EP1705480B1 - Test element for analysing body fluids - Google Patents

Abstract

Test strip for determining analytes in body fluids comprising a sample application site (3) and a test site which is separated from it, and a contamination zone (7) surrounding the application site which is coated with an adhesive, to which excess sample adheres after drying, is new. Independent claims are included for: (1) use of polyvinyl acetate as adhesive material in the test strips; (2) production of the test strips comprising application of adhesive material to the contamination zone, drying it; (3) fitting the test strip with a cover (2); (4) production of the test strips comprising applying reagents to the test site, either before or after applying adhesive to the contamination zone; (5) a magazine for the test strips; and (6) a system consisting of test strips and the magazine, into which the strips are placed after use.

Description

The present invention relates to the use of an adhesive substance in an analytical test element for determining the concentration of a body fluid. Furthermore, the invention relates to analytical test elements having an adhesive substance.

The examination of bodily fluids in clinical diagnostics allows the early and reliable detection of pathological conditions as well as the targeted and well-founded control of body conditions. For individual analyzes, which are specifically aimed at one parameter, today often only a few microliters to less than one microliter of blood are needed. For blood is usually through the skin, z. B. in the fingertip or earlobe of the person to be examined using a sterile, sharp lancet pushed. This method is particularly suitable if the analysis of the blood sample can be carried out immediately after obtaining the blood.

For the chemical and biochemical analysis of body fluids, however, carrier-bound rapid tests have become established in the specialized laboratories, especially for use outside of fixed laboratories. Based on a specially developed dry chemistry such carrier-bound rapid tests are despite the often complex reactions involving sensitive reagents, simple and straightforward, even by laymen perform. The most prominent example of carrier-bound rapid tests are test strips for the determination of the blood glucose content in diabetics.

State of the art

Carrier rapid test analytical test elements typically include a point of application on which the body fluid to be tested is applied and a detection area in which the analyte sought is detected. These are usually so-called on-top test strips or so-called capillary test strips. For on-top test strips, the application site is above the detection area, possibly separated from each other by a fleece or the like. For capillary test strips, the detection area is along the longitudinal axis of the Applied test strip offset to the application site. This design has the advantage that the test element can be positioned so that the application location is easily accessible outside of a measuring instrument, while the detection area is located inside the device, where the evaluation unit can be arranged well protected directly next to it. The test strip can remain in one position during the entire concentration determination and does not have to be moved to a measuring position after the sample has been applied. In capillary test strips, the sample material is capillary forces, the z. B. from a transport element such as a capillary, absorbent fabric or a nonwoven, which generates a capillary action, transported from the place of application to the detection area.

In the case of analytical test elements, in particular in the case of the test strips with capillary action which apply as self-dosing, excess blood is frequently still present at the point of application or on the outer sides of the capillary after the measurement. The handling of disposal of such a soiled test strip is on the one hand operator unfriendly and unhygienic, and on the other hand, especially in hospitals, there is a risk of contamination to the environment.

A similar hygiene problem arises in the case of magazined test elements in which a magazine with several analytical test elements is inserted into a measuring instrument. For measurement, a test strip is brought from the instrument to an order position. After the measurement, the used test strip is taken back into the magazine and remagazine. This has the advantage for the user that he does not have to dispose of a test strip after each test. When all test strips of the magazine have been used up, the magazine is removed from the measuring device and replaced with a new one. The used test elements are packed in the magazine and can therefore be hygienically handled and disposed of. The disadvantage of these systems is that the test strips are stored sealed before use in the magazine to protect them from dirt and moisture, but after use, the individual storage chambers for the test strips are usually no longer closed, so superfluous applied Blood that sticks to the used test strips may crumble over time and through openings in the magazine may contaminate the instrument, in particular the evaluation optics or other device components.

