KR100911927B1 - Device for analyzing quantitatively material of living creature - Google Patents

Abstract

The present invention relates to a test strip for analyzing a biomaterial using a colorimetric method and a measuring device for measuring the amount of the biomaterial using the test strip, comprising a reaction unit fixed to the reactant reacting to the biomaterial to be analyzed In the measuring device for biological material analysis using a colorimetric method that is equipped with a test strip attached to the reaction unit to detect light reflected on the reaction part to analyze the properties of the material, the test strip measures the conductivity to determine whether the biological material is applied An electrode is connected to the reaction unit to which the reactant is fixed so as to be judged, and the electrode is connected to the strip mounting unit of the measuring device. The socket part is installed to recognize whether the The analysis that more than enough blood is applied.

Colorimetric method, electrode method, biomaterial, measurement, socket part, test strip, measuring instrument, recognition electrode

Description

Measuring device for analyzing biological material using colorimetric method {DEVICE FOR ANALYZING QUANTITATIVELY MATERIAL OF LIVING CREATURE}

The present invention relates to a test strip for quantitatively analyzing a biomaterial and a measuring device for analyzing a biomaterial using the same, and in particular, to a reaction result of a reactant attached to the test strip and a biomaterial to be analyzed by using the test strip. The present invention relates to a measuring device for quantitatively analyzing a biomaterial. The present invention is particularly useful for the selective quantitative analysis of blood glucose, cholesterol, lactate, hepatic secretory and the like in the blood.

Recently, several methods have been proposed to analyze biomaterials, including blood, in the medical field. Among them, biosensors using enzymatic assays are easy to apply, have excellent measurement sensitivity, and can obtain results quickly. Most widely used in.

Enzyme analysis can be largely divided into spectroscopic colorimetric method (also called colorimetric method) and electrochemical method electrode method. Colorimetric methods are well described in US Pat. No. 4,935,346, and electrode methods are well known in US Pat. No. 5,997,817.

In addition, Korean Patent No. 10-0540849 introduces a measuring device that can use the colorimetric method and the electrode method at the same time and a method that can inform the information of the target to be analyzed. US Patent No. 7,008,799 discloses a colorimetric test strip with a system for automatically inhaling blood. The content of the said document shall be included in this specification by this reference.

1 is a block diagram of a conventional measuring instrument and a test strip using a colorimetric method of automatically inhaling blood.

The conventional colorimetric measuring device 100 is provided with a light emitting device 104 such as a light emitting diode (hereinafter referred to as "LED") and the detector 106 on the bottom of the mounting portion 102 to which the test strip is mounted. It is. In the reaction unit 122 of the test strip 120 inserted into the mounting unit 102, a reactant, which is a reagent that reacts with the biological material to be analyzed, is fixed. The measurement device 100 is turned on by manipulating buttons 108a and 108b by a user, and whether the test strip 120 is mounted is known to the measurement device 100. In addition, when the measuring device 100 has a function of analyzing various biomaterials, information about a biomaterial (hereinafter, referred to as a "subject material") to be analyzed by operation of buttons 108a and 108b may be measured. 100). The color change according to the reaction of the reagent in the reaction unit 122 and the administered biomaterial is according to the degree that the light emitted by the light emitting device 104 is reflected by the reaction unit 122 and detected by the detector 106. Is measured. The measurement results are analyzed by an analysis algorithm (not shown) built in the measuring device and displayed on the display unit 110 such as a liquid crystal display (hereinafter referred to as "LCD").

Although these colorimetric biosensors are easy to implement, they have been developed for a variety of biomaterials, but they are generally difficult to analyze important biomaterials due to longer measurement times and measurement errors due to turbidity of biological samples. Entails. It also has the disadvantage that it is difficult to determine whether the test strip is mounted on the meter. In addition, it is difficult to determine whether enough blood is applied to the test strip.

