KR20180045113A - Apparatus for diagnosing poc and control method thereof - Google Patents

Abstract

A POC diagnosis apparatus and a control method thereof are disclosed. According to the present invention, the POC diagnosis apparatus comprises: a strip sensing unit for sensing a state of insertion of a strip; a strip connecting unit connected to a strip formed with a lead wire extending from at least one pair of electrodes disposed adjacent to each other; a strip characteristic measuring unit for measuring a change of a first signal measured from the other lead wire after applying the first signal to one of the lead wires through the strip connecting unit; a measuring unit for applying a second signal to one of the lead wires through the strip connecting unit and measuring a change value from the other lead wire; and a control unit for calculating a transfer characteristic value of the strip on the basis of the change of the first signal measured through the strip characteristic measuring unit and then calculating an analysis value by compensating for a transfer characteristic value of the strip with respect to the change value measured by the measuring unit.

Description

[0001] APPARATUS FOR DIAGNOSING POC AND CONTROL METHOD THEREOF [0002]

The present invention relates to a POC diagnostic apparatus and a control method thereof, and more particularly, to a POC diagnostic apparatus and a control method thereof, which compensate a deviation of a transfer characteristic value at the time of diagnosis by measuring and calculating a transfer characteristic value of an inserted strip for diagnosis .

As the interest in point of care (POC) devices has increased recently, the development of related devices is also increasing.

Typically, there is a medical diagnostic device for diagnosing an infection or disease using blood or body fluids. When a drop of blood is dropped on a strip-shaped diagnosis paper inserted in the medical diagnostic device, dozens of diseases such as diabetes, hyperlipidemia and myocardial infarction can be identified And the health status can be checked according to the type of the diagnosis site.

For example, blood glucose means glucose contained in the blood. The living body maintains the internal environment for maintaining its own life. The blood glucose is also consumed through the interaction of various hormones, The supply is balanced to maintain an adequate level in the blood. Blood sugar is used as an energy source for intracellular mitochondria and the brain.

The blood glucose level is the concentration of glucose present per 100 ml of blood, and is used for confirmation of diabetes and the like.

The amount of blood glucose is also generally measured through the amount of glucose in the blood. However, since glucose can not be directly measured, blood glucose is measured by an indirect method in which glucose is reacted with an enzyme and the amount of the by-product is measured. Electrochemistry is an electrochemical method for measuring the electric current generated by the reaction of glucose with an enzyme, and a photometric method for measuring the color produced during the enzymatic reaction.

The electrochemical type most commonly used for measuring a sample in a recently introduced POC diagnosis apparatus is a method in which a measurement strip is inserted into a main body and a sample is taken on a strip.

Related prior arts include Korean Patent No. 10-0980316 entitled " Strip with Temperature Compensation Function and Method for Measuring Blood Glucose Using It, "

When the measurement strip is inserted into the body of the POC diagnosis apparatus and the sample is collected on the strip, when the transfer characteristic value of the strip caused by the chemical reaction material and the lead wire reacting with the sample is not constant, There is a problem that the reliability of the measurement is lowered.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems as described above, and it is an object of the present invention to provide a method and apparatus for measuring and calculating a transfer characteristic value of a strip inserted for diagnosis, And a control method thereof.

According to an aspect of the present invention, there is provided a POC diagnosis apparatus comprising: a strip sensing unit for sensing an insertion state of a strip; A strip connection portion connected to a strip formed with a lead wire extending from at least one pair of electrodes disposed adjacent to each other; A strip characteristic measuring unit for measuring a change in the first signal measured from the other lead wire after applying a first signal to one of the lead wires through the strip connecting unit; A measuring unit which applies a second signal to one of the lead wires through the strip connecting portion and measures a change value from the other lead wire; And a control unit for calculating a transfer characteristic value of the strip on the basis of the change of the first signal measured through the strip characteristic measuring unit and then calculating an analysis value by compensating the transfer characteristic value of the strip with respect to the change value measured by the measuring unit .

The variation of the first signal measured by the strip characteristic measuring unit of the present invention is characterized by being at least one of phase, voltage, current, delay time, frequency, spectrum, impedance and size of the first signal.

The second signal applied by the measuring unit of the present invention is any one of voltage, current and light, and the change value to be measured is a change value of voltage, current and light.

In the present invention, the transfer characteristic value can be inputted, received, and uploaded by any one or more of direct input, communication, bar code, and electronic tag.

In the present invention, the control unit calculates the transfer characteristic value of the strip at least once after the sample is collected when the strip is inserted, when the sample is collected.