US 5,104,640 describes an adhesive for blood on glass slides. Polyvenylpyrrolidone (PVP) is used as an additive in alcohol fixation of blood smears. In blood smears, the blood is applied to a glass slide, streaked and examined, ie place of application and detection area are in the same place. The sample is spread as thinly as possible, so that the blood adheres to the glass carrier substantially already without an adhesive by adhesion forces. The PVP only supports this effect and only needs to fix a thin layer of blood.

EP 1 413 880 describes a test element according to the preamble of claim 14, but wherein the adhesive substance has another function, namely the sticking of the test element to the skin.

The object of the present invention is to overcome the disadvantages of the prior art and the problems mentioned in the introduction. It is intended to provide a high-volume cost-effectively producible diagnostic test element in which the application location is spaced from the detection area. Once applied to the test element body fluid should adhere to the test element to avoid contamination of the environment. On the other hand, the spacing from the point of application to the detection area requires sample transport. To ensure this sample transport, a good wettability of the test element and transmission of body fluid is necessary. The object of the invention is therefore to develop a test element that meets these conflicting requirements. In particular, it is the object of the present invention to avoid the contamination of a measuring instrument containing a magazine in which test elements are remagazine after use.

Description of the invention

The object is achieved by the use of an adhesive substance or by a system according to the independent claims, preferred embodiments are given in accordance with the dependent claims. The invention describes analytical test elements that facilitate hygienic storage and disposal of used test elements. In particular, the invention relates to test elements which are stored after use in a reservoir, wherein on the test elements an adhesive substance is applied, which avoids a crumbling superfluous applied body fluid. The test elements are preferably fluid-conductively coated in the areas in which the body fluid can be applied, transported and detected, and in the areas which can be wetted with body fluid which is not used for the measurement, an adhesive substance can be applied. In this way it is ensured that body fluid can flow from the place of application to the detection area and an analyte concentration can be determined there. At the same time, excess applied body fluid may at least partially interact with the adhesive substance and adhere to the test element.

An analytical test element for determining an analyte in a body fluid for use in accordance with the invention includes a detection region in which the analyte is detected and a point of application where the body fluid can be applied to the test element, the detection region being spaced from the application site, wherein at least one Part of a discontinued on the place of application body fluid from the place of application reaches the detection area. The test element further includes a contamination area that borders at least a portion of the application site, wherein at least a portion of the contamination area, an adhesive substance is applied. The adhesive substance adheres to the contamination area of the test element and is furthermore able to interact with a body fluid superfluous on the test element in such a way that the body fluid adheres to the test element at least in part, so that superfluous applied body fluid remains on the test element. In particular, in this case, a stop of the constituents of the body fluid takes place, which are not volatile.

For example, in order to ensure that body fluid naturally flows after being applied at the application site to the spaced detection area, the transportation route is designed to be easily wetted by the body fluid. Preferably, a capillary acting transport element is used for this purpose, which is hydrophilic coated, for example. A diagnostic test element preferably has a plurality of capillary-acting regions, for example at the application site, to ensure that body fluid can be applied to the test element, to the transport element to transport body fluid from the application site to the detection area, and in the detection area where after wetting with the body fluid an analyte in the body fluid can be detected. For this purpose, hydrophilization methods are possible as they are, for. B. in the prior art WO 99/29435 are called. The wettability is usually sufficient if the liquid in the transport element has a concave meniscus, which is the case when the wetting angle is less than 90 °.

Under a test element is any form of carrier-bound rapid tests for diagnosis to understand, especially rapid tests in strip form, so-called test strips, in particular for the determination of blood glucose content in diabetics such as in WO 2004/064636 and in EP 1 039 298 described. The test elements are usually constructed of a plurality of superimposed films, which are preferably joined together by lamination or gluing. These films are usually made of plastic, for example polyester. The base film forms, for example, a so-called carrier film on which a spacer film glued, which produces the capillary. The capillary channel can be covered by a so-called cover film.

