KR101611978B1 - Apparatus and Method for Measuring Target Protein - Google Patents

Abstract

An apparatus and a method for measuring a target protein are provided. The apparatus for measuring a target protein according to an embodiment of the present invention includes a probe on which electrodes are mounted, a storage unit for storing the storage liquid, a cleaning / measuring unit for cleaning electrodes mounted on the probe, . Thereby, it is possible to significantly reduce the cartridge cost by replacing only the disposable WE. In addition, there is no need for complicated procedures for measurement and can be applied directly on site.

Description

[0001] APPARATUS AND METHOD FOR MEASURING TARGET PROTEIN [0002]

The present invention relates to a measuring apparatus and a method, and more particularly to an apparatus and a method for measuring a concentration of a target protein distributed in a sample.

In the electrochemical measurement method, three electrodes are basically necessary for measurement. These three electrodes are working electrode (CE), counter electrode (CE) and reference electrode (RE), respectively. The receptor, antibody or other protein WE.

In the conventional field diagnostic method, a chip including WE, CE, and RE is formed on a single chip in the form of a single chip, and the immune response is measured with a miniaturized chip.

1. Difficulty in introducing electrode material due to miniaturization

2. Rising cost due to multiple processes due to WE and CE deposition

3. In the case of miniaturization of chip, disadvantage that it should be combined with additional equipment such as microchannel, small pump to control it, pump control system

4. There is also some difficulty in forming reaction conditions between mediator and substrate, which are characteristic of electrochemical methods.

5. Therefore, the prototype should be made considering the simplicity of the equipment, low cost electrodes, and ease of use.

It is an object of the present invention to provide a probe designing and driving unit that can be driven in accordance with a measurement sequence in order to satisfy the same optimum condition as that of an experiment in a general lab, And an apparatus and a method for measuring a target protein which are simple and convenient.

It is also an object of the present invention to provide an apparatus and a method for measuring a target protein, which can automatically perform the steps of washing, reacting with a substrate, and measuring sequentially after obtaining a sample of blood (serum) of a patient.

According to an aspect of the present invention, there is provided an apparatus for measuring a target protein, including: a probe on which electrodes are mounted; A storage section for storing the preservation liquid; A cleaning / measuring unit which is an area for cleaning the electrodes mounted on the probe and measuring the current; And a reaction part, which is a region where a sample is stored and a working electrode (Working Electrode) among the electrodes mounted on the probe is contained to react with a target protein contained in the sample.

The measurement-WE can be detachably attached to the probe.

Among the electrodes mounted on the probe, CE (Counter Electrode) and RE (Reference Electrode) may be used semi-permanently in the probe.

The apparatus for measuring a target protein according to an embodiment of the present invention may further include a driving unit for driving the probe according to a guide-groove to move the probe to the storage unit, the cleaning / measuring unit, and the reaction unit .

The probe may include a stopper for preventing electrodes mounted on the probe from colliding with the bottom of the storage unit, the cleaning / measuring unit, and the reaction unit.

Also, the probe may be equipped with a base-working electrode (MEED) for measuring a base current.

The length of the measurement -WE is longer than the length of the base -WE, and the measurement -WE is contained in the sample contained in the reaction part, but the base -WE may not be contained in the sample contained in the reaction part .

In addition, the probe may be sequentially mounted with the base -WE and the measurement -WE so that the current changed by the target protein after the base current measurement can be measured.

According to another embodiment of the present invention, there is provided a method for measuring a target protein, comprising the steps of: moving a probe containing electrodes mounted on a storage unit for storing a storage liquid to a cleaning / measuring unit to clean the electrodes; Moving the probe to a reaction part in which a sample is stored, and measuring a Working Electrode among electrodes mounted on the probe is immersed in the sample to react with a target protein contained in the sample; And re-moving the probe to the cleaning / measuring unit, and measuring a current flowing through the measurement-WE to calculate a concentration of the target protein distributed in the sample.

As described above, according to the embodiments of the present invention, it is possible to significantly reduce the cartridge cost by replacing only the disposable WE. In addition, there is no need for complicated procedures for measurement and can be applied directly on site.

In addition, it is unnecessary to manufacture a separate micropump and channel for cleaning and inspection sample transfer. In addition, accuracy and reliability for commercialization can be expected.

