KR20110010030A - Immunoassay system - Google Patents

Abstract

PURPOSE: An immunoassay system for selecting foods is provided to quickly select individual useful food. CONSTITUTION: An immunoassay system for selecting foods comprises: a step of collecting blood; a step of measuring activity of immunocytes from the blood(1); a step of injecting various foods to immunocytes and culturing(2); a step of measuring activity of the cultured immunocytes to check improvement effect of each foods(3); and a step of selecting helpful foods. The immunity activity is tested by CD(cluster of differentiation antigen) marker test.

Description

Immunoassay System for Food Selection

The present invention relates to a system developed with the aim of analyzing / verifying how foods actually affect individual immunity. More specifically, by separating the major immune cells from the blood from the individual, and analyzing the activity, the existing immunity is identified, and the change in activity after the addition / culture of the main health functional food is analyzed. To understand the effects of each food, and through this system to identify the health functional food for individuals.

With the development of science, an immune system that protects our bodies' health has been identified. In the body, various immune cells such as Helper T-cell, Cytotoxic T-cell, Macrophage, and NK cell cooperate with each other to combat the invading germs, mutant cells generated by the body, and viruses.

Therefore, it is very important for the health of our body to maintain the proper number and activity of these immune cells. As the recent development of analytical technology, various analytical methods for identifying the activity of these immune forces have been found and actively It is used for diagnosis and treatment.

As the immunity has been scientifically identified and its importance has been confirmed, various attempts have been made to help the patient's recovery and promote health by increasing the immunity. In particular, recently, various foods that have been scientifically discovered to enhance immunity are attracting attention as so-called 'immune foods'.

In fact, some foods have been identified as potential for immunity enhancement through medical papers, and some foods have been individually recognized as health functional foods after the actual immunity boosting effect has been verified by the Food and Drug Administration.

However, the problem is that these foods are different depending on the individual's constitution, immunity, diet, and health, even if the food is the same. In fact, most foods claiming to boost immunity have only minimal immunity.

In other words, most of the dietary supplements that Koreans consume 4 trillion won a year have no real effect. This actually leads to consumer distrust of dietary supplements, but no one can give a clear answer on what is good and right.

In investing in expensive health foods, this uncertain effect is not only wasteful economically and timely, but can also cause physical problems, especially for patients suffering from illness. In addition, the reality is that patients and the general public cause serious reliability problems in taking dietary supplements.

The present invention is to solve the above problems by linking a certified immunoassay method with various health functional foods to easily verify the effect on the individual, and through this purpose to build a selection system to help make the right choice have.

That is, the present invention provides an immunodiagnostic system that provides information that allows individuals to select foods that actually help them in a short time by systematically inspecting / checking how various foods affect individual immunity. For the purpose of

In order to achieve the object of the present invention as described above, the immunoassay system for food selection according to the present invention is to collect the blood of the individual, to separate the immune cells from the collected blood and test the activity of the immune cells ; Injecting and culturing various foods into the immune cells; Inspecting the cultured cells to measure activity and confirm improvement effects for each food; It characterized by comprising the step of selecting the optimal food for the individual immunity effect.

This system can verify the suitability of each individual to the health functional food by verifying the actual change in the activity of immune cells through scientific methods can be more efficient use of the health functional food.

In addition, it can contribute to the advancement of 4 trillion won in dietary supplements and the improvement of public health.

In addition, through the scientific analysis through the present invention it is possible to advance the market by increasing the consumer's reliability and utility of food selection.

In addition, through objective and scientific analysis, it can contribute to securing the self-cleaning function and net function of the health food market overflowing with various false / hype advertisements.

In addition, by enabling consumers to select and consume the most economically and time-efficient foods, it can greatly contribute to the improvement of national health and finances.

1 is a flowchart illustrating an immune system for food selection according to the present invention. As shown in Figure 1, the present invention is largely composed of three steps.