According to another aspect of the present invention, there is provided a method of controlling a POC diagnostic apparatus, the method comprising: sensing a state of insertion of a strip from a strip sensing unit; Calculating a transfer characteristic value of the strip by measuring a change of the first signal through the strip characteristic measuring unit when the control unit inserts the strip; Measuring a change value of the sample through the measurement unit by the control unit; And a step of calculating an analysis value by compensating the transfer characteristic value of the strip with respect to the change value.

In the present invention, the step of calculating the transfer characteristic value of the strip may further include the step of outputting to the display unit such that the control unit waits for the sample collection while measuring and calculating the transfer characteristic value of the strip.

In the present invention, the step of calculating the transfer characteristic value of the strip may include a step of applying a first signal to one of the lead wires through the strip connection portion, measuring the change of the first signal measured from the other lead wire, Is calculated.

In the present invention, the change of the first signal may be any one of a phase, a voltage, a current, a delay time, a frequency, a spectrum, an impedance, and a size of the first signal.

The step of measuring the change value by the sample in the present invention is characterized in that the control section applies the second signal to one of the lead wires through the strip connection section and measures the change value from the other lead wire.

The second signal applied by the measuring unit of the present invention is any one of voltage, current, and light, and the change value to be measured is a change value of voltage, current, or light.

The present invention is characterized in that the control unit further comprises a step of receiving, transmitting, and downloading a transfer characteristic value through at least one of direct input, communication, bar code, and electronic tag.

A POC diagnosis apparatus and a control method thereof according to an aspect of the present invention are characterized by measuring and calculating a transfer characteristic value of an inserted strip for diagnosis and compensating a deviation of a transfer characteristic value at the time of diagnosis so that characteristics of a lead wire formed in the strip, Accurate measurement results can be obtained even with changes in temperature, humidity, altitude, etc. depending on the application environment of the chemical reaction material to be reacted and the measurement environment.

1 is a block diagram illustrating a POC diagnostic apparatus according to an embodiment of the present invention.
2 is a block diagram illustrating a strip of a POC diagnosis apparatus according to an embodiment of the present invention.
FIG. 3 is a graph of a voltage current according to an exemplary embodiment of the present invention, illustrating a characteristic of a strip measured by the POC diagnostic apparatus.
4 is a flowchart illustrating a method of controlling a POC diagnostic apparatus according to an embodiment of the present invention.

Hereinafter, a POC diagnosis apparatus and a control method thereof according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a block diagram illustrating a POC diagnostic apparatus according to an embodiment of the present invention. FIG. 2 is a diagram illustrating a strip of a POC diagnostic apparatus according to an embodiment of the present invention. FIG. 3 is a graph showing voltage and current characteristics of a strip measured by a POC diagnosis apparatus according to an embodiment of the present invention. FIG.

1 and 2, a POC diagnosis apparatus according to an embodiment of the present invention includes a strip sensing unit 30, a strip connection unit 20, a strip characteristic measurement unit 40, a measurement unit 50, (60).

The strip sensing unit 30 senses the inserted state of the strip 10 and provides the sensed result to the control unit 60 so that the operation of the POC diagnostic apparatus can be started.

The strip sensing unit 30 can be sensed through a touch switch such as a limit switch (not shown) or a contact switch (not shown), or can be sensed through a contactless switch through a photosensor (not shown) or the like.

The strip connection portion 20 may have a connection groove (not shown) for allowing the strip 10 to be mounted and fixed. The strip connection portion 20 may include a first lead wire 111 formed on the strip 10, A terminal for connecting and electrically connecting with the second lead line 112 may be formed.

2, the strip 10 includes a pair of first electrodes 121 and a pair of first lead wires 111 extending from the second electrode 122, and a pair of second lead wires 111 extending from the second electrode 122, (112) may be formed. A chemical reaction material 130 for applying a chemical reaction to the sample 5 is applied between the pair of first electrodes 121 and the second electrode 122.

In the present embodiment, a pair of electrodes and a pair of lead wires have been described as an example, but the present invention is not limited thereto, and may be formed of one or more pairs of electrodes and lead wires according to a diagnosis item.

The strip characteristic measuring unit 40 measures the change of the first signal measured from the other lead wire after applying the first signal to one of the lead wires through the strip connecting unit 20. [

That is, a first signal is applied to the first lead line 111, and a change in the first signal, for example, a phase, a voltage, a current, a delay time, a frequency, a spectrum, The chemical reaction material 130, the second electrode 122 and the second lead line 112 by measuring at least one of the first lead wire 111 and the second lead wire 112 and the size of the strip 10 via the first lead wire 111, the first electrode 121, So as to compensate for the deviation generated for each strip 10.

For example, as shown in FIG. 3, when a voltage is applied to a strip 10 and a current is measured, a voltage is linearly applied from -5 V to +5 V as shown in a voltage graph (A) It can be seen that the current graph (B) is measured differently according to the transfer characteristic value of the strip as shown in (a), (b), (c) and (d).

