JP2004279312A - Method for determining blood sugar concentration utilizing rising curve - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for determining a blood sugar concentration utilizing a rising curve. <P>SOLUTION: In the method for calculating and determining the blood sugar concentration, utilizing a change of the rising curve, an analog source is produced and used for determining the blood sugar concentration from the reaction of blood sugar and an enzyme on a reagent strip. After the analog source has been processed, the rising curve and a numerical value of the blood sugar concentration can be obtained. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a method of determining blood glucose concentration, and more particularly, to a method of determining blood glucose concentration using a rising curve.
[0002]
[Prior art]
To date, many blood glucose monitoring systems have been constructed. Blood glucose characteristics include blood oxidization, blood glucose concentration, and the like. When trying to accurately measure the blood glucose concentration using a non-invasive blood glucose measurement system, it is difficult to display the blood glucose concentration in a specific manner. The non-invasive blood glucose measurement system is, for example, a spectroscopic.
[0003]
There are several other situations that make it difficult to accurately determine the blood glucose concentration. First, detection of low concentrations of blood glucose in the flowing blood (low values below 100 to 1000 levels of red blood cells), which are non-invasive and require a high signal-to-noise ratio under low concentration conditions Difficult to do. In addition, in the spectroscopic measurement method, the characteristics of glucose are similar to the characteristics of water contained at high concentration in blood. Therefore, when using the optical measurement system, since the glucose is present in the blood, the characteristics of the optical signal become ambiguous due to the optical characteristics of water.
[0004]
In addition, dry phase reagent test strips containing components of enzymes are widely used as a reliable means of measuring blood glucose concentration in clinical laboratories, etiologies and at home. Such reagent strips can be used to measure glucose, cholesterol, proteins, ketones, phenylalanine or glucose in blood, urine or saliva, but are routinely used to measure glucose concentration in blood samples. ing. In fact, for many diabetics, it is necessary to use daily reagent strips to measure blood glucose levels.
[0005]
The reagent strip is one of the well-known methods of measuring blood glucose concentration, and the reagent contained in the reagent strip exhibits a different color change under different blood concentrations. The reagent strip is inserted into a measuring instrument, such as a reflectance photometer, to measure the blood glucose concentration, and the reflectometer measures the blood glucose concentration by a change in color that occurs after reacting the blood glucose on the reagent strip with the reagent. Determine the value. Among them, the reagent generally includes an enzyme such as glucose oxidase, which converts glucose into gluconic acid lactones and hydrogen peroxide. Further, the reagent includes a substance containing an oxidizable dye and a peroxidative activity, and the peroxide reacts in the presence of hydrogen peroxide, selectively under the oxidizing action of the oxidative dye. .
[0006]
Traditional blood glucose meters measure blood glucose concentration, the measurement time taken is 10 to 30 seconds, the measurement time is long, and most of the basis for determining the concentration is fixed after the peak value. The data is picked up at the time and the result is obtained after dozens of seconds.
[0007]
[Problems to be solved by the invention]
A main object of the present invention is to provide a method for determining a blood glucose concentration value using a rise time.
[0008]
It is another object of the present invention to provide a method for calculating a concentration value using a change in rise time to obtain an accurate blood glucose concentration value.
[0009]
Still another object of the present invention is to make a chart using the rise time and the concentration of the blood glucose solution, and to measure the concentration of the unknown blood glucose solution using the known rise time.
[0010]
In order to achieve the above object, the present invention provides a method for calculating and judging a blood glucose concentration using a change in rise time. The enzymatic reaction of the blood glucose with the reagent strip generates an analog source for use in a blood glucose meter and obtains a rising curve after processing the analog source. The rise time is fairly short, so that a blood glucose concentration value can be obtained immediately.
[0011]
[Means for Solving the Problems]
The invention according to claim 1 is a method for measuring a blood glucose concentration,
Providing a waveform comprising a turning point, wherein a first time corresponding to the turning point is a starting point of the waveform;
Calculating a maximum value of the waveform and obtaining a second time corresponding to the maximum value, and using the second time as an end point of the waveform;
Calculating a difference value between the first time and the second time, and using the difference value as a rise time of the waveform;
Finding the concentration value of the blood glucose solution corresponding to the rise time,
And a method for measuring blood glucose concentration.
According to a second aspect of the present invention, there is provided the blood glucose concentration measuring method according to the first aspect, wherein the maximum value of the waveform is obtained by a calculation in which a temporal derivative is greater than zero.
According to a third aspect of the present invention, in the blood glucose concentration measuring method according to the first aspect, the step of searching for the concentration value of the blood glucose solution corresponding to the rising time uses a relationship diagram between the rising time and the concentration value of the blood glucose solution. The method is characterized in that the blood glucose concentration is measured.