Firstly, the individual's blood is collected, the immune cells such as CD4 Helper T-cell, CD8 cytotoxic T-cell, NK cell, and Macrophage are separated from the collected blood, and the activity of each isolated immune cell is examined and synthesized. Constructing an indicator identifying the immune status and the immune cell in question; Secondly, injecting various foods into each of the isolated immune cells, and culturing them; The third step is to examine the changes in the activity of immune cells after incubation, and to select and notify the foods according to individual circumstances by combining the results of food and immune cells.

The test of the immunological activity used in each step is basically carried out by a CD (Cluster of Differentiation Antigen) marker test. Because immune cells are similar in shape to each other, to determine what kind of protein they have on their cell membranes, and to differentiate them, the method is to use antibodies to surface proteins. . The surface molecular structure of these proteins, or phenotypic markers, is called CD (Cluster of Differentiation). CD markers on the surface of lymphocytes can be used to test immune function such as leukemia and AIDS. It is a technique.

CD classification Major antigen distribution CD classification Major antigen distribution CD3 Mature T-cell CD 16 NK cell, Macrophage CD4 Helper / Inducer T-cell CD 19 B-cell CD8 Suppressor / Cytotoxic T-cells CD 56 NK cell

In the present invention, in the first step, the immunity is comprehensively determined through a marker test for CD4 Helper T-cell, CD8 Cytotoxic T-cell, CD19 B-cell, and CD56 NK Cell. The judgment confirms the number of CD4, the ratio of CD4, CD8, CD19, CD56. In addition, the ratio between CD4 / CD8 is identified, which is wide in the reference range, but is very narrow in individuals so that they can understand the change in immunity, especially by looking at the results that change with culture after food addition. It is a good indicator.

Immune cell Reference value CD4 cell count 600 ~ 1,200 pcs / ml
High: 500 pcs / ml or more
Medium: 200 ~ 500 pcs / ml
Low: 200 pcs / ml or less
(350 anticancer treatment criteria / ml) CD4 Rate Male 29-57%
31-61% of women CD8 Rate 11-38% CD19 Rate 6.4%-23% CD16 + 56 Rate 5.6-31% CD4 / CD8 ratio 0.9-3.0

In the second step, the food was prepared at a concentration of 50 ug / ml to 1000 ug / ml, respectively, and dissolved in a medium of a well plate. In the first step, the cultured immune cells were dispensed. Incubate under a CO ₂ concentration of%. At this time, the culture medium without any food is added together as a control.

In the third step, the CD marker test is performed on the cultured immune cells in the same manner as the first step, and the difference between each well plate is determined.

< Example  1> Subject  1 (54 years old, men)

First, all the immune cells were tested for normality before the antibody was injected, and then the CD market test was performed. FIG. 2 is a graph showing FACS results of test subject 1, in which an arrow indicates an immune cell to be tested.

3 to 5 are graphs showing test results of CD4, CD8 and CD56 markers, respectively. The CD4 T-cell test result was 38.1%, the CD8 T-cell test result was 18.06%, and the CD56 test result was 11.52%. The overall immune cell activity was within the normal range, but in the CD8 T-cell range of 11% to 38%, 18%. In the case of CD56, 11.52% in the normal range of 5.6-31% was judged to be slightly low activity. Therefore, it is necessary to find a food that enhances the cytotoxic T-cell and NK cell activity of CD8.

Seven kinds of foods were added to the isolated immune cells, and then cultured.

FIG. 6 is a graph illustrating changes in CD4 markers according to food of Subject 1. FIG. The CD4 Helper T-cell showed 36% of activity in the control group without adding anything, whereas the addition of Food F increased 46% of activity to 46%.

FIG. 7 is a graph showing changes in CD8 markers according to food of Subject 1. FIG. The CD8 cytotoxic T-cell showed 24% activity in the control group, whereas the food F was 44%, an increase of 80%.

8 is a graph showing the change of CD56 marker according to the food of Subject 1; In the case of CD56 NK cells, 12% of the activity was shown in the control group, whereas F was increased to 32% in the strong activity of over 170%.

In this case, food F was found to exert an excellent effect on the activation of immune cells compared to other foods, especially since CD8 Cytotoxic T-cells and CD56 NK cells, which are currently in need of fortification, have a marked increase in their activity. Ingestion of F foods that are considered to be effective in fortification may be recommended.