When the coating thickness of the chemical reaction material 130 varies according to the strip 10 or when the thickness and the width of the first and second lead wires 111 and 112 are varied or the temperature of the measuring environment, Humidity, and altitude of the strip 10, the transfer characteristic value of the strip 10 is changed. Therefore, the transfer characteristic value of the strip 10 is measured and compensated to minimize the error of the apparatus 10, .

The measuring unit 50 applies any one of voltage, current, and light to one of the lead wires via the strip connection unit 20 and measures a change value of one of voltage, current, and light from the other lead wire .

For example, by applying an alternating voltage to the first lead line 111 and measuring an alternating current, which is an electrical change value, from the second lead line 112, a current generated by the reaction of the sample 5 and the chemical reaction material 130 So that the analytical amount can be measured based on the value.

The control unit 60 calculates the transfer characteristic value of the strip 10 based on the change of the first signal measured through the strip characteristic measuring unit 40 when the strip 10 is inserted from the strip sensing unit 30 The analytical amount is calculated by compensating the transfer characteristic value of the strip 10 with respect to the change value measured by the measuring unit 50 when the sample 5 is collected in the strip 10. [

Here, the control unit 60 may calculate the transfer characteristic value of the strip 10 at least once after the sample 5 is taken, when the strip 10 is inserted, when the sample 5 is taken, , The characteristic of the strip 10 may be corrected through the calculated transfer characteristic value or the disturbance substance such as HCT (hematocrit), blood cell, drug, hormone or the like may be corrected or an environmental factor such as temperature, And can be applied to the reliability evaluation of measurement data and the like.

The control unit 60 indicates that the strip 10 is being calibrated through the display unit 70 while measuring the transfer characteristic value of the strip 10 through the strip characteristic measurement unit 40, After the measurement of the transfer characteristic value of the strip 10 is completed after displaying to wait for collection, the sample 5 may be displayed in a measurable state so as to be collected. The control unit 60 may output the analysis amount calculated by compensating the transfer characteristic value of the strip 10 to the measurement value measured through the measurement unit 50 to the display unit 70. [

As described above, according to the POC diagnosis apparatus according to the embodiment of the present invention, the transfer characteristic value of the inserted strip is measured and calculated to compensate for the deviation of the transfer characteristic value at the time of diagnosis, And the application or adhesion state of the chemical reaction material reacting with the sample, and accurate measurement results can be obtained even when the temperature, humidity, altitude, etc. change according to the measurement environment.

4 is a flowchart illustrating a method of controlling a POC diagnostic apparatus according to an embodiment of the present invention.

4, in the control method of the POC diagnosis apparatus according to an embodiment of the present invention, the control unit 60 detects the inserted state of the strip 10 from the strip sensing unit 30 (S10).

When the inserting state of the strip 10 is not sensed in step S10, the inserted state of the strip 10 is continuously sensed. When the inserting state of the strip 10 is sensed, 70) (S20).

That is, during the measurement of the transfer characteristic value of the strip 10 through the strip characteristic measuring unit 40, the display unit 70 indicates that the strip 10 is being calibrated, thereby waiting for the sample 5 to be collected.

After the measurement waiting state is displayed in step S20, the control unit 60 measures the change of the first signal through the strip characteristic measuring unit 40 and calculates the transfer characteristic value of the strip 10 (S30).

The transfer characteristic value of the strip 10 in the present embodiment is obtained by applying a first signal to one of the lead wires via the strip connecting portion 20 in the strip characteristic measuring portion 40 and then changing the first signal measured from the other lead wire .

That is, a first signal is applied to the first lead line 111, and a change in the first signal, for example, a phase, a voltage, a current, a delay time, a frequency, a spectrum, The chemical reaction material 130, the second electrode 122 and the second lead line 112 by measuring at least one of the first lead wire 111 and the second lead wire 112 and the size of the strip 10 via the first lead wire 111, the first electrode 121, So as to compensate for the deviation generated for each strip 10.

When the coating thickness of the chemical reaction material 130 varies according to the strip 10 or when the thickness and the width of the first and second lead wires 111 and 112 are varied or the temperature of the measuring environment, Humidity, and altitude, the transfer characteristic value of the strip 10 can be measured and compensated for even when the transfer characteristic is changed.

If the transfer characteristic value of the strip 10 is measured in step S30, the control unit 60 can display the state of being measurable through the display unit 70 (S40).

When the sample 5 is collected in the strip 10 after the measurement is possible as in step S40, the controller 60 measures the electrical change value by the sample 5 through the measuring unit 50 S50).

