KR102656271B1 - Lateral flow assay strip system havng elastic body, and method of quantitative sample injection for quantitative analysis using same - Google Patents

Abstract

Disclosed is a lateral flow analysis detection strip system having an elastic body and a method for quantitatively injecting a sample for quantitative analysis using the same. The lateral flow analysis detection strip system is a housing including an outer wall 110, an inner space 120 located inside the outer wall, and a sample inlet 130 for injecting a sample from the outside of the outer wall into the inner space. (100); An attraction part 200 located on the left side of the internal space 120, one end of which is fixed to the outer wall 110, and including an elastic body 210; A moving part 300 coupled to the other end of the attracting part 200 and including a first substrate 310 and a sample pad 320 located on the first substrate 310; A probe pad 410, a detection membrane 420, and an absorbent pad located on the right side of the inner space 120, fixed to the outer wall 110, and in contact with the sample pad 320. Detector 400 including (430); and a fixing part 500, one side of which is coupled to a predetermined position of the detection part 400 and the other side of which is coupled with the first substrate 310 to fix the moving part 300. Lateral flow analysis detection comprising a. It may include a strip system (10). The lateral flow analysis detection strip system of the present invention and the strip quantitative injection method using the same are structured so that when a certain amount of sample is injected above a certain amount, the sample is physically separated and no more sample is injected into the lateral flow analysis detection strip. The injection amount can be adjusted automatically.

Description

Lateral flow analysis detection strip system with elastic body and method of quantitative injection of sample for quantitative analysis using the same {LATERAL FLOW ASSAY STRIP SYSTEM HAVNG ELASTIC BODY, AND METHOD OF QUANTITATIVE SAMPLE INJECTION FOR QUANTITATIVE ANALYSIS USING SAME}

The present invention is a system for quantitative injection of a sample for quantification of a lateral flow analysis detection strip. More specifically, a system for injecting a certain amount of a liquid sample into a lateral flow analysis detection strip having an elastic body and a quantitative sample injection system using the same. This makes it possible to analyze the quantitative results of the injected strip.

Lateral flow assay (LFA) is a representative pregnancy diagnostic kit, but it is mostly used for qualitative (on/off) analysis rather than quantitative analysis.

In order to quantify analytes in lateral flow analysis, the volume of sample applied must be constant. However, there are limits to the ability of ordinary users to always apply a constant amount of sample in environments other than laboratory conditions.

Therefore, research is needed on a system that can solve the problem of quantitative injection of samples in a lateral flow analysis detection strip and on strip quantification using the same.

The purpose of the present invention is to solve the above problems and to provide a lateral flow analysis detection strip system that can automatically adjust the amount of sample injected into the lateral flow analysis detection strip and strip quantification using the same.

According to one aspect of the present invention, a housing including an outer wall 110, an inner space 120 located inside the outer wall, and a sample input unit 130 for introducing a sample from the outside of the outer wall into the inner space. (100); An attraction part 200 located on the left side of the internal space 120, one end of which is fixed to the outer wall 110, and including an elastic body 210; A moving part 300 coupled to the other end of the attracting part 200 and including a first substrate 310 and a sample pad 320 located on the first substrate 310; A probe pad 410, a detection membrane 420, and an absorbent pad located on the right side of the inner space 120, fixed to the outer wall 110, and in contact with the sample pad 320. Detector 400 including (430); and a fixing part 500, one side of which is coupled to a predetermined position of the detection part 400 and the other side of which is coupled with the first substrate 310 to fix the moving part 300. Lateral flow analysis detection comprising a. A strip system (10) is provided.

Additionally, the elastic body may include any one selected from the group consisting of rubber and spring.

Additionally, the elastic body 210 may have tension that pulls the moving part 300 to the left side of the internal space 120.

Additionally, the moving part 300 may be fixed by the fixing part 500 and the tension of the elastic body 210 may be maintained.

In addition, the sample is a liquid, the sample is introduced into the sample input unit 130, the sample pad 320 receives the sample from the sample input unit 130, and the detection unit 400 is connected to the sample pad. A sample may be supplied from 320, and the fixing unit 500 may receive a sample from the detection unit 400 and be ruptured by the sample.

In addition, rupture of the fixing unit 500 may occur when a sample exceeding a predetermined amount is supplied to the detection unit 400.

