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In this article we will discuss about the Enzyme Immuno Assay and Radioimmunoassay.
Enzyme Immuno Assay (EIA):
Hormones, Proteins, etc. present in blood in minute concentration can be assayed by the recent advanced technique of “Enzyme Immuno Assay” without involving any disadvantage. The basic reaction is the interaction between an antibody and an antigen.
Enzyme immuno assay (EIA) is classified into two ways:
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1. Homogeneous enzyme immuno-assay (EHIA).
2. Heterogeneous enzyme immuno-assay (HTEIA) or Enzyme-linked immunosorbent assay (ELISA).
1. HEIA:
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(a) It has got only liquid phase.
(b) Haptens like hormones, drugs, etc. are labelled with enzyme like lysozyme, malate dehydrogenase, etc. with no loss of enzyme activity. They will be made to react with a limited number of antibody molecules.
(c) There is competition between the enzyme-labelled hapten and the free hapten for the limited number of antibody molecules.
(d) No enzyme activity will be available if only the enzyme-labelled haptens are present since all of them unite with the antibody.
(e) No accommodation will be attained for some enzyme-labelled haptens depending on the concentration of free haptens in a mixture of free haptens and enzyme-labelled haptens. A colour will be produced after the reaction of this with the substrate.
(f) The intensity of colour is measured in a photometer.
(g) It is called homogeneous EIA since the reaction takes place in liquid phase only and is applicable for T3, T4, estriol, Cortisol, etc.
(h) This technique couples the three aspects-immunology, enzymology, and photometry.
2. Heterogeneous EIA:
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(a) The antibody is fixed to the wall of a small test tube.
(b) The test sample contains the antigen to be estimated.
(c) Only the antigen is taken up by the antibody when the test sample is added. Anything else contained in the medium is removed by aspiration and rinsing. This is so-called bound-free separation.
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(d) The competition principle is applicable in this type also just like homogeneous EIA.
(e) A competition is held for the antibody sites between the un-labelled antigen and labelled antigen.
(f) Some antigens which are bound may be labelled while some others may be un-labelled.
(g) The extent of the labelled antigen binding to the antibodies is governed by the concentration of un-labelled antigen in the specimen.
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(h) The specimen liquid is then aspirated out and the tube is rinsed with a suitable liquid.
(i) Then the test tube is treated with H2O2 and a chromogen.
(j) The peroxidase attached to the antigen and fixed to the wall via the antibody then reacts with the substrate to form a colour.
(k) The absorbance of the colour is measured in a photometer.
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(l) The concentration of the enzyme-labelled bound antigen is decided by that of the un-labelled antigen.
(m) The latter can be assayed using a standard curve with known amounts of un-labelled antigen.
In some cases, instead of development of colour, turbidity may be produced. The increase in turbidity due to the antigen-antibody reaction is measured in a cuvette.
But in the titration principle, insulin labelled with enzyme is made to bind, to antibodies in competition with un-labelled insulin. The sites are filled with enzyme-labelled insulin in titrable quantities.
The antigen can bind to more than one site of the antibody when applied to a-fetoprotein on the basis of Sandwich principle.
This states as follows:
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1. It is involved in filling the antibody sites fixed to the wall with a-fetoproteins in the serum of a pregnant woman.
2. The antigen has multiple sites for antibody binding.
3. The antibody labelled with the enzyme is now added. This labelled antibody attaches to the site still free on the antigen.
4. The contents are aspirated.
5. The greater the amount of antigen, the greater the amounts of labelled antibody remaining on the wall.
6. Colour reaction is performed for estimating the enzyme.
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Important points to be noted:
1. Except glass tube, polystyrene microtitre plate, cellulose, isothiocyanate and polyacrylamide can be used for fixing the antibodies.
2. The enzyme label for the antibody may be alkaline phosphatase, glucose oxidase, β-Galactosidase, glucose-6-phosphate dehydrogenase, and penicillinase.
3. Except hormones, immunoglobulin’s, α- fetoproteins, etc. the antigens can be purified virus and virus components, bacterial antigens, tetanus or diphtheria toxoids, fungal antigens etc.
Radioimmunoassay (RIA):
1. It has significant role in the diagnosis of diseases.
2. The gravimetric and the colorimetric methods fail when the substances to be analysed is in very low concentrations.
3. Even the nanogram amounts of radio-labelled substance give suitable counts detectable by electronic counters. These counts are related to the concentration of the substance assayed.
4. Radioimmunoassay is employed for the estimation of Vitamins like B2, and folic acid ; hormones like insulin, thyroxine (T4), triiodothyronine (T3), Cortisol, testosterone, dihydrotestosterone, estrogens; trophic hormones like ACTH, FSH, LH; drugs like digoxin, digi-toxin; antigens like the Australia antigen.
The Principle of the method:
1. A radio-labelled antigen (e.g., insulin labelled with l125) is made to compete with an unstable antigen, e.g., insulin to be estimated in the serum of a patient) for a limited number of binding sites of a specific antibody raised against insulin.
2. The antigen binds to the antibody.
3. Owing to inadequate binding sites, some of the antigens will be free and will include radio-labelled antigen also.
4. After equilibrium, the antigen-antibody complex is precipitated by using suitable reagents.
5. The supernatant is separated from the precipitate by centrifugation.
6. Both the precipitate (the bound antigen, B-form) and the supernatant (the free antigen, F) will have radioactivity since they have I125 – insulin.
7. Dextran – coated charcoal if is used, it removes the free antigen. The supernatant will have the bound form.
8. The extent of radioactivity of the two forms is measured in gamma ray well type scintillation counter.
9. The magnitude of radioactivity of the free form may be related to the concentration of the un-labelled antigen.
10. Alternately, the radioactivity of the sound form or the ratio of B/F is also related to the concentration of the un-labelled antigen.
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11. Different concentrations of the un-labelled insulin standard are used separately with the same concentration of the labelled insulin.
12. A graph is prepared with the radioactivity of the free form and the concentrations of the standard insulin. The serum whose insulin content is to be determined is treated in the same way.
13. From the radioactivity of the free form and extrapolation, the concentration of the insulin in serum is determined.
14. The assay is very sensitive since the labels used for R1A have high specific activity.
15. Normally, an antibody is raised for any antigen to be estimated. The technique is said to be radio immuno-assay since it couples radio activity and immune function (antigen binding to antibody).
Importance of RIA:
1. The receptor sites can even be assayed in addition to the estimation of hormones proper.
2. The patient does not require to take the radioisotope as the label is used only in vitro.
3. RIA has significance in diagnostic biochemistry. RIA comes in handy for the estimation of T3 and T4 separately.
4. In some thyroid disorders, T4 may be normal but T3 is elevated as in subclinical hyperthyroidism, ophthalmic Graves disease, autonomous thyroid nodules, T3 toxicosis, etc.
5. An apparent increase of the thyroid hormones is observed in pregnancy or in persons taking oral contraceptives due to the increased level of the serum thyroxine-binding globulin.
6. RIA can help to differentiate the basic biochemical lesion in endocrinology whether the increased level of a hormone is due to the production of the hormone as such or the tropic hormone.
7. This technique offers safety to the patient in the use of drugs if there is only a narrow margin between the therapeutic and toxic dosage. This is applied during digitalisation in the management of congestive heart failure.
8. Low levels of serum digoxin mean under digitalisation whereas high levels are toxic. The patient is given the optimum digitalisation by RIA of digoxin in serum.
9. This technique is also useful in diagnosing insulinomas, sex hormone sensitive tumors, etc. and this facilitates proper treatment of the diseases.