By analyte is meant a constituent of the bodily fluid which reacts with detection chemistry in the detection area so that, starting from a certain amount of the analyte, the reaction can be measured in a measuring arrangement. In a preferred embodiment, blood is used as a sample liquid to detect blood glucose as an analyte in the detection area and to determine therefrom the concentration of blood sugar.

In addition to blood, interstitial fluid and other bodily fluids are also possible as body fluids. It is also possible, not just an analyte, z. As blood glucose, but also several analytes, eg. Glucose and HbAlc, and detect this from both a body fluid, e.g. As blood, as well as from a mixture of several body fluids, eg. As blood and interstitial fluid perform.

In the detection area, the analyte can react with a detection chemistry and generate a measurement signal. The measurement signals can be detected, for example, by a detection unit in order to determine therefrom the concentration of the analyte in the body fluid. In the case of photo-optical test strips, this can be, for example, a color change; in electrochemical systems, for example, a current signal is generated. Moreover, it is also possible that there is no detection chemistry in the detection area and, for example, by optical reflectance and / or transmission measurement, the concentration of the analyte sought is determined.

The place of application designates the point at which the body fluid is applied by the user to the test element. From there, the body fluid is forwarded, for example via capillary forces in the detection area. The place of application is spaced from the detection area. The analytical test element may include a transport element that transports body fluid from the point of application to the detection area.

The adhesive substance is applied in an area that can be contaminated with body fluid, the so-called contamination area. The contamination area describes a region in which superfluously applied body fluid, for example blood, can pass, in particular during application to the test element. The area of contamination is at least partially adjacent to the place of application. The contamination area may include multiple non-contiguous portions, for example, multiple sides adjacent the point of application, such as on the underside of a carrier sheet and on top of a cover sheet. If a transport element is present, then the adhesive substance can also be located next to or along the transport element. An adhesive substance is not absolutely necessary at the cut edges since there is a danger of the crumbling of dried-on blood, especially if there is a larger amount of superfluous blood, and such a larger drop extends to the carrier or cover foil due to its spatial extent so as to ensure that the drop comes into contact with the adhesive substance. If the transport element is a capillary, then, for example, the adhesive substance can be applied around the capillary.

For the structure of the transport element, various embodiments are conceivable. For example, the transport element may have a capillary. Preferably, the transport element includes a capillary channel or a capillary gap, but it can also be a kind of wick or a fleece are used. The transport element may be a separate component, for. Example, an additional capillary, or it may be integrated into the analytical test element, for example in the form of a groove or a capillary channel, which is formed when applying a spacer film with a capillary on a carrier film and applying a cover sheet. In addition, the transport element may be coated with a special layer. For example, it may be hydrophilized to enhance the transport of body fluid. Additionally or alternatively, negative pressure can be used to assist the transport of the liquid into the detection area.

The detection area can also be covered with a type of fleece that serves as a transport element and provides protection against contamination, as well as can serve to certain parts of the body fluid, eg. As erythrocytes, separate from the blood and / or to effect a uniform distribution of body fluid in the detection area by a so-called spreading of the liquid. The fleece can be located directly above the detection area and the place of application is on the upper side of the fleece, for example on top test strips. In such a test element, therefore, a sample transport takes place perpendicular to the longitudinal axis of the test strip. However, the fleece can also be laterally offset from the detection area or the place of application, in particular in the case of capillary test strips. Here, the fleece can for example lie on the detection area, under the place of application, or between the two areas.

By adhesive substance is meant a substance which causes superfluous applied body fluid, in particular blood and interstitial fluid or the like. remains after drying of the body fluid on the analytical test element and in particular not, for. As in mechanical stress when handling the analytical test element, after use, for. B. during storage, especially in the Remgazinierung used test element in a magazine, or the disposal crumbles. Advantageously, the aqueous portions of the body fluid dissolve the adhesive substance, so that the adhesive substance and body fluid mix. This mixture dries by evaporation of the liquid, for example in a period of about 10 to 20 minutes, and the dried substance adheres to the attached body fluid to the analytical test element. The drying time is naturally dependent on the ambient climate, in particular the ambient temperature and the humidity, and can vary greatly according to these parameters. Of course, also adhesive substances are conceivable which ensure adhesion of the sample to the test element immediately after contact with the sample liquid.

