KR20210055406A - Sample analysis cartridge - Google Patents

Abstract

A sample analysis cartridge is disclosed. The sample analysis cartridge according to an embodiment includes: a strip for visually displaying a reaction result for a target material in a sample; a base housing including a support unit for supporting the lower surface of the strip and a reservoir positioned at an end of the supported strip, and accommodating a sample; and a cover housing including an inlet which is connected to cover the base housing and vertically communicates with the reservoir and into which the sample is put, an inspection window for observing the strip, and a contact member supporting the upper surface of the strip so that the strip can come in contact with the support unit.

Description

Sample analysis cartridge {SAMPLE ANALYSIS CARTRIDGE}

The following example relates to a sample analysis cartridge.

A method of analyzing the user's biometric information through a sample extracted from the user's body is being used. As a sample for analyzing biometric information, urine, blood, body fluid, etc. that can be easily extracted from the user's body may be used. Conventionally, a sample is centrifuged to detect whether a specific component is present in the sample, thereby analyzing the user's biometric information. However, the above-described method has a disadvantage in that it takes a considerable time to analyze biometric information, and requires a device for separating a sample, and thus cannot analyze biometric information in a simple manner.

Recently, a bioanalytical method is used in which a sample extracted from a user is injected into a strip containing a reagent that reacts to a target component, and the reaction result of the reagent is simply checked with the naked eye. The above-described method has the advantage of being able to analyze the user's biometric information through a simple qualitative analysis. However, when the body fluid contains a large number of substances other than the target component, a phenomenon in which the reaction result of the reagent is inaccurate may occur. For example, when detecting the presence or absence of a specific antibody in the user's blood to determine the presence or absence of an immune component, a reaction result of a sample of the strip may not be clearly displayed due to the color of the blood itself.

Accordingly, there is a need for a cartridge that is simple to use and provides more accurate and clear sample analysis results.

An object of the embodiment is to provide a sample analysis cartridge capable of clearly identifying a reaction state for a sample.

An object of the embodiment is to provide a sample analysis cartridge capable of evenly developing a test line according to a sample reaction.

A sample analysis cartridge according to an embodiment includes: a strip for visually displaying a reaction result for a target substance in a sample; A base housing including a support portion for supporting a lower surface of the strip, and a reservoir positioned at an end of the supported strip to receive a sample; And, connected so as to cover the base housing, the inlet in vertical communication with the reservoir and into which the sample is introduced, an inspection window for observing the strip, and supporting the upper surface of the strip so that the strip is in close contact with the support. It may include a cover housing including a contact member.

In one side, the strip is disposed such that an end thereof is in contact with the reservoir, and includes a sample pad that absorbs a sample from the reservoir, and the support part supports a lower side of the sample pad and slopes downward in the reservoir direction. It may include an inclined member formed to be supported.

In one side, the contact member may protrude toward the lower side of the cover housing so as to have the same inclination as the inclined member, and may support an upper side of the sample pad.

In one side, the reservoir includes a bottom surface, a side surface, and an opening in which a portion of the side surface is opened at a position spaced apart from the bottom surface by a set height so that an end of the sample pad is inserted, and the sample pad May absorb the sample when the sample accommodated in the storage reaches the set height.

In one side, the base housing may further include fixing members formed on both sides along the length direction of the supported strip to fix the position of the strip.

The sample analysis cartridge according to the embodiment may clearly identify a reaction state with respect to the sample.

In the sample analysis cartridge according to the embodiment, since the sample is not directly supplied to the sample pad, the test line according to the sample reaction may be uniformly colored.

The effect of the sample analysis cartridge according to an embodiment is not limited to those mentioned above, and other effects that are not mentioned will be clearly understood by those of ordinary skill in the art from the following description.

The following drawings attached to the present specification illustrate a preferred embodiment of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention. It is limited and should not be interpreted.
1 is an exploded perspective view of a sample analysis cartridge according to an embodiment.
2 is a perspective view of a cover housing according to an embodiment.
3 is a bottom view of a cover housing according to an embodiment.
4 is a perspective view of a base housing according to an embodiment.
5 is a top view of a base housing according to an embodiment.
6 is a side cross-sectional view of a sample analysis cartridge according to an exemplary embodiment.
7 is an enlarged view of part A of FIG. 6.