According to a fourth aspect of the present invention, in the method for measuring a blood glucose concentration according to the first aspect,
Providing a solution containing a blood glucose component on a reagent strip containing an enzyme, causing a chemical reaction between the blood glucose component and the enzyme to generate an analog source;
Inputting the analog source to a measurement circuit and converting the analog source to a digital signal;
Outputting the digital signal in the form of a waveform, and setting a time corresponding to a turning point of the waveform as a first time;
Calculating a maximum value of the waveform, and setting a time at the maximum value as a second time;
Calculating a value of a difference between the first time and the second time, and using the value of the difference as a rise time of the waveform;
Finding the blood glucose concentration of the solution containing the blood glucose component corresponding to the rise time;
And a method for measuring blood glucose concentration.
According to a fifth aspect of the present invention, there is provided the blood glucose concentration measuring method according to the fourth aspect, wherein the chemical reaction is an oxidation-reduction reaction.
According to a sixth aspect of the present invention, in the method for measuring a blood glucose concentration according to the fourth aspect, the measuring circuit comprises:
An amplifier circuit for receiving the analog source;
A converter for converting the analog source from an analog signal to a digital signal;
A processing control device for processing the digital signal;
An output device for outputting the digital signal after processing;
And a method for measuring blood glucose concentration.
According to a seventh aspect of the present invention, there is provided the blood glucose concentration measuring method according to the sixth aspect, wherein the conversion device is an analog front end device.
The invention of claim 8 is the blood glucose concentration measuring method according to claim 6, wherein the conversion device is an analog-to-digital conversion system.
A ninth aspect of the present invention is the blood glucose concentration measuring method according to the sixth aspect, characterized in that the processing control device is a microprocessor control unit.
According to a tenth aspect of the present invention, there is provided the blood glucose concentration measuring method according to the fourth aspect, wherein the maximum value of the waveform is obtained by a calculation in which a temporal differentiation is greater than zero.
According to an eleventh aspect of the present invention, in the method for measuring a blood glucose concentration according to the fourth aspect, the step of searching for a blood glucose concentration of the solution containing the blood glucose component corresponding to the rising time is performed. The method is a method for measuring the blood glucose concentration, characterized by using figures.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
It takes 10 to 30 seconds or more to obtain blood glucose levels by traditional methods. Therefore, there is a high possibility that an error in blood glucose concentration determination is formed. For this reason, the present invention provides a method of determining blood glucose concentration using a rising curve so that an accurate blood glucose concentration value can be obtained at a rising time.
[0013]
FIG. 1 is a flowchart of a method for determining a blood glucose concentration using a rising curve according to the present invention. At step 10, an analog source is generated by the reaction of a blood glucose solution with a reagent, eg, an enzyme, on a reagent strip. In step 12, the processing device processes the analog source, converts the signal of the analog source into a digital signal by the processing device, and displays the digital signal waveform on the display device. In the present invention, the blood sugar concentration is converted into a voltage and displayed. Subsequently, at step 14, a turning point (or referred to as a starting point) of the waveform is found based on the displayed waveform diagram, and a corresponding time point is obtained. Subsequently, in step 16, a maximum value, that is, a peak value is searched for based on this waveform. At step 18, a time point (also called an end point) corresponding to the peak point is calculated. In step 20, a value of a difference between the two numerical values of the end point and the starting point is determined, and the value of the difference is defined as a rising time. Finally, in step 22, the known blood sugar concentration and the rising time are made into a relative figure, and then a corresponding blood sugar concentration value is found based on the rising time.
[0014]
FIG. 2 is a block diagram illustrating a method of determining a blood glucose concentration using a rising curve according to the present invention. In the block diagram, reference numeral 30 denotes an analog source, which is a reactant generated by a reaction between blood sugar and a reagent such as an enzyme on a reagent strip. Subsequently, the analog source is put into the processing device 32. The processor 32 converts an analog source into a digital signal. The processing device 32 includes an operation amplifier (OP) 32A. An analog source is sent to the conversion device 32B via the operation amplifier 32A, and the analog source 30 is converted into a digital signal by the conversion device 32B. The conversion device 32B is an analog front end device (AFE) or an analog-to-digital conversion system (ADC). After the analog source 30 is converted into a digital signal, it is sent to a processing controller 32C, which may be a microprocessor control unit (MCU). Thereafter, the processed digital signal is displayed on the display device 34, for example, a display, and the displayed graphic is a curved graphic.