Here, the diagnosis may be started by measuring the state in which the sample 5 is collected, or the diagnosis may be started when the set time has elapsed. In this embodiment, the sampling state of the sample 5 is not limited.

In step S50, in order to measure the change value by the sample 5, any one of voltage, current, and light second signal is applied to one of the lead wires of the strip connection part 20 in the measuring part 40, And measures the change value of either voltage, current, or light.

For example, an alternating current voltage is applied to the first lead line 111 and an alternating current, which is an electrical change value, is measured from the second lead line 112, so that the current 5 generated by the reaction of the sample 5 and the chemical reaction material 130 The value can be measured.

After measuring the electrical change value by the sample 5 in step S50, the control unit 60 determines the change value of the strip 10 measured through the strip characteristic measurement unit 40 The analytical amount is calculated by compensating the transfer characteristic value (S60).

When the analytical amount is calculated in step S60, the controller 60 outputs the analytical amount calculated above through the display unit 70 and displays it (S70).

As described above, according to the control method of the POC diagnosis apparatus according to the embodiment of the present invention, the transfer characteristic value of the inserted strip is diagnosed and calculated to compensate for the deviation of the transfer characteristic value at the time of diagnosis, Accurate measurement results can be obtained even with changes in temperature, humidity, altitude, etc. depending on the characteristics of the lead wires, the application or adhesion state of the chemical reactant reacting with the sample, and the measurement environment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

Accordingly, the true scope of the present invention should be determined by the following claims.

5: Sample 10: Strip
20: strip connection part 30: strip detection part
40: strip characteristic measuring section 50: measuring section
60: control unit 70: display unit
111: first lead wire 112: second lead wire
121: first electrode 122: second electrode
130: Chemical reactant

Claims (12)

A strip sensing unit for sensing an inserted state of the strip;
A strip connection portion connected to each of the strips formed with a lead wire extending from at least one pair of electrodes disposed adjacent to each other;
A strip characteristic measuring unit for measuring a change in the first signal measured from the other lead wire after applying a first signal to one of the lead wires through the strip connecting unit;
A measurement unit for applying a second signal to one of the lead wires through the strip connection unit and measuring a change value from the other lead wire; And
Calculating a transfer characteristic value of the strip on the basis of the change of the first signal measured through the strip characteristic measuring unit, compensating the transfer characteristic value of the strip for the change value measured by the measuring unit, And a controller for controlling the POC diagnosis device.
The apparatus of claim 1, wherein the change of the first signal measured by the strip characteristic measuring unit is at least one of a phase, a voltage, a current, a delay time, a frequency, a spectrum, an impedance and a size of the first signal POC diagnostic device.
The apparatus according to claim 1, wherein the second signal applied by the measurement unit is any one of voltage, current, and light, and the change value to be measured is a change value of voltage, current, Diagnostic device.
The POC diagnosis apparatus according to claim 1, wherein the transfer characteristic value is input, received, and uploaded through at least one of direct input, communication, bar code, and electronic tag.
The POC diagnosis apparatus according to claim 1, wherein the control unit calculates a transfer characteristic value of the strip at least once after the sample is collected when the strip is inserted, .
Detecting a state of insertion of the strip from the strip sensing unit;
Calculating a transfer characteristic value of the strip by measuring a change of a first signal through the strip characteristic measuring unit when the strip is inserted into the control unit;
Measuring a change value by the sample through the measurement unit; And
And the controller calculates an analysis amount by compensating the transfer characteristic value of the strip for the change value.
The method as claimed in claim 6, wherein the step of calculating the transfer characteristic value of the strip further comprises the step of outputting to the display unit such that the control unit waits for the sample collection while measuring and calculating the transfer characteristic value of the strip Of the POC diagnostic device.
The method as claimed in claim 6, wherein the step of calculating the transfer characteristic value of the strip includes the steps of: when the control unit applies a first signal to one of the lead wires via the strip connection unit, And calculating a transfer characteristic value of the strip.
The method of claim 8, wherein the change of the first signal is at least one of a phase, a voltage, a current, a delay time, a frequency, a spectrum, an impedance, and a size of the first signal.
7. The method according to claim 6, wherein the step of measuring the change value by the sample is characterized in that the control section applies the second signal to one of the lead wires via the strip connecting section and measures the change value from the other lead wire A method of controlling a POC diagnostic device.
The method of claim 10, wherein the second signal applied by the measurement unit is one of voltage, current, and light, and the change value to be measured is a change value of voltage, current, or light. A method of controlling a diagnostic device.
[7] The method of claim 6, wherein the control unit further comprises a step of receiving the transfer characteristic value by directly inputting, receiving, communicating, barcode, and / or electronic tag, and uploading and downloading the transfer characteristic value.

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