< Example  2> Subject  2 (68 years old, men)

First, all the immune cells were checked for normality before the antibody was injected, and then the CD market test was performed. Fig. 9 is a graph showing FACS results of Subject 2, and the arrows indicate the immune cells to be tested.

10 to 12 are graphs showing test results of CD4, CD8 and CD56 markers, respectively. CD4 T-cell test result was 26.66%, CD8 T-cell test result was 26.60%, and CD56 test result was 2.58%. In case of Subject 2, CD4 was lower than the normal range of 29 to 57%. The level of immunity was considerably lowered in the normal range of 31%. Therefore, find a food that can recover.

Seven kinds of foods were added to the isolated immune cells, and then cultured.

FIG. 13 is a graph illustrating changes of CD4 markers according to food of Subject 2. FIG. The CD4 Helper T-cell showed 31% activity in the control group without adding anything, whereas the addition of food C increased 33.5% to about 8%.

FIG. 14 is a graph illustrating changes in CD8 markers according to food of Subject 2. FIG. The CD8 cytotoxic T-cell showed 31% activity in the control group, whereas the food E increased 37% in activity to 37%.

FIG. 15 is a graph illustrating changes in CD56 markers according to food of Subject 2. FIG. In the case of CD56 NK cells, 2% activity was observed in the control group, whereas F activity was increased to 6.8% to 300% or more.

In this case, the recovery of CD4 Helper T-cell and CD56 NK cell activity is below the normal range, and the recovery is urgent. In particular, the recovery of CD56 NK cell activity, which is less than half of normal value, is found to be important. Therefore, food intake was considered to be significant, but food E showed a rather negative result in CD4 helper T-cell. Therefore, in this case, it is expected that ingestion of food E along with food C, which is effective for CD4 Helper T-cell, may be recommended.

<Review of implementation results>

In fact, according to various foods ranging from A to G, it was confirmed that the effect of immune cell activity on each individual showed a great difference.

In other words, the 1-year-old male 56-year-old male was slightly lower in cytotoxic T-cell and NK cell activity, but Food F showed a significant improvement in the activity of these immune cells. There was no.

However, in the 54-year-old male of subject 2, the activity of Helper T-cell and NK cell was below the normal range, and in particular, the NK cell was inactive at only 50% of the normal range.

However, among the various foods, the effect of food C on the Helper T-cell and the food E on the NK cell was confirmed to increase the activity.

Therefore, it can be said that such an immunoassay system is a meaningful system that can confirm how suitable a health food is for an individual, and this result can be said to be a useful reference for selecting a health food for each individual.

1 is a flowchart illustrating an immune system for food selection according to the present invention.

2 is a graph showing FACS results of Subject 1;

3 is a graph showing a test result of a CD4 marker of Subject 1;

4 is a graph showing the test result of the CD8 marker of the subject 1;

5 is a graph showing the test result of the CD56 marker of the subject 1.

FIG. 6 is a graph illustrating changes in CD4 markers according to food of Subject 1. FIG.

FIG. 7 is a graph showing changes in CD8 markers according to food of Subject 1. FIG.

8 is a graph showing the change of CD56 marker according to the food of Subject 1;

9 is a graph showing FACS results of Subject 2.

10 is a graph showing a test result of the CD4 marker of the examinee 2.

11 is a graph showing the test results of the CD8 marker of the subject 2.

12 is a graph showing the test results of the CD56 marker of subject 2.

FIG. 13 is a graph illustrating changes of CD4 markers according to food of Subject 2. FIG.

FIG. 14 is a graph illustrating changes in CD8 markers according to food of Subject 2. FIG.

FIG. 15 is a graph illustrating changes in CD56 markers according to food of Subject 2. FIG.

Claims (1)

Collecting blood from an individual and separating and testing the immune cells from the collected blood to measure the activity of the immune cells; Injecting and culturing various foods into the immune cells; Inspecting the cultured cells to measure activity and confirm improvement effects for each food; Selecting an optimal food having an effect on immunity for each individual; Immunoassay system for food selection comprising a.

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