Additionally, when the fixing part 500 is ruptured by the sample, the moving part 300 may move to the left side of the internal space 120.

In addition, the movement is a sliding movement, and the moving part 300 moves to the left side of the internal space 120, thereby separating the detection part 400 and the sample pad 320 and removing the excess amount exceeding a predetermined amount. The sample may not be supplied to the detection unit 400.

Additionally, the fixing part 500 may include a hydrophilic polymer.

In addition, the hydrophilic polymer may include one or more selected from the group consisting of polyvinyl alcohol (PVA), cellulose, hydroxymethylcellulose, carboxymethylcellulose, hydrolyzable polyacrylamide, polyethylene glycol, and polypropylene glycol. You can.

Additionally, the amount of the sample supplied to the detection unit 400 may be adjusted as the position of the area where the other side of the fixing unit 500 is coupled to the detection unit 400 is adjusted.

In addition, the detection unit 400 further includes a second substrate 440, and the detection pad 410, the detection membrane 420, and the detection pad 410 are formed on one surface of the second substrate 440. A second absorbent pad 430 may be positioned, and the other side of the second substrate 440 may be positioned on the first substrate 310 .

In addition, the fixing part 500 is positioned to surround the detection part 400, one surface of the fixing part 500 is coupled to the first substrate 310, and the other surface of the fixing part 500 is connected to the first substrate 310. It is combined with the second substrate 440, and the fixing part 500 is selected from the group consisting of the detection pad 410, the detection membrane 420, and the second absorbent pad 430. It may be in contact with one or more selected species.

In addition, as the fixing part 500 adjusts the position of the area where it is coupled to the second substrate 440, the fixing part 500 moves the detection pad 410 and the detection membrane 420. and the second absorbent pad 430, the position of which comes into contact with one or more types selected from the group consisting of the second absorbent pad 430 is adjusted, and the fixing part 500 is configured to include the probe pad 410 and the detection membrane ( 420) and the second absorbent pad 430, the amount of the sample supplied to the detection unit 400 may be controlled as the contact position is adjusted.

Additionally, the sample input unit 130 may include a sample input reservoir.

According to another aspect of the present invention, it is a strip quantitative injection method in which a fixed amount of sample is injected into the strip using the lateral flow analysis detection strip system 10, and (a) the samples are injected into the sample input unit 130. Supplying a sample to the sample pad 320; (b) supplying the sample to the detection unit 400 in contact with the sample pad 320, supplying the sample from the detection unit 400 to the fixing unit 500, and rupturing the fixing unit 500; and (c) the fixation of the moving part 300 is released due to the rupture of the fixing part 500, so that the moving part 300 moves to the left of the internal space 120, and the sample pad 320 and the A strip quantitative injection method including a step wherein the detection units 400 are separated from each other and the excess amount of the sample exceeding a predetermined amount is not supplied to the detection unit 400 is provided.

Additionally, in step (c), the movement of the moving unit 300 may be due to the tension of the elastic body 210 that pulls the moving unit 300 to the left side of the internal space 120.

In addition, the method of quantitatively injecting a sample may further include, after step (c), (d) detecting the supplied sample by the detection unit 400.

In addition, the target of detection is influenza virus, acquired immunodeficiency (HIV) virus, smallpox (variola) virus, foot-and-mouth disease virus, Ebola virus, dengue virus, Zika virus, coronavirus, and HPV virus. , it may include one or more types selected from the group consisting of bacterial pneumonia, tuberculosis, and gonorrhea.

The lateral flow analysis detection strip system of the present invention and the strip quantitative injection method using the same are structured so that when a certain amount of sample is injected above a certain amount, the sample is physically separated and no more sample is injected into the lateral flow analysis detection strip. The injection amount can be adjusted automatically.

In addition, the lateral flow analysis detection strip system of the present invention and the strip quantitative injection method using the same automatically adjust the injection amount of the sample, so it is not limited by location and can be easily used by the general public.