The actual measuring process for the determination of the analyte in the body fluid is independent of this process, d. H. The drying time in no way influences the time required for a measuring cycle. Rather, the method is such that, for example, after a measurement, the analytical test element is transported back into a magazine and remagazineized there. The measuring cycle is usually much shorter than the above-mentioned drying time, ie. H. If the test strip is pushed back into the magazine, excess blood may not have dried yet. While the used test strip is stored in the magazine, the excess blood dries up on the test strip, preventing dried blood from crumbling and contaminating parts of the device, the optics or the environment.

Advantageously, the adhesive substance is not applied to the application site and / or to the transport element, as this may lead to less sample liquid being available for the measurement, since a part of the sample can interact with the adhesive substance and does not reach the detection area. In addition, it is possible that adhesive substance enters the detection area with the sample and adversely affects the measurement. If adhesive substance is present in the detection area, the application of the detection chemistry or the fixation and / or durability of the dry chemistry or the measurement itself may be impaired.

If the adhesive substance, z. B. is applied for reasons of ease of manufacture, inter alia, in the place of application, the transport element and / or the detection area is the adhesive substance is preferably selected so that it does not adversely affect the measurement process. The analysis system is then tuned accordingly, e.g. B. so that an increased demand for required sample volume can be accepted.

The adhesive substance described is a substance which, without absorbing self-volume, can prevent detachment of dried superfluously applied body fluid, in particular blood, by producing an adhesive connection between body fluid and test element. For example, the aqueous portions of the blood dissolve the adhesive substance, which leads to a solid contact of the body fluid with the carrier material after the body fluid has dried. The adhesive does not create a capillary action that would compete with the capillary at the point of application for the sample fluid. In particular, the adhesive substance acts time-delayed with respect to the capillary at the point of application, so that first the detection area is filled with sample and only superfluously applied liquid is bound by the adhesive substance. Advantageously, the force that affects the adhesive substance on the sample, at least immediately after the trial order significantly lower than the capillary force with which the sample is transported into the detection area, so that is ensured in this way that the detection area is first filled and only the superfluous applied body fluid with the adhesive substance adheres to the test element.

If, instead of an adhesive substance to be used according to the invention, without absorbent self-volume, an absorbent substance would be used, for example a kind of sponge or a rough surface, this substance would compete with them due to their capillary action and the necessary spatial proximity to the test strip capillary or the application site an increase in the necessary sample volume, since at least a portion of the sample would be aspirated during the filling process of the detection area of the absorbent substance.

The adhesive substance is preferably applied during the production of the test strip and in this case is mechanically so stably connected to the test element that the adhesion layer is not removed in the subsequent process steps and during handling and transport by mechanical stresses such as bending, torsion or abrasion. The dried excess body fluid that has bound to the adhesive should, after it has dried, adhere so stably to the test element that it remains on the test element during handling by the user, disposal of the test strip, and especially during remagazine. The binding of the adhesive substance to the test element and the binding of the dried excess body fluid in interaction with the adhesive substance on the test element can be physical in nature. In this case, the adhesive substance swells in contact with the liquid and forms a sticky mass during the evaporation of the body fluid, which adheres to the test element.

According to the adhesive substance is polyvinyl acetate (PVAc). For example, an aqueous dispersion of 35 weight percent PVAc having a thickness of about 60 microns is applied to the analytical test element. Subsequently, the dispersion is dried at about 70 ° for about 30 s and then gives an approximately 17 μm thick dry layer on the test element. PVAc is available, for example, from Wacker under the trade name Vinnapas®; typical molar masses are 1,000-100,000 g / mol. The adhesive may, for example, with a squeegee, by spraying, dipping, printing, z. As screen printing or pad printing, or casting are applied.