Hereinafter, embodiments will be described in detail through exemplary drawings. In adding reference numerals to elements of each drawing, it should be noted that the same elements are assigned the same numerals as possible, even if they are indicated on different drawings. In addition, in describing the embodiment, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment, the detailed description thereof will be omitted.

In addition, in describing the constituent elements of the embodiment, terms such as first, second, A, B, (a), and (b) may be used. These terms are for distinguishing the constituent element from other constituent elements, and the nature, order, or order of the constituent element is not limited by the term. When a component is described as being "connected", "coupled" or "connected" to another component, the component may be directly connected or connected to that other component, but another component between each component It should be understood that may be “connected”, “coupled” or “connected”.

Components included in one embodiment and components including common functions will be described using the same name in other embodiments. Unless otherwise stated, the description in one embodiment may be applied to other embodiments, and a detailed description will be omitted in the overlapping range.

1 is an exploded perspective view of a sample analysis cartridge according to an embodiment, FIG. 2 is a perspective view of a cover housing according to an embodiment, FIG. 3 is a bottom view of the cover housing according to an embodiment, and FIG. 4 is an embodiment A perspective view of a base housing according to an example, and FIG. 5 is a top view of the base housing according to an embodiment.

1 to 5, the sample analysis cartridge 1 according to an exemplary embodiment may detect the presence or absence of a target material from an input sample. The sample may be a fluid compound or composition, for example, blood or body fluid extracted from a user. The target substance is a substance to be analyzed for detecting whether it is present in a sample, and may include, for example, a nucleic acid, an antibody, an antigen, and the like. Here, the nucleic acid may include DNA, cDNA, and chemically synthesized DNA and RNA including oligonucleotides. Nucleic acids may include single stranded or double stranded.

The sample analysis cartridge 1 can easily detect whether a target substance is present from a biological sample, for example, blood or body fluid extracted from a user. The sample analysis cartridge 1 maintains a constant amount of a sample used for detection, regardless of the amount of sample to be injected, thereby ensuring reproducibility of an accurate result.

The sample analysis cartridge 1 may include a strip 10, a base housing 12 and a cover housing 11.

The strip 10 may visually display a reaction result for the target material in the provided sample. The strip 10 may detect the presence or absence of a target material in the sample through, for example, a lateral flow assay based on chromatography. Lateral flow analysis is a method of quantitatively or qualitatively measuring a target substance, for example, a specific nucleic acid or protein contained in a sample.For example, an oligonucleotide or a specific antibody or antigen that hybridizes to a nucleic acid of a certain sequence This is a method of detecting a specific nucleic acid or protein in a sample through a sequence-specific hybridization reaction or an antigen-antibody reaction by moving an analyte using a chromatography principle using a nitrocellulose membrane bound to this specific position.

Although not shown in the drawing, the strip 10 is disposed at the lower side along the longitudinal direction, and may include a support for supporting other configurations of the strip 10, and a plurality of pads disposed on the support object so as to be in continuous contact. have. The plurality of pads are connected to each other so that the sample can be moved along the length direction of the strip 10 according to a chromatography technique. For example, the strip 10 includes a sample pad that initially absorbs a sample, a conjugate pad connected to the sample pad, a membrane connected to the conjugate pad and displaying the test result, and a membrane. It may include an absorbent pad connected to and absorbing the residue of the sample. However, the configuration of the strip 10 is as an example, and the strip 10 may include a known configuration for analyzing an input sample by a chromatography technique.

Hereinafter, for convenience of explanation, the strip 10 is divided into an absorption area 101 in which a sample is initially absorbed, and a display area indicating whether or not a target material in the sample is detected. The absorption region 101 may include a sample pad serving to receive a sample on the strip 10. The sample pad performs a function of mixing the received sample with the sample diluent so that the components of the sample move easily along the length direction of the strip 10 through the medium.

The display area reacts with a target material among the components in the sample that has moved along the length direction of the strip 10 to display whether or not the target material in the sample is present with a detection line. In the display region, the target material in the sample binds to a specific nucleic acid, antibody, or antigen.