Since these drawings are for reference in explaining exemplary embodiments of the present invention, the technical idea of the present invention should not be interpreted as limited to the attached drawings.
Figure 1 is a schematic diagram showing the structure of the lateral flow analysis detection strip system 10 of the present invention.
Figure 2 is a schematic diagram showing in detail the structure of the lateral flow analysis detection strip system 10 of the present invention and the position and appearance of the fixing part 500 in the structure.
Figure 3 is a schematic diagram sequentially showing the strip quantitative injection method using the lateral flow analysis detection strip system 10 of the present invention.
Figure 4 is a photograph of the moving part (top) and the detection part (bottom) manufactured according to Example 1.
Figure 5 is a photograph taken from above showing each step of the strip quantitative injection method using the lateral flow analysis detection strip system 10 manufactured according to Example 1.

Since the present invention can be modified in various ways and can have various embodiments, specific embodiments will be illustrated and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all transformations, equivalents, and substitutes included in the spirit and technical scope of the present invention. In describing the present invention, if it is determined that a detailed description of related known technologies may obscure the gist of the present invention, the detailed description will be omitted.

Additionally, terms including ordinal numbers, such as first, second, etc., which will be used below, may be used to describe various components, but the components are not limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, a first component may be named a second component, and similarly, the second component may also be named a first component without departing from the scope of the present invention.

Additionally, when a component is referred to as being “on another component,” “formed on another component,” “located on another component,” or “stacked on another component,” It may be formed by being directly attached to the front or one side of the surface of the component, positioned, or stacked, but it should be understood that other components may further exist in the middle.

Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, terms such as “comprise” or “have” are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but are not intended to indicate the presence of one or more other features. It should be understood that this does not exclude in advance the possibility of the existence or addition of elements, numbers, steps, operations, components, parts, or combinations thereof.

Hereinafter, the lateral flow analysis detection strip system having an elastic body of the present invention and the method of quantitatively injecting a sample for quantitative analysis using the same will be described in detail. However, this is presented as an example, and the present invention is not limited thereby, and the present invention is only defined by the scope of the claims to be described later.

Figure 1 is a schematic diagram showing the structure of the lateral flow analysis detection strip system 10 of the present invention.

Referring to FIG. 1, the present invention includes an outer wall 110, an inner space 120 located inside the outer wall, and a sample input unit 130 for injecting a sample from the outside of the outer wall into the inner space. housing (100); An attraction part 200 located on the left side of the internal space 120, one end of which is fixed to the outer wall 110, and including an elastic body 210; A moving part 300 coupled to the other end of the attracting part 200 and including a first substrate 310 and a sample pad 320 located on the first substrate 310; A probe pad 410, a detection membrane 420, and an absorbent pad located on the right side of the inner space 120, fixed to the outer wall 110, and in contact with the sample pad 320. Detector 400 including (430); and a fixing part 500, one side of which is coupled to a predetermined position of the detection part 400 and the other side of which is coupled with the first substrate 310 to fix the moving part 300. Lateral flow analysis detection comprising a. A strip system (10) is provided.

Additionally, the elastic body may include any one selected from the group consisting of rubber and spring.

Additionally, the moving part 300 may be fixed by the fixing part 500 and the tension of the elastic body 210 may be maintained.

In addition, the sample is a liquid, the sample is introduced into the sample input unit 130, the sample pad 320 receives the sample from the sample input unit 130, and the detection unit 400 is connected to the sample pad. A sample may be supplied from 320, and the fixing unit 500 may receive a sample from the detection unit 400 and be ruptured by the sample.

In addition, rupture of the fixing unit 500 may occur when a sample exceeding a predetermined amount is supplied to the detection unit 400.

Additionally, when the fixing part 500 is ruptured by the sample, the moving part 300 may move to the left side of the internal space 120.

In addition, the movement is a sliding movement, and the moving part 300 moves to the left side of the internal space 120, thereby separating the detection part 400 and the sample pad 320 and removing the excess amount exceeding a predetermined amount. The sample may not be supplied to the detection unit 400.

Additionally, the fixing part 500 may include a hydrophilic polymer.

In addition, the hydrophilic polymer may include one or more selected from the group consisting of polyvinyl alcohol (PVA), cellulose, hydroxymethylcellulose, carboxymethylcellulose, hydrolyzable polyacrylamide, polyethylene glycol, and polypropylene glycol. You can.

Additionally, the amount of the sample supplied to the detection unit 400 may be adjusted as the position of the area where the other side of the fixing unit 500 is coupled to the detection unit 400 is adjusted.