1. 1. Aufbringen einer Haftsubstanz auf den Kontaminationsbereich, wobei der Kontaminationsbereich zumindest zum Teil aus Kunststoff besteht und auf einer Träger- und /oder Deckfolie angeordnet ist, so dass die Haftsubstanz zumindest zum Teil an dem Kunststoff des Kontaminationsbereiches haftet, wobei die Haftsubstanz fähig ist, mit einer auf dem Testelement überflüssig aufgetragenen Körperflüssigkeit in der Weise wechselzuwirken, dass die Körperflüssigkeit auf dem Testelement zumindest zum Teil haftet, so dass überflüssig aufgetragene Körperflüssigkeit am Kontaminationsbereich verbleibt,
2. 2. Trocknen der Haftsubstanz auf der Träger- und/ oder der Deckfolie, und
3. 3. Zusammenfügen von Träger- und Deckfolie zu einem analytischen Testelement.

The following describes the preparation of an analytical test element for determining an analyte in a body fluid, comprising a detection area for detecting an analyte in a body fluid, a point of application where a body fluid can be applied to the test element, the detection area being spaced from the point of application, wherein at least a part of a body fluid applied to the place of application passes from the place of application to the detection area, and a contamination area, which borders at least part of the place of application. A method for producing an analytical test element having an adhesive substance includes, for example, the steps

1. 1. Applying an adhesive substance to the contamination area, wherein the contamination area consists at least partly of plastic and is arranged on a carrier and / or cover film, so that the adhesive substance at least partially adheres to the plastic of the contamination area, wherein the adhesive substance is capable of to interact with a superfluous on the test element body fluid in such a way that the body fluid adheres to the test element at least partially, so that superfluous applied body fluid remains at the contamination area,
2. 2. Drying of the adhesive substance on the carrier and / or the cover sheet, and
3. 3. Assembly of carrier and cover sheet to an analytical test element.

The application may be complete, that is, full-surface, on the entire surface of the film or only on parts thereof. If the test strip consists of a carrier film and a cover film in which a capillary is formed therebetween, for example by a spacer film, or even without a spacer film, the lower side of the carrier film and the upper side of the cover film are preferably coated with the adhesive substance, the carrier film and cover film be mounted so that the upper side of the carrier film facing the underside of the cover sheet and thus the forming between the two films capillary is not coated with the adhesive substance. The carrier film can be coated on the upper side and / or the cover film on the underside at least partially hydrophilic. The carrier or cover sheet may have a recess in the region of the application site, whereby the hydrophilic coating is accessible and lying open, so that the body fluid can be easily applied to the hydrophilic layer. The recess can z. B. by punching one of the two films before bonding the two films are produced together. This has the advantage, for example, that the adhesive substance can be applied over a large area on the upper side of the cover film and on the underside of the carrier film without having to shield the application site. The subsequent punching, for example, the cover sheet, exposes the hydrophilic layer of the application site.

After application of the adhesive substance, this is dried for example for 30 s at 70 °. Subsequently, the films can be processed as usual to an analytical test element. Ie. the process of applying the adhesive substance to the analytical test element interrupts not the usual production process for producing an analytical test element, but is an upstream process step, which subjects the films, in particular the carrier and the cover sheet, to a pretreatment. After drying, the adhesive substance is mechanically stable so that the coated films can go through the usual manufacturing process.