When detecting a target material in a sample through the strip 10, the amount of the target material supplied to the strip 10, that is, the amount of sample absorbed by the sample pad, needs to be kept constant in order to obtain a reproducible result. There is. In general, a sample is mixed with a buffer and supplied to the strip 10. When the sample is supplied to the strip 10 without being sufficiently mixed with the buffer, or when an excessively large number of samples are supplied, the test line of the strip 10 is A phenomenon in which the color is not evenly developed may occur, or a phenomenon in which the inspection line is shifted to one side may occur due to non-uniform mixing.

The base housing 12 and the cover housing 11 according to an embodiment may perform a function of placing the strip 10 therein and supplying a certain amount of a sample to the strip 10. The base housing 12 and the cover housing 11 may assist so that the injected sample is not directly supplied to the strip 10, but is supplied in a state that is sufficiently mixed with the buffer.

The base housing 12 may constitute the lower exterior of the sample analysis cartridge 1. The base housing 12 may fix the position of the strip 10 on the sample analysis cartridge 1. The base housing 12 may mix the injected sample with the buffer. The base housing 12 may include a support 122, a storage 121 and a fixing member 123.

The support part 122 may support the lower surface of the strip 10. The support part 122 may be formed to protrude from the lower side along the length direction of the strip 10. The support part 122 includes a support member 1222 supporting the lower side of the detection area 102 of the strip 10 and an inclined member 1221 supporting the lower side of the absorption area 101 of the strip 10. I can. In this case, the inclined member 1221 may be formed to protrude from the lower side so as to have an inclination so that the strip 10 has a downward inclined position in the direction of the storage 121 to be described later. This will be described later.

The storage 121 may contain a sample supplied to the sample analysis cartridge 1. The reservoir 121 may be formed at a position in contact with the end of the supported strip 10, that is, the end of the inclined member 1221. The storage 121 may include a bottom surface and a side surface formed along the circumference of the bottom surface. In this case, the reservoir 121 may include an opening in which the side adjacent to the end of the sample pad of the strip 10 is opened. The opening may be formed at a position spaced apart from the bottom surface by a set height. The end of the strip 10 may be located in the opening. In this case, the sample pad of the strip 10 is a sample from the storage 121 when the water level of the sample stored in the storage 121 reaches the height of the opening. Can absorb.

The fixing member 123 may fix the position of the strip 10 supported on the support part 122. The fixing member 123 may protrude around the supported strip 10. A plurality of fixing members 123 may be formed. By the fixing member 123, the strip 10 can be prevented from being separated from the aligned position, that is, from the upper side of the support part 122 by supporting the rim.

The cover housing 11 may form the upper exterior of the sample analysis cartridge 1. The cover housing 11 may be connected to the base housing 12 to cover the base housing 12. The cover housing 11 may include an inlet 111, an inspection window 112, and an adhesion member 113.

The inlet 111 may serve as a path through which a sample is introduced. The inlet 111 may include an inlet hole 1111 penetrating the cover housing 11 vertically. In a state in which the cover housing 11 is connected to the base housing 12, the input hole 1111 may be in vertical communication with the storage 121. Accordingly, the sample may be supplied into the storage 121 through the input hole 1111. The injection hole 1111 may have a circular or elliptical shape based on a state viewed from the top. A guide portion 1112 formed to be inclined upwardly toward the outside from the injection hole 1111 may be formed around the injection hole 1111. In other words, based on the state viewed from the top, the guide part 1112 is inclined downward toward the center, and an input hole 1111 penetrating the cover housing 11 vertically is formed in the center of the guide part 1112. I can. According to this structure, when a sample is supplied to the inlet 111, the sample supplied to the periphery of the inlet hole 1111 may flow into the inlet hole 1111 along the guide part 1112 by gravity.

When viewed from the top, the storage 121 may have a larger area than the inlet 111. Since the end of the strip 10 is in contact with the outside of the inlet 111, the sample supplied to the reservoir 121 through the inlet 111 is not directly supplied to the strip 10, but via the reservoir 121 It can be supplied as a strip 10. When a sample and a buffer are supplied to the sample analysis cartridge 1, the sample is not directly absorbed by the strip 10 and is preferentially stored in the storage 121, so that the sample can be sufficiently mixed with the buffer in the storage 121. .