In addition, the detection unit 400 further includes a second substrate 440, and the detection pad 410, the detection membrane 420, and the detection pad 410 are formed on one surface of the second substrate 440. A second absorbent pad 430 may be positioned, and the other side of the second substrate 440 may be positioned on the first substrate 310 .

Figure 2 is a schematic diagram showing in detail the structure of the lateral flow analysis detection strip system 10 of the present invention and the position and appearance of the fixing part 500 in the structure.

Referring to Figure 2, in the lateral flow analysis detection strip system 10 of the present invention, the fixing part 500 is located in a shape surrounding the detection part 400, and one surface of the fixing part 500 is the first It is coupled to the substrate 310, and the other side of the fixing part 500 is coupled to the second substrate 440, and the fixing part 500 is connected to the detection pad 410 and the detection membrane 420. ) and a second absorbent pad (430).

In addition, as the fixing part 500 adjusts the position of the area where it is coupled to the second substrate 440, the fixing part 500 moves the detection pad 410 and the detection membrane 420. and the second absorbent pad 430, the position of which comes into contact with one or more types selected from the group consisting of the second absorbent pad 430 is adjusted, and the fixing part 500 is configured to include the probe pad 410 and the detection membrane ( 420) and the second absorbent pad 430, the amount of the sample supplied to the detection unit 400 may be controlled as the contact position is adjusted.

Additionally, the sample input unit 130 may include a sample input reservoir.

Figure 3 is a schematic diagram sequentially showing the strip quantitative injection method using the lateral flow analysis detection strip system 10 of the present invention.

Referring to FIG. 3, the present invention is a strip quantitative injection method in which a fixed amount of sample is injected into the strip using the lateral flow analysis detection strip system 10, and (a) the sample is injected into the sample input unit 130. Supplying a sample to the pad 320; (b) supplying the sample to the detection unit 400 in contact with the sample pad 320, supplying the sample from the detection unit 400 to the fixing unit 500, and rupturing the fixing unit 500; and (c) the fixation of the moving part 300 is released due to the rupture of the fixing part 500, so that the moving part 300 moves to the left of the internal space 120, and the sample pad 320 and the It provides a strip quantitative injection method including a step in which the detection units 400 are separated from each other and the excess amount of the sample exceeding a predetermined amount is not supplied to the detection unit 400.

Additionally, in step (c), the movement of the moving unit 300 may be due to the tension of the elastic body 210 that pulls the moving unit 300 to the left side of the internal space 120.

In addition, the method of quantitatively injecting a sample may further include, after step (c), a step (d) of detecting the supplied sample by the detection unit 400.

In addition, the target of detection is influenza virus, acquired immunodeficiency (HIV) virus, smallpox (variola) virus, foot-and-mouth disease virus, Ebola virus, dengue virus, Zika virus, coronavirus, and HPV virus. , it may include one or more types selected from the group consisting of bacterial pneumonia, tuberculosis, and gonorrhea.

[Example]

Hereinafter, the present invention will be described in more detail through examples. However, this is for illustrative purposes only and does not limit the scope of the present invention.

A Boreda strip backing card was used as the first substrate (Backing card 1) (310), and glass fiber (Boreda) was used as a sample pad (320).

A Boreda strip backing card was used as the second substrate (Backing card 2) (440), glass fiber (Boreda) was used as the detection pad (410), and Nitrocellulose membrane was used as the detection membrane (420). Vivid 170 (PALL) and Cellulose membrane, AP22, grade 222 (Boreda) were used as the second absorbent pad (430). In addition, water-soluble paper (Sciencepia/Future Technic) was used for the fixing part, and double-sided tape was used as an adhesive to join the fixing part and the detection part.

Example 1: Preparation of lateral flow analysis detection strip system

(Manufacturing of manned and moving parts)

One end of the rubber band was fixed to the floor (right side of the inner space of the housing), and the other end of the rubber band was fixed to one end of the first substrate. The fixation used double-sided adhesive. On the first substrate, a 30 mm long sample pad was positioned to be bonded to the first substrate in the same direction as the direction in which the rubber band was joined. At this time, only 28 mm of the sample pad was fixed to the first substrate (attached by the adhesive of the backing card), and the remaining 2 mm was manufactured without being bonded to the first substrate to overlap the detection membrane of the detection unit.

In Figure 4, a photograph of the moving part (above) manufactured according to Example 1 can be seen.