• Aufbringen der Haftsubstanz auf den Kontaminationsbereich der Trägerfolie, die im Kontaminationsbereich zumindest zum Teil aus Kunststoff besteht, wobei die Haftsubstanz zumindest zum Teil an dem Kunststoff der Folie haftet und die Haftsubstanz fähig ist, mit einer auf dem Testelement überflüssig aufgetragenen Körperflüssigkeit in der Weise wechselzuwirken, dass die Körperflüssigkeit auf dem Testelement zumindest zum Teil haftet, so dass überflüssig aufgetragene Körperflüssigkeit am Kontaminationsbereich verbleibt,
• Trocknen der Haftsubstanz auf der Trägerfolie,
• Aufbringen des Reagenz auf den Nachweisbereichs der Trägerfolie, wobei dieser Schritt vor oder nach dem Aufbringen der Haftsubstanz erfolgen kann.

For an analytical test element that does not have a cover sheet and is advantageously single-layered, the method of making the test strip may include the following steps:

• Applying the adhesive substance to the contamination area of the carrier film, which at least partially consists of plastic in the contamination area, wherein the adhesive substance at least partially adheres to the plastic of the film and the adhesive substance is capable of interacting with a superfluous on the test element body fluid in the manner that the body fluid adheres to the test element at least in part, so that superfluous applied body fluid remains at the contamination area,
• Drying of the adhesive substance on the carrier film,
• Applying the reagent to the detection region of the carrier film, wherein this step can take place before or after the application of the adhesive substance.

Preferably, the adhesive substance is applied to the carrier top, either on the entire surface completely or on parts of the carrier film. The detection area can be applied, for example, to the adhesive substance, or it can be applied to areas of the carrier film on which there is no adhesive substance. For example, the application of the reagent to the adhesive substance on the carrier film, or at least part of the detection area is not covered with adhesive substance.

Another possible method for producing an analytical test element according to the invention may include the following steps: applying the detection area to a carrier film, preferably on the carrier top and usually only on a small area of the carrier film, applying the adhesive substance to the carrier film, wherein at least a part of the detection area is not covered with adhesive substance, and then drying of the adhesive substance on the carrier sheet of the analytical test element. A structured coating can, for example, be realized by a screen-printing method with a mask which shields at least part of the detection area, or by pad printing with a pressure stamp which has a corresponding recess.

It is possible to provide one or more analytical test elements to the user in a storage container (magazine), adhesive substance being applied to the test elements so that superfluously applied body fluid remains at the contamination area. For example, one or more test elements according to the invention, to which an adhesive substance has been applied, are stored in a storage container, and the analytical test elements are stored after use in the same or in another magazine (remagazine).

For most analytical test items, the test strips are sealed before use and packaged tightly to protect them from environmental impact. To use the test strips, the seal is broken and the test strips are in open chambers after use when remagazineized. In order to prevent contamination by dried superfluous applied body fluid in such a system, the used test strips would also have to be tightly packed after Remagazinierung in the same or in another magazine, which means a high technical effort. The application of an adhesive substance according to the invention to the analytical test elements offers a technically simple solution for this, since the adhesive substance adheres to the contamination area of the test element and is furthermore able to interact with a body fluid superfluous on the test element in such a way that the body fluid on the test element at least partially adheres, so that superfluous applied body fluid remains at the contamination area. Therefore, the analytical test elements according to the invention are particularly suitable for use in systems in which the test strips are remagazine after use. Advantageously, adhesive substances are also used which ensure adhesion of the sample immediately after sample application. In this way, contamination of the device during transportation of a used test strip for Remagazinierung can be prevented.

It is also possible that a system for determining an analyte from a body fluid includes one or more analytical test elements and a reservoir (magazine) for these test elements, the test elements being stored in the reservoir after use. In addition, the system preferably includes a measuring instrument with an evaluation unit, in which the detection area can be evaluated and from this the concentration of the analyte can be determined.

FIG. 1 shows an example of an analytical test element 1, which includes a cover sheet 2 and a carrier sheet (not visible). The cover sheet 2 has a recess 3 at the point of application to which the body fluid is applied, which causes the hydrophilic intermediate layer 4 to be accessible in the recess 3. During manufacture, a strip 7 of, for example, 7 mm width, which has been coated with an adhesive substance in a previous operation, on a tape with several contiguous test elements on top of the cover sheet 2 and optionally a second strip on the underside of the carrier film in the contamination area laminated to the tip of the test elements. Subsequently, the test element band is separated into individual test elements. The edge trimming is punched out before or after singulation along a contour 5, leaving a single test strip with, for example, a 2.8 mm wide blood adhesion strip in the area of the blood application score 3. The remaining section 6 is discarded.