[0015]
Next, FIG. 3 is a waveform diagram of the present invention, in which the blood glucose concentration and the enzyme on the reagent strip react with each other and then further processed by a processing device and displayed on a display device, wherein the abscissa represents time. The unit is millisecond (ms), the ordinate is a voltage value, and the unit is millivolt (mV).
[0016]
FIG. 4 is a graph showing the relationship between the blood glucose solutions of different concentrations obtained by the above-described method and the rise time. The abscissa is the rise time, the unit is milliseconds (ms), and the ordinate is the blood glucose concentration, which is expressed in millivolts (mV). Thus, the blood glucose concentration of the unknown solution is determined from the rise time obtained by the measurement and the relationship diagram for the blood glucose solution having the unknown concentration.
[0017]
The above is a description of preferred embodiments of the present invention, and does not limit the scope of the present invention, and any modification or alteration of details that can be made based on the present invention shall fall within the scope of the claims of the present invention. I do.
[0018]
【The invention's effect】
The present invention provides a method for calculating and judging the blood glucose concentration using the change in the rise time. An analog source for determining blood glucose concentration is generated by the reaction between blood glucose and an enzyme on the reagent strip. This makes it possible to obtain a rising curve after processing the analog source and obtain a numerical value of the blood sugar concentration.
[Brief description of the drawings]
FIG. 1 is a flowchart of a method for determining a blood glucose concentration using a rising curve according to the present invention.
FIG. 2 is a step block diagram of a method for determining blood glucose concentration using a rising curve according to the present invention.
FIG. 3 is a waveform diagram displayed by a display device after further reacting with different blood sugar concentrations and enzymes on a reagent strip according to the present invention.
FIG. 4 is a graph showing the relationship between the rise time and blood glucose concentration obtained by the method of the present invention.
[Explanation of symbols]
30 analog source 32 processing device 32A operational amplifier 32B analog front end device 32C microprocessor control unit 34 display device

Claims (11)

In the method for measuring blood glucose concentration,
Providing a waveform comprising a turning point, wherein a first time corresponding to the turning point is a starting point of the waveform;
Calculating a maximum value of the waveform and obtaining a second time corresponding to the maximum value, using the second time as an end point of the waveform;
Calculating a value of a difference between the first time and the second time, and using the value of the difference as a rise time of the waveform;
Finding the concentration value of the blood glucose solution corresponding to the rise time,
A method for measuring blood glucose concentration, comprising: 2. The blood glucose concentration measuring method according to claim 1, wherein the maximum value of the waveform is obtained by a calculation in which a temporal derivative is greater than zero. 2. The blood glucose concentration measuring method according to claim 1, wherein the step of searching for a concentration value of the blood glucose solution corresponding to the rising time uses a relationship diagram between the rising time and the concentration value of the blood glucose solution. How to measure the concentration. The method for measuring blood glucose concentration according to claim 1,
Providing a solution containing a blood sugar component on a reagent strip containing an enzyme, causing a chemical reaction between the blood sugar component and the enzyme to generate an analog source;
Inputting the analog source to a measurement circuit and converting the analog source to a digital signal;
Outputting the digital signal in the form of a waveform, and setting a time corresponding to a turning point of the waveform as a first time;
Calculating a maximum value of the waveform, and setting a time at the maximum value as a second time;
Calculating a value of a difference between the first time and the second time, and using the value of the difference as a rise time of the waveform;
Finding the blood glucose concentration of the solution containing the blood glucose component corresponding to the rise time;
A method for measuring blood glucose concentration, comprising: The blood glucose concentration measuring method according to claim 4, wherein the chemical reaction is an oxidation-reduction reaction. The method for measuring blood glucose concentration according to claim 4, wherein the measurement circuit comprises:
An amplifier circuit for receiving the analog source;
A converter for converting the analog source from an analog signal to a digital signal;
A processing control device for processing the digital signal;
An output device for outputting the digital signal after processing;
A method for measuring blood glucose concentration, comprising: 7. The blood glucose concentration measuring method according to claim 6, wherein the conversion device is an analog front end device. 7. The blood sugar concentration measuring method according to claim 6, wherein the conversion device is an analog-to-digital conversion system. 7. The blood sugar concentration measuring method according to claim 6, wherein the processing control device is a microprocessor control unit. 5. The blood glucose concentration measuring method according to claim 4, wherein the maximum value of the waveform is obtained by calculation in which a temporal derivative becomes larger than zero. 5. The blood glucose concentration measuring method according to claim 4, wherein in the step of finding the blood glucose concentration of the solution containing the blood glucose component corresponding to the rising time, a relationship diagram between the rising time and the concentration value of the blood glucose solution is used. The method for measuring blood glucose concentration.

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