1 is an external perspective view of a target protein measuring apparatus according to an embodiment of the present invention,
FIG. 2 is a view showing the target protein measuring apparatus shown in FIG. 1 while looking from the front;
FIG. 3 is a detailed view of the probes and electrodes shown in FIGS. 1 and 2,
Fig. 4 is a photograph of a measurement-WE and a base-
5 is an enlarged view of only the electrode pad portion,
FIG. 6 is a view showing a mechanism of a probe driving unit for moving a probe,
FIG. 8 is a detailed view of the UI architecture of the target protein measurement apparatus shown in FIG. 1,
Fig. 9 is a view showing the process of measuring a target protein by attaching measurement-WE and base-WE,
10 is a view showing a process of measuring a target protein by sequentially mounting a base -WE and a measurement -WE,
11 is a diagram illustrating a method and a process for setting environment using a UI;
12 is a view showing a main algorithm of software for driving a target protein measurement apparatus,
13 shows an algorithm for performing the CV AUTO mode,
FIG. 14 shows an algorithm for performing the CV test mode, and FIG.
15 is a diagram showing an algorithm for performing the TEST mode.

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

1 is an external perspective view of an apparatus for measuring a target protein according to an embodiment of the present invention. An apparatus 100 for measuring a target protein according to an embodiment of the present invention is an apparatus for measuring a target protein distributed in blood (serum) samples of a patient using an electrochemical method.

To this end, the target protein measurement apparatus 100 mounts a Working Electrode 300 on the probe 200 and moves the probe 200 along a guide-groove formed using the probe driving unit 150 .

FIG. 2 is a front view of the target protein measurement apparatus 100 shown in FIG. 1. 2, the target protein measurement apparatus 100 includes a storage unit 110, a cleaning / measuring unit 120, and a reaction unit 130. [

The storage unit 110 is a buffer for storing the preservation liquid, and the cleaning / measuring unit 120 is an area for cleaning the electrodes mounted on the probe 200 using washing water and performing current measurement. The measured current is used to calculate the concentration of the target protein in the patient's blood (serum).

The reaction unit 130 is a container in which a sample of blood (serum) collected from a patient is stored, and is a place where the WE 300 is contained and subjected to an antigen-antibody reaction.

FIG. 3 is a view showing the probe 200 and the electrodes shown in FIGS. 1 and 2 in detail. 3, the probe 200 includes a body 210, a stopper 220, a counter electrode 230, and a reference electrode 240, and the WEs 310 and 320 ).

The stopper 220 is a means for restricting the downward movement of the probe 200. The stopper 220 is a means for limiting the downward movement of the probe 200, Thereby preventing damage to the floor of the vehicle.

Among the electrodes mounted on the probe 200, the CE 230 and the RE 240 are electrodes fixed to the probe 200, and the WEs 310 and 320 are electrodes that are detachable from the probe 200 admit.

That is, the CE 230 and the RE 240 are used semi-permanently, and the WEs 310 and 320 are used for a single use.

The WEs 310 and 320 are divided into a measurement -WE 310 and a base -WE 320. The measurement -WE 310 is longer than the base -WE 320, . The length of the base-WE 320 is equal to the length of the CE 230 and the length of the RE 240.

The measurement-WE 310 is an electrode for reacting with a target protein distributed in a blood (serum) sample, and the base-wafer 320 is a dummy electrode for baseline measurement corresponding to a current measurement standard.

FIG. 4 is a photograph of a measurement-WE 310 and a base-wafer 320 actually fabricated, and FIG. 5 is an enlarged view of only the electrode pad portion.

6 and 7 show the mechanism of the probe driving unit 150 for moving the probe 200 on which the electrodes 230, 240, 310 and 320 are mounted.

FIG. 8 is a detailed view showing an architecture of a UI (User Interface) 140 of the target protein measurement apparatus 100 shown in FIG. 8, the target protein measurement apparatus 100 is provided with a "START" button, a "STOP" button, an "EMERGENCY" button, an "UP" button, and a "DOWN" button.

The menu is moved to the main menu by the " CV (Cyclic Voltammetry) AUTO "mode, the" CV TEST "mode, the " AM (AmperoMetry) .

Hereinafter, a process of measuring a target protein using the target protein measurement apparatus 100 shown in FIG. 1 will be described in detail with reference to FIG.

FIG. 9 is a diagram provided for explaining a process of measuring a target protein by mounting a measurement-WE 310 and a base-wafer 320 together.

9, the probe driving unit 150 of the target protein measurement apparatus 100 moves the probe 200 located in the storage unit 110 to the cleaning / measuring unit 120, And the RE 240 are cleaned.

Next, the measurement-WE 310 and the base-wafer 320 are mounted on the body 210 of the probe 200, and the probe 200 is connected to the probe driving unit 150 of the target protein measurement apparatus 100, So that only the measurement -WE 310 is contained in the reaction part 130 so that the antibody attached to the measurement -WE 310 reacts with the antigen (target protein) distributed in the blood.