FIG. 2 shows an inventive analytical test element 1 with a recess 3, shown in an exploded view. On a carrier film 10, in which the recess 3 has been introduced in the form of a V-shaped notch, which may serve, inter alia, the marking of the application, there is a spacer film 11, which the contour and the height (corresponding to the thickness of the spacer film 11) a capillary-active channel 12 determined. The spacer film 11 consists of a double-sided adhesive tape, for example, activated carbon was added to the adhesive composition. On this spacer sheet 11 are a cover sheet 2, a detection area 14, and a protective film 16 to lie. Recess 3 and detection area 14 are mounted so close to one another that the capillary-active zone 12 extends continuously from the free, lying over the recess 3 edge of the recess 3 to the opposite, free edge of the detection area 14. The recess in the spacer film 11, which determines the shape of the capillary-active channel 12, is held slightly longer than cover film 2 and detection area 14 together so that a generally only a few millimeters wide, uncovered gap remains, from which when filling the capillary-active zone 12th Air can escape with sample liquid. This gap remains uncovered by the protective film 16 so that its function remains ensured. The protective film 16 is intended to prevent exposed regions of the adhesive tape of the spacer film 11 from leading to undesired bonding of the test element to objects from the environment. In the surrounding environment of the recess 3, in particular on the upper side of the cover film 2 and on the underside of the carrier film 10 is the contamination area. According to the invention, an adhesive substance is applied at least in a part of this range. Advantageously, on the entire top of the cover sheet 2 and on the entire underside of the carrier film 10 applied an adhesive substance, wherein the recess 3 ensures that the capillary channel 12 is accessible and free of adhesive substance.

FIGS. 3 to 6 describes an example of a storage container 20 in which analytical test elements 1 are stored (remagazine) after use. The storage container is inserted into a measuring instrument (not shown). To carry out a measurement, the test element 1, which contains a detection area 14, is pushed out of the reservoir 20 into an order position by the instrument and, if necessary, moved to a second measurement position after application of the body fluid in order to be analyzed there. After the measurement, the spent test element is withdrawn back into the reservoir. According to the invention, an adhesive substance is applied to the test strips 1 in the contamination area so that superfluous applied body fluid remains on the analytical test element and does not contaminate the interior of the device. Without the use of an adhesive substance z. B. dissolve dried blood from the test element and pass through the engagement opening 23 or the Ausschuböffnung 25 in the device interior.

The storage container 20 is formed by a drum magazine 21 designed as a cylindrical plastic injection molded part. The guide chambers 22 are arranged distributed in the circumferential direction and extend axially continuously between an end-side engagement opening 23 for a drive unit 24 and an opposite Ausschuböffnung 25. The drum magazine 21 has a central bore 26 with edge teeth 27 for a not shown stepper for flush positioning of auszuschiebenden test element in The feed axis of the drive unit 24. Radially offset outward axial blind holes 28 for receiving a desiccant 29 are arranged. To protect against harmful environmental influences, the guide chambers 22 are closed at the end by a (not shown) sealing film.
At the in FIGS. 3 and 4 illustrated embodiment, the test strips 1 are held for better guidance in a carriage 30 which is longitudinally displaceable in the respective guide chamber 22 like a drawer. The carriage 30 engages around an end portion of the test strip 1 and is connected thereto via a latching nose 31. For positive coupling with the individual plunger 32, a single holding claw 33 of the carriage 30 is provided as a driver. By this arrangement, pushing out of the test element for performing a measurement and retrieving the (used) test strip for Remagazinierung is possible.

