enzyme immunoassays in which an enzyme is used as a label. Of the Detection of the enzyme is carried out by the action of the enzyme on a substrate, which undergoes a change during the reaction catalyzed by the enzyme. In the simplest case, this change is a change in color that is visual can be evaluated or measured photometrically.

A particularly important method uses an enzyme-labeled one Binding partner, for example an antigen that does not fix and thus in the System is freely movable and a carrier-fixed binding partner, in this case an antibody. The overall reaction contains a reaction step in which the Binding partners are incubated with each other and the specific binding reaction between them. After the incubation period, the amount of enzyme-labeled binding partner, the binding partner fixed to the carrier is bound, inversely proportional to the concentration of the analyte. The amount of the bound enzyme-labeled binding partner is by the action of Labeling enzyme determined on a coloring substrate. A variant of the The principle described above is described below:

To determine an antigen in a sample, a part of the sample is combined with a defined amount of enzyme-labeled antigen and carrier-fixed Antibody incubated. This results in competition between antigen and enzyme-labeled antigen around the limited number of binding sites on the fixed Antibody. The more unlabeled antigen from the sample, the more less enzyme-labeled antigen is bound to the carrier-fixed antibody.  

At the end of the incubation, the amount of enzyme-labeled antigen is the the carrier-fixed antibody is bound, inversely proportional to Concentration of the antigen in the sample.

To determine the enzyme-labeled enzyme bound to the carrier-fixed antibody The reaction of the labeling enzyme with a color-generating agent is antigenic Substrate used. However, since this reaction only occurs with the labeling enzyme of Antigen bound to the carrier-fixed antibody may take place beforehand a separation from the free enzyme-labeled antigen still present at the same time necessary.

The separation is done in the usual way by a variety of Wash steps achieved because the accuracy of the analysis to a significant extent on the quality of the separation between bound and unbound enzyme-labeled antigen.

The provisions are determined by the large number of steps required time consuming if they are done manually. Devices for mechanized Implementation of these provisions are complicated due to the need Construction is maintenance-intensive and expensive. Both manual and Mechanized implementation of the regulations requires trained personnel.

In contrast, there is a growing need for corresponding simple manageable methods of determination. It is desirable to transfer the known immunological methods on carrier-bound test systems, such as has long been known as a "test strip" for many non-immunological determinations are.

To the processes described so far in the patent literature, the few Reaction steps require immunochromatographic Determination methods, as described for example in EP 143574 A1.

It is specific to them that the porous support for fixing the antibodies Materials are used that allow fluid transport by capillary forces allow. The carriers are designed so that the liquid transport in them in one Preferred direction takes place. If a mixture of sample liquid and a defined amount of enzyme labeled antigen with the test system thus constructed in Connected, the sample liquid migrates due to the capillary forces through the test system. During the walk, antigen and  enzyme-labeled antigen from the sample liquid with the antibody in Interaction.

The antibody fixed in the test system is in such an excess present that none at maximum possible antigen concentration Saturation of all existing binding sites occurs. Because of the Liquid transport in a preferred direction takes place in the Binding sites on the fixed antibodies in the direction of fluid transport. The more antigen in the sample, the greater the number of occupied binding sites on the fixed antibody.

For the quantitative evaluation of the binding, the carrier is used in a second Incubation contacted with a solution of the substrate for the marker enzyme. Due to the homogeneous mixture of the antigen with the enzyme-labeled Antigen will be found wherever the antigen is bound to the antibody. develop a color. The size of the resulting colored area is proportional to the concentration of the antigen in the sample. By choosing one stretched shape of the carrier with preferred direction of liquid transport in In the longitudinal direction, the measurement can be limited to the length of the colored area become.

The main disadvantage of the method described is that special measures are required to ensure that the spread of liquid in the carrier takes place evenly and reproducibly, since it is the basis of the quantitative Evaluation is. Another disadvantage is the need for two separate ones Incubations and that the sample is manually added with enzyme-labeled antigen must become.

The invention defined in the claims combines principles immunological determinations of the competitive and the immunochromatographic type to a method with few Reaction steps and reliable quantification.

The essential element of the present invention lies in how the immunochromatographic technique a porous support with capillary Liquid transport to use for antibody fixation, the amount of fixed antibody but analogous to the competitive method.  

It is also essential for the invention that the previously necessary manual Steps to be replaced by making the test system several sequential contains arranged elements with specific reagents. The reagents are there detached from the capillary transported sample liquid and go into the Reactions.

For this purpose, the concentration of fixed antibody in the test system is selected so that they in deficit compared to the sum of the concentrations of antigen and enzyme-labeled antigen. This ensures that when the Test system with an excess of antigen and enzyme-labeled antigen only one Part of the labeled antigen is retained on the antibody and not on the fixed antibody bound excess with the capillary fluid flow over the fixed antibody is transported away. Between the amount of not bound enzyme-labeled antigen and the concentration of antigen in the Sample there is a proportional relationship.