The present invention has been proposed to solve the problems of the prior art as described above, by forming an electrode on the colorimetric test strip for the analysis of the biomaterial to inform the type of the biomaterial and whether or not the biomaterial is sufficiently applied. It is an object of the present invention to provide a measuring device for analyzing a biomaterial.

It is also an object of the present invention to provide a method for determining whether the blood is sufficiently applied using an apparatus for contacting an electrode formed on a colorimetric test strip.

In order to achieve the object of the present invention as described above, the test strip of the biological material measuring instrument according to the present invention is a test strip for a biological material measuring instrument using a colorimetric method, by measuring the conductivity on the substrate of the test strip of the biological material The electrode is connected to the reaction unit is installed to determine whether the application is characterized in that it is formed.

In addition, the measuring device for biological material analysis using the colorimetric method according to the present invention is equipped with a test strip having a reaction unit is fixed to the reaction material reacting to the biological material to be analyzed to detect the reflected light by shining light on the reaction unit In the measuring device for biological material analysis using a colorimetric method to analyze the properties of the material, the test strip is provided with an electrode connected to the reaction unit is fixed to the reaction material to determine the application of the biological material by measuring the conductivity and In addition, the strip mounting portion of the measuring device is electrically connected to the electrode provided in the test strip is characterized in that the socket portion for recognizing whether the biomaterial is applied to the reaction unit by measuring the conductivity of the electrode is installed.

According to the present invention as described above, it is possible to know whether a biomaterial such as blood is applied to the test strip, so that accurate biomaterial analysis is possible.

In addition, according to the present invention can provide a measuring device for analyzing a biological material having a function of indicating the type of the biological material and whether or not the biological material is sufficiently applied by forming an electrode on the colorimetric test strip for the analysis of the biological material.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2a and 2b is a schematic configuration diagram of a measuring device according to an embodiment of the present invention, Figure 2c is a configuration diagram of a test strip according to the present invention.

As shown in Figures 2a, 2b and 2c, the measuring device 200 according to the present invention is formed with a strip mounting portion 202 for mounting a test strip, the test strip 224 is mounted on the strip mounting portion. .

The test strip 224 includes a reaction unit 222 on which a reactant, which is a reagent, which reacts with a target material, which is a biomaterial to be analyzed, is fixed to the substrate 221, and the tester 200 on which the test strip is mounted. In the strip mounting part 202 of the () is provided with a light emitting element 206 for shining the light in the reaction section and a detector 208 for detecting the light reflected back from the reaction section.

The substrate 221 of the test strip is provided with an electrode 224 so as to be connected to the reaction unit to determine whether the target material is properly applied to the test strip.

2c shows a detailed view of a test strip 240 according to the present invention.

In the test strip 240 according to the present invention, an electrode 224 is formed in a band shape on a substrate 221 made of an insulator, and a reaction part 222 to which a reactant is fixed is attached to the electrode. In the reaction unit 222, a reaction material such as an enzyme for analyzing a biomaterial to be analyzed is fixed. For example, when blood, which is a biomaterial, touches the reaction part, blood glucose in the blood reacts with an enzyme of the reaction part to change color, and the color change is applied to the light emitting device 206 and the detector 208 of the measuring device. It is measured by reflectivity.

The capillary tube is formed on the reaction part 222 of the test strip so that a biomaterial flows as in a general test strip. To this end, an electrode 224 is formed on the substrate 221, a reaction unit 222 is attached thereto, and a spacer 227 divided thereon is attached thereto, and then a cover 228 is attached to the substrate 221. Will be made. The test strip 240 configured as described above is mounted by being inserted into a mounting part of the measuring device as shown in FIG. 2B.

The lower part of the mounting part 202 of the measuring device is provided with a light emitting element 204 for shining light on the reaction part of the test strip and a detector element 206 for detecting light reflected from the reaction part and returning. The socket portion 300 is installed to be electrically connected to the 224.