The probe driving unit 150 of the target protein measurement apparatus 100 moves the probe 200 to the cleaning / measuring unit 120 and cleans the electrodes 230, 240, 310 and 320.

Next, the target protein measurement apparatus 100 measures the current flowing through the measurement-WE 310 and the base current flowing through the base-WE 320, and calculates the concentration of the target protein from the measurement results.

When the measurement is completed, the measurement -WE 310 and the base -WE 320 that were mounted on the probe 200 are removed and discarded.

FIG. 10 is a diagram illustrating a process of measuring a target protein by sequentially mounting a base-wafer 320 and a measurement-wafer 310 in sequence.

10, the probe driving unit 150 of the target protein measurement apparatus 100 moves the probe 200 located in the storage unit 110 to the cleaning / measuring unit 120, And the RE 240 are cleaned.

Next, the base-wafer 320 is attached to the body 210 of the probe 200, and the probe 200 is moved to the washing / measuring unit 120 by the probe driving unit 150 of the target protein measuring apparatus 100 And measures the base current flowing through the base-wafer 320.

When the measurement is completed, the base-wafer 320 mounted on the probe 200 is removed and discarded.

The measurement -WE 310 is mounted on the body 210 of the probe 200 and the probe 200 is moved to the reaction unit 130 by the probe driving unit 150 of the target protein measurement apparatus 100, Measurement - Allows the antibody attached to the WA 310 to react with the antigen distributed in the blood.

The probe driving unit 150 of the target protein measurement apparatus 100 moves the probe 200 to the cleaning / measuring unit 120 to clean the electrodes 230, 240, and 310.

Next, the target protein measurement apparatus 100 measures the current flowing through the measurement-WE 310, and calculates the target protein concentration based on the measured current and the previously measured base current.

When the measurement is completed, the measurement -WE 310 mounted on the probe 200 is removed and discarded.

10, the length of the base -WE 320 and the length of the measurement -WE 310 are measured as shown in FIG. 10 when the target-protein is measured by attaching the base -WE 320 and the measurement -WE 310 one by one, May be the same length.

FIG. 11 shows a method and a procedure for setting the environment using the UI 140. 12 shows a main algorithm of the software for driving the target protein measurement apparatus 100. In FIG.

In addition, FIG. 13 shows an algorithm for performing the CV AUTO mode, FIG. 14 shows an algorithm for performing the CV test mode, and FIG. 15 shows an algorithm for performing the test mode.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the present invention.

100: target protein measuring apparatus 110: storage unit
120: Cleaning / measuring part 130: Reaction part
150: probe driving part 200: probe
230: CE (Counter Electrode)
240: RE (Reference Electrode)
310: Measurement-WE (Working Electrode)
320: Base-WE (Working Electrode)

Claims (9)

A probe on which electrodes are mounted;
A storage section for storing the preservation liquid;
A cleaning / measuring unit which is an area for cleaning the electrodes mounted on the probe and measuring the current; And
And a reaction part which is a region where a sample is stored and a working electrode is loaded on the probe to react with a target protein contained in the sample,
The probe may be equipped with a base-wafer (Working Electrode) for measuring a base current,
Wherein the length of the measurement -WE is longer than the length of the base -WE, the measurement -WE is contained in the sample contained in the reaction section, but the base -WE is not contained in the sample contained in the reaction section Target protein measuring device.
The method according to claim 1,
The measurement-
Wherein the probe is detachable from the probe.
3. The method of claim 2,
Wherein CE (Counter Electrode) and RE (Reference Electrode) among the electrodes mounted on the probe are semi-permanently used in the probe.
The method according to claim 1,
Further comprising a driving unit driving the probe along the guide-groove to move the probe to the storage unit, the cleaning / measuring unit, and the reaction unit.
5. The method of claim 4,
Wherein the probe comprises:
And a stopper for preventing the electrodes mounted on the probe from colliding with the bottom of the storage part, the cleaning / measuring part, and the reaction part.
delete delete delete Cleaning the electrodes by moving a probe containing electrodes mounted on a storage part for storing a preservation liquid to a cleaning / measuring part;
Moving the probe to a reaction part in which a sample is stored, and measuring a Working Electrode among electrodes mounted on the probe is immersed in the sample to react with a target protein contained in the sample;
Measuring the current flowing through the measurement-WE by calculating the concentration of the target protein distributed in the sample by re-moving the probe to the cleaning / measuring unit,
The probe may be equipped with a base-wafer (Working Electrode) for measuring a base current,
Wherein the length of the measurement -WE is longer than the length of the base -WE, the measurement -WE is contained in the sample contained in the reaction section, but the base -WE is not contained in the sample contained in the reaction section A method for measuring a target protein.

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