To quantify the amount of unbound enzyme-labeled antigen in the capillary fluid flow this is then into an element of the system headed in depending on the amount passed labeled antigen develops a color.

The invention is described in more detail below on the basis of the exemplary embodiment shown in the schematic FIGS. 1 and 2. Fig. 1 shows a test strip according to the invention. One recognizes the elongated base film 1 and the reaction area, which is identified as a whole as 2 .

Fig. 2 shows the individual elements of the test strip according to the invention. The reaction area 2 essentially consists of four different zones: the contact zone 3 , the depot zone 4 , the binder zone 5 and the indicator zone 6 . With the contact zone 3 attached in front of the actual reaction area, the test strip is immersed in the sample. Zones 3 , 4 , 5 and 6 are connected to one another by adhesive films 7 and 8 in such a way that they are in contact which enables liquid to be transported. The entire reaction area 2 is fixed on the base film 1 with a double-sided adhesive film 9 .

The depot zone 4 contains a conjugate of the antigen and a labeling enzyme. Binder zone 5 contains a carrier-fixed antibody specific for the antigen. The indicator zone 6 contains a coloring substrate S _F for the labeling enzyme, and optionally an auxiliary enzyme, for producing a further substrate for the reaction between the labeling enzyme and the coloring substrate. The depot and binder zone also contain a substrate S _H for the auxiliary enzyme.

When the test strip shown in the figure is brought into contact with a sample by immersion in the contact zone 3 , the sample liquid flows through the contact zone 3 into the depot zone 4 and dissolves the conjugate of antigen and labeling enzyme and the substrate S _H. Since the depot zone 4 is also in liquid contact with the binder zone 5 , the dissolved substances in the sample liquid penetrate into the binder zone 5 .

In the binder zone there is competition between antigen from the sample and antigen enzyme conjugate for binding to the antibody fixed to the support. The more antigen in the sample, the more antigen is bound to the carrier-fixed antibody and the less antigen enzyme conjugate is bound to the carrier-fixed antibody. The sample liquid dissolves further substrate S _{H in} the binder zone. The unbound antigen enzyme conjugate and the substrate S _H pass into the indicator zone 6 with the sample liquid.

In the indicator zone 6 , the substrate S _H reacts with the auxiliary enzyme and supplies the further substrate S _R necessary for the reaction between the labeling enzyme and the coloring substrate S _F. The labeling enzyme reacts with the coloring substrate S _F stored here and the substrate S _R to form a colored substance. The amount of colored substance produced is proportional to the amount of antigen enzyme conjugate that has been transferred and thus proportional to the amount of sample antigen. The color development can be evaluated visually or measured by reflection photometry.

example Test strips for determining the cortisol concentration in saliva according to Fig. 1, 2 Contact zone 3

The contact zone is made of filter paper type MN 615 (Macherey-Nagel + Co., Düren, FRG). Strips of 10 × 80 mm are made, the without further impregnation can be used to produce the test strips.

Depot zone 4

The depot zone is made of glass fiber paper type 3362 (Schleicher & Schuell, Dassel, FRG). Strips of 10 × 80 mm are placed in 0.05 M Tris buffer pH for 30 s 7.2, the 1.5% glucose and 0.3% bovine serum albumin (Fraction V, Sigma Chemie GmbH, Deisenhofen, FRG) contains. The zones are dried in a stream of nitrogen at 20 ° C. Embedding the cortisol-peroxidas conjugate (Sigma Chemie GmbH, Deisenhofen, Germany) is carried out by incubation in 30 s a solution of cortisol-peroxidas conjugate in 0.05 M Tris buffer pH 7.2. To Wipe off excess solution at 20 ° C in a nitrogen stream dried.

Binder zone 5

Strips of filter paper, type MN 615 (Macherey-Nagel + Co., Düren, Germany) Size 30 × 70 mm with stirring in a 0.1 mol / l solution of 1,1'- Carbonyldiimidazole (Fluka Chemie AG, Buchs, CH) incubated in dichloromethane. The Incubation time is 3 h at room temperature. 1 ml of solution per cm² of paper used. After the incubation has ended, the solution is poured off and nine times with a third of the incubation volume dichloromethane 30 each Washed seconds. The paper strips are dried in a stream of nitrogen at 20 ° C.

In Petri dishes, pH 9.5 reconstituted in 0.1 M carbonate buffer, lyophilized cortisol antiserum (Sigma Chemie GmbH, Deisenhofen, Germany) 1,1′- Carbonyldiimidazole-activated paper strips are given. The solution is left on for 2 hours slowly stirred with a magnetic stirrer. After the incubation is complete, the Aspirated solution from the Petri dish. To block remaining binding sites a 0.5% solution of bovine serum albumin (fraction V, Sigma Chemie GmbH, Deisenhofen, Germany) in 0.1 M carbonate buffer pH 9.5 added the paper strip and incubated for a further 30 minutes with stirring. It is then washed three times with 0.05 M Tris buffer pH 7.2. To the Finally, the depot zone is in a solution of 1.5% glucose and 0.1% Tween 20 incubated in 0.05 M Tris buffer pH 7.2 for 30 seconds. The drying takes place after stripping off excess solution in a nitrogen stream at 20 ° C.