At the in FIGS. 5 and 6 In the embodiment shown, a test strip 1 corresponding to the carriage 30 described above for a reciprocating movement via a single retaining claw 33 as a driver with a single drive ram is positively connected. For transmitting movement to the test strip 1, a spring clip 40 is provided as a drive plunger. Of course, any number of other types of storage of test strips are conceivable, as they are well known in the art. According to the invention, the system is not limited to any specific embodiment of a magazine and / or a test element transport.

Claims (14)

1. Use of an adhesive substance for application in an analytical test element (1) for determining an analyte in a body fluid, wherein the test element (1) comprises

   - a detection area (14) for detecting an analyte in a body fluid,

   - a site of application on which a body fluid can be applied to the test element (1), where the detection area (14) is spaced apart from the site of application and the site of application is connected to the detection area (14) in such a manner that at least some of the body fluid applied to the site of application can be transported from the site of application to the detection area (14), and

   - a contamination area into which excess applied body fluid passes and which at least partially borders the site of application, wherein the adhesive substance is applied to at least a part of the contamination area,

   wherein the adhesive substance adheres to the contamination area of the test element (1) and additionally interacts with a body fluid applied to the test element (1) in such a manner that a body fluid applied to the test element (1) at least partially adheres to the test element (1), wherein the excess applied body fluid adheres to the adhesive substance after the body fluid has dried.
2. Use according to claim 1, wherein the adhesive substance binds non-volatile components of the body fluid to the analytical test element (1).
3. Use according to one of the claims 1 or 2, wherein the contamination area consists at least partly of plastic.
4. Use according to one of the claims 1 to 3, wherein the adhesive substance is capable of adhering to a plastic.
5. Use according to one of the claims 1 to 4, wherein the adhesive substance has essentially no absorbent self volume.
6. Use according to one of the claims 1 to 5, wherein the adhesive substance is not applied to the site of application itself.
7. Use according to one of the claims 1 to 6, wherein the analytical test element (1) comprises a transport element (12) which fluidically connects the site of application and the detection area (14) and transports the body fluid from the site of application to the detection area (14).
8. Use according to claim 7, wherein the transport element (12) is hydrophilically coated.
9. Use (1) according to one of the claims 1 to 8, wherein the adhesive substance comprises components of water-soluble adhesives.
10. Use (1) according to one of the claims 1 to 9, wherein the adhesive substance contains polyvinyl acetate.
11. Use (1) according to one of the claims 1 to 9, wherein the adhesive substance contains dextrin or natural rubber.
12. Use (1) according to one of the claims 1 to 11, wherein the analytical test element (1) comprises a carrier foil (10) and a cover foil (2) and the underside of the carrier foil (10) and the upper side of the cover foil (2) are at least partially coated with the adhesive substance, and the upper side of the carrier foil (10) faces the underside of the cover foil (2).
13. Use (1) according to claim 12, wherein the upper side of the carrier foil (10) and/or the underside of the cover foil (2) are at least partially hydrophilically coated.
14. An analytical test element (1) for determining an analyte in a body fluid comprising

    - a detection area (14) for detecting an analyte in a body fluid,

    - a site of application on which a body fluid can be applied to the test element (1), where the detection area (14) is spaced apart from the site of application and the site of application is connected to the detection area (14) in such a manner that at least some of the body fluid applied to the site of application can be transported from the site of application to the detection area (14), and

    - a contamination area into which excess applied body fluid can pass and which at least partially borders the site of application, wherein the adhesive substance is applied to at least a part of the contamination area,

    wherein the adhesive substance adheres to the contamination area of the test element (1) and additionally interacts with a body fluid applied to the test element (1) in such a manner that a body fluid applied to the test element (1) at least partially adheres to the test element (1), wherein the excess applied body fluid adheres to the adhesive substance after the body fluid has dried, characterized in that the adhesive substance is polyvinyl acetate.

Images