(Manufacturing of detection unit and fixing unit)

After attaching the detection pad to the second substrate, the detection membrane was positioned to overlap the detection pad by 2 mm, and then the absorption pad was positioned to overlap the detection membrane by 2 mm to prepare a detection unit.

In Figure 4, a photograph of the detection unit (below) manufactured according to Example 1 can be seen.

After attaching a 1 mm thick, 4 mm long adhesive (double-sided tape) to the bottom of the second substrate, a 1 mm thick, 9 mm long fixing part (melting paper) is placed around the detection membrane and the second substrate. At this time, the fixing part is attached to the adhesive located at the bottom of the second substrate.

( Lateral flow analysis detection strip system manufacturing )

Referring to FIGS. 1 and 2 in the drawing, after attaching an adhesive (double-sided tape) 1 mm thick and 4 mm long to the first substrate of the moving unit, a fixing part (melting paper) surrounding the second substrate of the detection unit is attached. ) and glued together.

According to the adhesion, the cross section of the moving part, the detecting part, and the fixing part are as shown in the schematic diagram of FIG. 2: "Adhesive on the top of the first substrate of the moving part - fixing part (melting paper) - second substrate of the detection part - detection membrane on the second substrate. -Fixed parts (melting paper)” are listed in that order.

In addition, the detection unit was positioned and fixed so that the rubber band had a tension that pulled the moving unit to the floor (left side of the interior space of the housing).

Test Example 1: Confirmation of quantitative injection of sample into lateral flow analysis detection strip system

Figure 5 is a photograph taken from above showing each step of the strip quantitative injection method using the lateral flow analysis detection strip system 10 manufactured according to Example 1. In detail, when using the lateral flow analysis detection strip system of Example 1, it was confirmed whether the sample was injected in a fixed amount, and this confirmation process is shown in a photograph in FIG. 5.

Referring to FIG. 5, in the lateral flow analysis detection strip system of Example 1, 130 μL of water containing red ink was applied to the sample pad with a pipette, and after 30 seconds, the moving part and the detection part were separated. You can check that it happens.

Water containing red ink was applied repeatedly (10 times) to each of the 10 lateral flow analysis detection strip systems using a pipette.

After the moving part and the detection part were separated, the sample pad of the moving part was separated and its weight was measured using a scale. Before the experiment, the weight of the sample pad was subtracted to measure the amount of remaining water, and it was confirmed that 27.56 μL remained on average. .

In 10 repetitions, the relative standard deviation (%RSD) was 3.3526%, showing an error rate of less than 4%. The error rate was due to evaporation of the liquid remaining on the sample pad over time, the experiment being conducted without a plastic housing, The liquid sample flowing on the detection membrane of the detection unit, which is mainly involved in detection as it includes measurement errors, is injected in a fixed amount with low error.

Although the preferred embodiments of the present invention have been described above, those skilled in the art will be able to add, change, delete or modify components without departing from the spirit of the present invention as set forth in the patent claims. The present invention may be modified and changed in various ways by addition, etc., and this will also be included within the scope of rights of the present invention. For example, each component described as unitary may be implemented in a distributed manner, and similarly, components described as distributed may also be implemented in a combined form. The scope of the present invention is indicated by the claims described below rather than the detailed description above, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts should be construed as being included in the scope of the present invention. do.

10: Lateral flow analysis detection strip system
100: housing
110: exterior wall
120: internal space
130: Sample input unit
200: Yuinbu
210: elastic body
300: moving part
310: first substrate
320: sample pad
400: detection unit
410: probe pad
420: detection membrane
430: second absorbent pad (absorbent pad 2)
440: second substrate
500: Fixing part

Claims (19)