In the conventional colorimetric test strip, as shown in FIG. 1, since the reagent is fixed to the reaction unit 122 and no electrode is formed, it is difficult to determine whether blood is injected into the test strip.

However, according to the present invention, as shown in Figure 2b, even if the test strip for colorimetric method using the electrode 224 and the socket portion 300 it is possible to easily recognize whether the blood is injected into the test strip. .

In addition, according to the present invention, in order to ensure that the test strip 240 is correctly mounted to the mounting portion 202 of the meter, the test strip is formed with a fixing hole 223 for coupling to the meter, and correspondingly coupled to the The mounting portion is preferably provided with a fixture 303 is inserted into the fixing hole for fixing the test strip.

3 illustrates a configuration in which the test strip 240 and the socket 300 are connected according to the present invention.

The socket 300 installed in the mounting portion of the meter is electrically connected to the electrode 224 of the test strip.

As shown in FIG. 3, the socket part 300 is provided with the blood recognition terminals 302a and 302b. When blood is applied to the test strip, a current flows through both ends of the electrode 224, and by detecting the flow of the current, the meter knows whether blood is inserted. That is, the measuring unit may recognize whether the blood of the inserted test strip is inserted through the socket part 300.

In addition, when blood is applied, enzymes previously treated on the test strip and blood glucose in the blood react to change the color of the reaction part of the test strip. After a certain period of time, the reflectance of the changed color is measured using the light emitting device 206 and the detector 208 of the meter, and at this time, the test strip is measured using the measured reflectivity and the reflectivity-blood glucose value conversion equation stored in the meter in advance. The reaction result at 240 is analyzed and displayed on the display unit 214.

On the other hand, in the measuring device according to the present invention, the code chip 218, which stores the information of the biomaterial to be analyzed, is inserted into the code chip mounting unit 216, and the code chip 218 includes information for analyzing the biomaterial, For example, parameters of the reflectivity-blood sugar conversion equation are stored. That is, according to the present invention, after measuring the reflectance, which is the degree of color change in the test strip using the light emitting device and the detection device, it should be analyzed and converted to the blood glucose value, and the parameters for the conversion are stored in the code chip. have. Since the conversion formula of the reflectivity-blood glucose value and the like are generally used in a conventional blood glucose meter, a detailed description thereof will be omitted.

In addition, the code chip 218 preferably stores information on the type of biomaterial to be analyzed. For example, information on whether the material to be analyzed is blood sugar or cholesterol is recorded. Similarly, the type of biomaterial to be analyzed is recorded in the electrode 224 of the test strip. Therefore, according to the present invention, it is possible to inform the type of the biomaterial by using the electrode, and it is possible to determine by comparing the type of the biomaterial to be analyzed in the code chip and the type of the biomaterial put into the test strip.

For example, as shown in Figs. 4 and 5, the meter and the test strip are connected through a total of five socket terminals.

Figure 4 is a circuit diagram of the socket portion, Figure 5a to 5c is a configuration of the test strip for blood sugar, cholesterol, and triglyceride, respectively.

SW0 / SW1 / SW2 indicates the target of the biomaterial through the presence of electric conduction. Before the test strip is inserted, SW0 / SW1 / SW2 are pulled up to VDD and have a high value.

The test strip of FIG. 5A is a test strip for glucose, and when it is inserted into the mounting part, all of SW0 / SW1 / SW2 are connected to GND to have a low value, and in this case, it is determined as blood glucose.

Figure 5b is a test strip for cholesterol, there is no electrode on the SW1 side SW0 / SW2 has a low value, SW1 has a high value in this case is determined to be cholesterol, if the test strip for triglycerides of Figure 5c SW0 there is no electrode SW1 / SW2 has a low value and SW0 has a high value. In this case, it is determined as a triglyceride test strip.

6 is a block diagram showing the configuration of the measuring device according to the present invention.