The inspection window 112 may observe the inspection area of the strip 10. The inspection window 112 may be formed in the area of the cover housing 11 corresponding to the inspection area of the strip 10 seated on the support part 122. The inspection window 112 may be opened so that the inspection area of the strip 10 can be observed from the top of the cover housing 11.

The contact member 113 may support the upper surface of the strip 10 so that the strip 10 comes into close contact with the support part 122. The contact member 113 may be formed on the lower surface of the cover housing 11. The contact member 113 may prevent the strip 10 from being separated from the support part 122 by contacting the upper surface of the strip 10. The contact member 113 may be formed at a position corresponding to the inclined member 1221 of the support part 122. In this case, the contact member 113 has the same slope as the inclined member 1221, that is, the cover housing 11 toward the storage 121 so as to have the same inclination as the inclined member 1221 based on the state viewed from the side. It may protrude downward from According to this structure, when the absorption region 101 of the strip 10, that is, the sample pad is bent downward in the direction of the reservoir 121 by the inclined member 1221 supporting the lower side, the contact member 113 By supporting the upper surface of the sample pad, it is possible to prevent the sample pad from being separated from the inclined member 1221.

6 is a side cross-sectional view of the sample analysis cartridge 1 according to an exemplary embodiment, and FIG. 7 is an enlarged view of portion A of FIG. 6.

With reference to FIGS. 6 and 7, a method of operating the sample analysis cartridge 1 will be described. In a state in which the base housing 12 and the cover housing 11 are coupled, the strip 10 may be placed in an alignment position with the lower surface supported by the support part 122. When a sample is injected into the inlet 111, the sample may be supplied to the storage 121 through the inlet 111. When the buffer is supplied to the inlet 111, the sample is not immediately absorbed into the strip 10 and may be mixed with the buffer in the reservoir 121. Since the transfer of the sample to the strip 10 is blocked by the outer wall, when the water level of the sample accommodated in the reservoir 121 reaches the height of the opening, the sample crosses the side wall of the reservoir 121 and the strip 10 Can be supplied as In this case, the absorption region 101 of the strip 10, that is, the sample pad is supported by the inclined member 1221 and the contact member 113 inclined downward toward the reservoir 121, so that the water level is set at a set height. It can absorb the sample that has reached to. According to this structure, since the sample is not directly loaded onto the strip 10 and the sample is loaded via the reservoir 121, a sufficient time for the sample to be mixed with the buffer can be secured. In addition, regardless of the amount of the sample to be injected, a certain amount of sample is supplied to the strip 10, so that reproducibility of the detection result through the strip 10 can be secured.

As described above, although the embodiments have been described by the limited drawings, various modifications and variations are possible from the above description to those of ordinary skill in the art. For example, the described techniques are performed in a different order from the described method, and/or components such as the described structure, device, etc. are combined or combined in a form different from the described method, or in other components or equivalents. Even if substituted or substituted by, appropriate results can be achieved.

1: Sample analysis cartridge
10: strip
11: cover housing
12: base housing

Claims (5)

A strip visually displaying a reaction result for the target substance in the sample;
A base housing including a support portion for supporting a lower surface of the strip, and a reservoir positioned at an end of the supported strip to receive a sample;
A contact member connected to cover the base housing, vertically communicating with the storage, and an input port into which the sample is input, an inspection window for observing the strip, and a contact member supporting the upper surface of the strip so that the strip is in close contact with the support Cover housing comprising a;
Sample analysis cartridge comprising a.
The method of claim 1,
The strip is disposed so that its end is in contact with the reservoir, and includes a sample pad that absorbs a sample from the reservoir,
The support part includes an inclined member configured to support a lower side of the sample pad and inclined downward in the storage direction.
The method of claim 2,
The contact member,
The sample analysis cartridge is formed to protrude to the lower side of the cover housing so as to have the same inclination as the inclined member, and supports the upper side of the sample pad.
The method of claim 3,
The storage is,
A bottom surface, a side surface, and an opening in which a part of the side surface is opened at a position spaced apart from the bottom surface by a set height so that an end portion of the sample pad is inserted,
The sample pad absorbs the sample when the sample accommodated in the reservoir reaches the set height.
The method of claim 2,
The base housing,
A sample analysis cartridge further comprising a fixing member along the circumference of the supported strip to fix the position of the strip.

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