A housing including an outer wall, an inner space located inside the outer wall, and a sample input unit for introducing a sample from the outside of the outer wall into the inner space;
an attraction portion located on the left side of the interior space, one end of which is fixed to the outer wall, and including an elastic body;
a moving part coupled to the other end of the attracting part and including a first substrate and a sample pad positioned on the first substrate;
a detection unit located on the right side of the interior space, fixed to the outer wall, and including a probe pad, a detection membrane, and an absorbent pad in contact with the sample pad; and
It includes a fixing part, one side of which is coupled to a predetermined position of the detection unit, and the other side of which is coupled with the first substrate to fix the moving part,
The sample is a liquid,
A sample is input into the sample input section,
The sample pad receives a sample from the sample input unit,
The detection unit receives a sample from the sample pad,
The fixture receives a sample from the detection unit and is ruptured by the sample,
When the fixed part is ruptured by the sample, the moving part moves to the left side of the internal space,
Lateral flow analysis detection strip system. According to paragraph 1,
A lateral flow analysis detection strip system, wherein the elastic body includes one selected from the group consisting of rubber and spring. According to paragraph 1,
A lateral flow analysis detection strip system, wherein the elastic body has a tension that pulls the moving part to the left side of the internal space. According to paragraph 3,
A lateral flow analysis detection strip system, wherein the moving part is fixed by the fixing part and the tension of the elastic body is maintained. delete According to paragraph 1,
A lateral flow analysis detection strip system, characterized in that rupture of the fixing unit occurs when a sample exceeding a predetermined amount is supplied to the detection unit. delete According to paragraph 1,
The movement is a sliding movement,
A lateral flow analysis detection strip system, wherein the detection unit and the sample pad are separated by moving the moving unit to the left side of the internal space, so that excess sample exceeding a predetermined amount is not supplied to the detection unit. According to paragraph 1,
A lateral flow analysis detection strip system, wherein the fixing part includes a hydrophilic polymer. According to clause 9,
The hydrophilic polymer includes at least one selected from the group consisting of polyvinyl alcohol (PVA), cellulose, hydroxymethylcellulose, carboxymethylcellulose, hydrolyzable polyacrylamide, polyethylene glycol, and polypropylene glycol. Lateral flow analysis detection strip system. According to paragraph 1,
A lateral flow analysis detection strip system, characterized in that the amount of the sample supplied to the detection unit is adjusted by adjusting the position of the area where the other side of the fixing unit is coupled to the detection unit. According to paragraph 1,
The detection unit further includes a second substrate,
The detection pad, the detection membrane, and the second absorbent pad are positioned on one side of the second substrate,
A lateral flow analysis detection strip system, characterized in that the other side of the second substrate is located on the first substrate. According to clause 12,
The fixing part is positioned to surround the detection part,
One surface of the fixing part is coupled to the first substrate,
The other side of the fixing part is coupled to the second substrate,
A lateral flow analysis detection strip system, wherein the fixing part is in contact with one or more types selected from the group consisting of the probe pad, the detection membrane, and the second absorbent pad. According to clause 13,
As the fixing part adjusts the position of the area coupled to the second substrate, the fixing part includes at least one selected from the group consisting of the probe pad, the detection membrane, and the second absorbent pad. The contact position is adjusted,
The amount of the sample supplied to the detection unit is controlled as the position where the fixing part contacts one or more types selected from the group consisting of the probe pad, the detection membrane, and the second absorbent pad is adjusted. A lateral flow analysis detection strip system characterized in that: According to paragraph 1,
A lateral flow analysis detection strip system, wherein the sample input unit includes a sample input reservoir. A strip quantitative injection method in which a fixed amount of sample is injected into a strip using the lateral flow analysis detection strip system according to paragraph 1,
(a) supplying the sample to the sample pad by inserting the sample into the sample input unit;
(b) supplying the sample to a detection unit in contact with the sample pad, supplying the sample from the detection unit to a fixation unit, and causing the fixation unit to rupture; and
(c) The fixation of the moving part is released due to the rupture of the fixing part, and the moving part moves to the left side of the internal space, and the sample pad and the detection unit are separated from each other, so that the excess of the sample exceeding the predetermined amount is transferred to the detection unit. Steps not supplied;
Strip quantitative injection method comprising: According to clause 16,
In step (c), the strip metering injection method is characterized in that the movement of the moving part is caused by tension of an elastic body that pulls the moving part to the left side of the internal space. According to clause 16,
After step (c) of the sample quantitative injection method,
(d) detecting the sample supplied to the detection unit. A strip quantitative injection method further comprising: According to clause 18,
The target of detection is influenza virus, acquired immunodeficiency (HIV) virus, smallpox virus, foot-and-mouth disease virus, Ebola virus, dengue virus, Zika virus, coronavirus virus, HPV virus, and bacteria. A strip quantitative injection method comprising at least one selected from the group consisting of pneumonia, tuberculosis, and gonorrhea.