Indicator zone 6

Non-woven cellulose nitrate membrane type 439 386 (Schleicher & Schuell, Dassel, Germany) is used to manufacture the indicator zone. Strips measuring 10 _* 70 mm are first placed in a solution of 2 mg / ml 3,3 ', 5,5'-tetramethylbenzidine (Sigma Chemie GmbH, Deisenhofen, Germany) in chloroform. After stripping off excess solution, the mixture is dried in a stream of nitrogen at 20 ° C. The dried cellulose nitrate strips are then placed in a solution of 0.1% Tween 20 (E. Merck, Darmstadt, Germany) in buffer pH 5.5 (0.05 M citrate; 0.1 M sodium dihydrogen phosphate) for 30 seconds and excess after stripping Solution dried again in a stream of nitrogen at 20 ° C. In a third impregnation, the dried cellulose nitrate strips are then introduced into a solution of 200 U / ml glucose oxidase (Sigma Chemie GmbH, Deisenhofen, Germany) in buffer pH 5.5 (0.05 M citrate; 0.1 M sodium dihydrogen phosphate) for 30 seconds after stripping off excess solution again dried in a stream of nitrogen at 20 ° C.

Production of the test strips

The zones are cut according to the described specifications and using adhesive film type 5526 (Beiersdorf AG, Hamburg, FRG) in accordance with the Figure put together into strips. These tracks are with double-sided adhesive film type 5338 (Beiersdorf AG, Hamburg, FRG) Specification of drawings on type 96019 carrier film (Rank Xerox Limited, UK) attached. The combination of reaction zone and carrier film are combined with a Roll cutter cuts strips of 4 mm width. Storage of the strips takes place at 4 ° C with exclusion of moisture.

Claims (11)

1. Method for determining an analyte from a sample, in particular a body fluid, the analyte being part of a pair of specific binding partners. The determination takes place using an enzymatically labeled analyte analog and the carrier-fixed other binding partner. The method contains a reaction step in which analyte, enzyme-labeled analyte analog and carrier-fixed binding partner are incubated with one another. After the specific binding reaction has elapsed, the amount of the enzyme-labeled analyte analog which is not bound to the binding partner is a measure of the concentration of the analyte. This is determined with the aid of the enzymatic labeling, by allowing the labeling enzyme to react with a coloring substrate. The method is characterized in that the binding and reaction partners are chosen in connection with the specific construction of the test strip described in claim 6, so that the binding and other reactions are determined in their sequence solely by the capillary liquid transport. 2. The method according to claim 1, characterized in that the carrier-fixed binding partners with both the analyte and the enzyme-labeled analyte analog is capable of binding. 3. The method according to claim 1, characterized in that the amount of the carrier-fixed binding partner is chosen so that it is smaller than the amount of analyte and enzyme-labeled analyte analog. 4. The method according to claim 1, characterized in that the analyte and the enzymatically labeled analyte analog are antigens and the carrier-fixed one Binding partner is an antibody for the antigens. 5. The method according to claim 1, characterized in that the Carrier material for fixing the one binding partner capillary Liquid transport allowed. 6. Test strips for the determination of an analyte from a sample, in particular a body fluid which is characterized by the following Reaction partner contains: An enzymatically labeled analogue of Sample analyte, a carrier-fixed binding partner  color-generating substrate of the labeling enzyme and reaction partners for an optimal reaction between the labeling enzyme and the coloring substrate are necessary. The test strip is divided into three reaction zones, which are made of porous materials and allow capillary liquid transport. 7. Test strip according to claim 6, characterized in that the Reaction zones are connected so that they are in a liquid exchange enabling contact and the sample applied to the strip is passed through the three reaction zones sequentially by capillary forces. 8. Test strip according to claim 6, which is characterized in that a Reaction zone contains enzyme-labeled analyte analog in such a form that this can be detached from the sample liquid and with the capillary Liquid flow is passed into the other reaction zones. The following will this reaction zone is called the depot zone. 9. Test strip according to claim 6, which is characterized in that the Reaction zone that reaches the capillary liquid flow after the depot zone , contains the binding partner and here the binding reactions between the binding partners. The following is this reaction zone referred to as the binder zone. 10. Test strip according to claim 6, characterized in that the Reaction zone that reaches the capillary liquid flow after the binder zone contains the coloring substrate for the marking system. Hereinafter this reaction zone is called the indicator zone. 11. Test strip according to claim 6, characterized in that depot and Binderzone further reactants for the reaction of labeling enzyme and can contain coloring substrate with the capillary liquid flow reach the indicator zone and then for the reactions be available.