DE29720299U1 - Test strips for determining blood sugar - Google Patents

Description

.:..:. ..'DtI)I -Pins. Konrad Scliaercr

European Patent Attorneys Tel:(0)-40-656205 I Fax:-6567919

Coinnierzbank 22 / 58226 BIz 200 40 000 Gcliölzwcg 20. D-22043 Hamburg Postbank 225058 - 208 BIz 200 IO 020

14 November 1997 Reference: 01702

Fred Held,

Dorotheenstrasse 184a, D-22299 Hamburg

Test strips for blood sugar determination

The invention relates to a test strip of the type mentioned in the preamble of claim 1.

According to the current state of technology, diabetics, especially those with type I diabetes, are dependent on determining their blood sugar levels once a day in order to then constantly regulate their nutritional and insulin requirements. Since non-invasive methods of determining blood sugar are not yet ready for the market, the current state of technology requires that a blood sample be taken each time and the sugar content determined outside the body using a suitable measuring device.

Test strips are known for this purpose, on which the BIuI drop is applied within a test field. The test field is evaluated in a measuring device using a suitable measuring sensor. In this process, chemical reactions are usually evaluated using reagents provided in the test field with an optical measuring sensor, e.g. spectrometrically.

To simplify handling in the measuring device, generic test strips are inserted into a slot that fits the test strip until the test field is covered by the measuring sensor. The fit of the test field to the sensor is ensured by the width of the test strip matching the slot width and by the insertion depth of the slot.

The disadvantage, however, is the fact that this process is carried out several times a day for the rest of a person's life, and it must be taken into account that diabetics often suffer from secondary damage, such as poor eyesight. Diabetics can also suffer from poor concentration. This is why incorrect use is common.

Such incorrect operation can lead to the test strip not being inserted all the way or, for example, with the wrong end facing forward or even with the top facing downward (we know this problem from credit card machines). Then the test field is not aligned correctly with the measuring sensor or the sensor even sees the back of the test field. Field measurements caused by this can be life-threatening. If a diabetic falsely determines that his blood sugar level is too low and injects insulin in a high concentration, this will almost certainly lead to death.

The object of the present invention is therefore to create a test strip of the type in question which ensures a higher degree of measurement reliability while being easier to use.

This task is solved with the features of the claim.

According to the invention, the handling area, where the test strip is held for insertion and which protrudes from the slot when inserted, is designed to be optically different from the insertion area of the test strip. This can be achieved in a simple way, for example, by coloring the usual cardboard strip. During the insertion process, a quick glance at the advancing test strip is enough to immediately recognize when the border between the optically different surface areas has reached the edge of the slot, i.e. the edge of the device. When the strip is stuck in the slot, the optically different part of the insertion area protruding outwards signals at a glance that it has not been inserted correctly. In addition, this makes it possible to immediately recognize when the strip is inserted with the wrong side facing up, since the optically different design of the handling area is only provided on one side of the test strip. Incorrect operation, even when handling without concentration, is thus highly reliably ruled out. According to the invention, the required insertion depth of the test strip in the slot is determined based on the correspondence of the border between the two areas of the test strip with the slot opening. Separate markings on the measuring device are therefore not required.

The invention is shown schematically and by way of example in the drawing. It shows:

Pig. 1 shows a top view of a measuring device with an inserted test strip,

Fig. 2 is a front view of the arrangement according to arrow in Fig. 1 and

Fig. 3 is a top view of the test strip of Fig. 1.

Fig. 1 and 2 show a measuring device 1 with a receiving slot 3 opening into the front surface 2, which is open towards the top 4 of the measuring device 1 with an opening 5 that is slightly smaller than the dimensions of the receiving slot 3, whereby a circumferential edge guide is provided for the receiving slot 3.

A test strip 6, which is shown in Fig. 3 in plan view, is inserted into the receiving slot 3 in Fig. 1 as far as it will go. The test strip 6 has an insertion area 7 that fits into the receiving slot 3 and a handling area 8 that protrudes from the receiving slot 3 when inserted.

A test field 9 is arranged in the insertion area 7. In the exemplary embodiment, this consists of a different material than the rest of the test strip 6, for example made of cardboard, and is mixed with test reagents, for example.

After correct insertion according to the position in Fig. 1, the test field 9 is located above a measuring sensor 10 provided under the receiving slot 3, as shown in Fig. 1. The measuring sensor 10 is designed, for example, as an optical sensor, which checks and displays color reactions occurring in the test field 9 depending on the blood sugar content of an applied drop of blood. For this purpose, the measuring device has corresponding electronic computing devices and

Display devices, such as numeric displays, are omitted to simplify the drawing.

As can be seen from Fig. 1, in order to avoid field measurements, it is important to insert the strip correctly in order to bring the test field 9 into exact alignment with the measuring sensor 10. In order to ensure this, for example, if the test strip is jammed, the test strip is, as the figures show, visually filled out differently on its handling area 8 than on the insertion area 7. In Figs. 1 and 3, this is shown by dashed hatching of the handling area 8 up to a border 11.

When inserting the test strip 6 into the measuring device 1, as shown in Fig. 1, it is possible to see at a glance whether the test strip has been inserted correctly. If it is inserted a few millimeters too little, which would already be possible with a field measurement, part of the differently looking insertion area 7 would protrude from the receiving slot 3, i.e. beyond the front surface 2, and would be easily recognizable by eye or, for example, by an optical measuring device.

The optically different design of the handling area 8 compared to the insertion area 7 can be achieved, for example, by coloring, printing, mirroring or by making it out of a different material. The optically different design of the two areas of the test strip is only provided on one side, namely the top side of the test strip 6 shown in Fig. 1 and 3. This makes it easy to distinguish the top side from the bottom in order to avoid inserting the test strip 6 with the wrong side of the test field 9 facing the sensor IO, which would also result in incorrect measurements.

·

In the embodiment shown, the receiving slot 3 is cut out with the opening 5 towards the top 4 of the measuring device 1. It can also be designed to be closed there.

In the embodiment shown, the test strip 6 and the receiving slot 3 have the same width throughout. However, they can also be designed with a width that decreases in the direction of insertion, i.e. they can be conical in plan view.

In the illustrated embodiment, the receiving slot 3 is perpendicular to the front surface 2 in the top view of Fig. 1. For example, for design reasons, an arrangement at a slightly oblique angle can also be provided, in which case the boundary 11 between the insertion area 7 and the optically different handling area 8 must be designed accordingly.

Claims (1)

Dorotheenstrasse 184a, D-22299 Hamburg Test strip for determining blood sugar, with a test field intended for receiving a drop of blood on an insertion area intended for insertion into the receiving slot of a measuring device until the test field is covered by a measuring sensor of the measuring device, and with a remaining handling area which cannot be inserted, characterized in that the handling area is designed to be optically distinguishable from the insertion area on one side of the test strip. KI II ^> :\I1J4SUI'\VVFWANM\ALL()298.RI F