The measuring device according to the present invention measures the reflectivity using the control unit 400 for controlling the operation of the measuring device, the data storage unit 402 for storing the measured data, the light emitting device and the detection device to measure the biological material by colorimetry. The first analysis unit 403 for analysis, the socket unit 405 electrically connected to the electrode of the test strip mounted on the measuring instrument, and the second analysis for analyzing the type of the biological material by measuring the current value flowing through the electrode And a display unit 401 for displaying the analyzed result.

Hereinafter, the operation of the test strip according to the present invention and the measurement device for biological material analysis by colorimetric method using the same will be described. For ease of explanation, it is assumed that the biomaterial to be analyzed is blood sugar.

First, a code chip in which information about blood glucose, a biomaterial to be analyzed, is recorded is inserted into a measuring instrument.

When the test strip 240 is inserted into the mounting portion of the meter 200, the power of the meter is turned on, and in the second analyzer 404, whether the substance to be analyzed is blood glucose according to whether the electrode 224 formed on the test strip is conductive. Determine.

If the type of biomaterial indicated by the inserted test strip is different from the type of blood sugar, which is recorded on the code chip mounted on the meter, an error occurs. If the same, the next step proceeds.

If the biomaterials of the code chip and the test strip are the same, the meter checks the conductivity of the electrodes formed on the test strip. If the conductivity is greater than the predetermined current value, an error is generated by determining that the strip is already used or deteriorated. If it is smaller than the set current value, go to next step.

The initial reflectance of the inserted test strip is measured by using the detector and detector. In this case, if the measured value is smaller than the predetermined reflectance value, it is determined as a test strip that has been used or deteriorated. If the measured value is larger than the predetermined value, proceed to the next step.

The second analyzing unit 402 continuously monitors the current value of the test strip connected to the socket part and determines that the blood is applied when it exceeds the predetermined current value.

On the other hand, when blood is applied to the test strip, the reaction waits for a predetermined time so that a sufficient reaction occurs, and then the reflectance is measured using the light emitting device and the detector, and the first analyzer 403 stores the measuring device using the measured reflectivity. It is converted into the blood glucose value by the reflectance-blood glucose value conversion formula.

The final result of the reaction is stored in the data storage unit 402 inside the measuring instrument, and the result is displayed on the display unit 401 made of an LCD installed in the measuring instrument.

The embodiments described herein are merely intended to enable those skilled in the art to easily understand and practice the present invention, and are not intended to limit the scope of the present invention. Accordingly, those skilled in the art can make various modifications, changes and substitutions within the spirit and scope of the present invention.

1 is a block diagram of a conventional measuring instrument using a colorimetric method of automatically inhaling blood.

2 is a block diagram of a measuring instrument and a test strip according to an embodiment of the present invention.

Figure 3 is a connection configuration of the test strip and the socket portion according to the present invention.

4 and 5 are a circuit diagram and a configuration diagram of the socket portion according to the present invention.

6 is a block diagram of a meter in accordance with the present invention.

Description of the main parts of the drawing

200: measuring instrument

206: light emitting element

208: detector element

300: socket portion

212a, 212b: button

214: LCD

224: electrode

302a, 302b: blood recognition terminal

240: test strip

Claims (3)

Measuring device for biological material analysis using colorimetric method which is equipped with a test strip equipped with a reaction part to which the reaction material reacting to the analyte target biomaterial is fixed and detects the reflected light by illuminating the reaction part to analyze the properties of the material To The test strip is provided with an electrode that is connected to the reaction unit is fixed to the reaction material is fixed to determine the application of the biological material by measuring the conductivity, the strip mounting portion of the measuring instrument is electrically connected to the electrode provided in the test strip And a socket part for recognizing whether the biomaterial is applied to the reaction part by measuring the conductivity of the electrode, and storing the information of the biomaterial to be analyzed in order to recognize and analyze the type of the biomaterial to be input to the test strip. Measuring device for biological material analysis using colorimetric method, characterized in that the code chip mounting portion for mounting the code chip is included. delete delete

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