Medical science is advancing in leaps and bounds. New treatments, drugs and procedures are introduced regularly. One of the main areas of studies remains the development of new tests that will help physicians to diagnose diseases quicker. The earlier a condition is diagnosed the bigger the chance that it can be treated successfully. ELISA kits have done much to make the diagnosis of several conditions both easier and quicker.
Also known as enzyme immunoassay, or EIA for short, this laboratory technique is used to measure the concentration of antibodies or antigens in a solution, normally a blood sample. The ability to determine these concentrations is extremely important in the diagnostic process. Among the main advantages of this technique, when compared with others, is that it is very easy to carry out and a large number of tests can be processed simultaneously.
The presence of antigens or antibodies, or both, in the body is a clear sign of disease. This is because antigens are known as harmful substances. The body is able to detect the presence of antigens and it then immediately start producing antibodies to fight the antigens. It is therefore logical to assume that the presence of either substance indicates the presence of disease.
The administration of the test is straight forward and painless. A small blood sample is taken from the patient. This sample is then sent to the laboratory where the technician will add the blood sample to an antigen already present in a petri dish. If the blood sample contains antibodies to the antigen, the two substances will bind together. Enzymes are added and the reaction between the antibodies and the antigen is observed.
A lot of information can be gained from an EIA test. This is true even when the simplest form of the test is used. Yet it is possible to administer more complex tests, such as the direct EIA test. In this case a multiwall coats the antigen. This makes it difficult for the antibody to recognize the antigen. Recognition only takes place when very specific enzymes are introduced.
The indirect IEA test is another example of how this protocol can be used in an advanced manner. In this instance the antigen is actually covered by a polystyrene plate. This forces the antibodies to go through two distinct stages before the antigen is detected. This test allows technicians to identify both primary and secondary antibodies. This is valuable because it may eliminate the need for further expensive tests.
The sandwich EIA test needs pairs of antibodies that are matched in pairs. The first antibody is coated with polystyrene. A second antibody then serves as the detection agent. The purpose of this test is to determine the concentration of the analyte. This test is extremely useful in the diagnosis of latent diseases and it is deemed to be highly accurate.
When all is said and done it is still the early diagnosis of a disease that provides the best chance of recovery and successful treatment. That is why tests such as EIA are so important. They allow doctors to identify the potential or existence of disease at an early stage. This gives the patient a better chance.
Also known as enzyme immunoassay, or EIA for short, this laboratory technique is used to measure the concentration of antibodies or antigens in a solution, normally a blood sample. The ability to determine these concentrations is extremely important in the diagnostic process. Among the main advantages of this technique, when compared with others, is that it is very easy to carry out and a large number of tests can be processed simultaneously.
The presence of antigens or antibodies, or both, in the body is a clear sign of disease. This is because antigens are known as harmful substances. The body is able to detect the presence of antigens and it then immediately start producing antibodies to fight the antigens. It is therefore logical to assume that the presence of either substance indicates the presence of disease.
The administration of the test is straight forward and painless. A small blood sample is taken from the patient. This sample is then sent to the laboratory where the technician will add the blood sample to an antigen already present in a petri dish. If the blood sample contains antibodies to the antigen, the two substances will bind together. Enzymes are added and the reaction between the antibodies and the antigen is observed.
A lot of information can be gained from an EIA test. This is true even when the simplest form of the test is used. Yet it is possible to administer more complex tests, such as the direct EIA test. In this case a multiwall coats the antigen. This makes it difficult for the antibody to recognize the antigen. Recognition only takes place when very specific enzymes are introduced.
The indirect IEA test is another example of how this protocol can be used in an advanced manner. In this instance the antigen is actually covered by a polystyrene plate. This forces the antibodies to go through two distinct stages before the antigen is detected. This test allows technicians to identify both primary and secondary antibodies. This is valuable because it may eliminate the need for further expensive tests.
The sandwich EIA test needs pairs of antibodies that are matched in pairs. The first antibody is coated with polystyrene. A second antibody then serves as the detection agent. The purpose of this test is to determine the concentration of the analyte. This test is extremely useful in the diagnosis of latent diseases and it is deemed to be highly accurate.
When all is said and done it is still the early diagnosis of a disease that provides the best chance of recovery and successful treatment. That is why tests such as EIA are so important. They allow doctors to identify the potential or existence of disease at an early stage. This gives the patient a better chance.
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