The 1970s saw the development of the ELISA, also known as enzyme-linked immunosorbent assay. This typical laboratory test determines the amount of an analyte—typically antibodies or antigens—in a given solution. With ELISA, you can measure the results, which makes it different from other tests of the same kind.
In this post, we’ll look at seven unique highlights of ELISA, including the principle, process, and applications.
What is ELISA?
The Enzyme-Linked Immunosorbent Assay, or ELISA, is one of the immunoassays that is considered to be among the most sensitive. An ELISA can usually detect things between 0.1 fmole and 1 fmole or 0.01 ng and 0.1 ng. It’s an assay method that uses plates to identify and measure biomolecules such as peptides, proteins, antibodies, and hormones.
An antigen must be immobilized on a hard surface and then cross-linked with an enzyme-linked antibody in an ELISA. The conjugated enzyme’s activity is evaluated by incubating it with a substrate to yield a quantifiable result, which enables detection. A specific antibody-antigen engagement is the most critical component of this detection technique.
Types of ELISA
ELISA tests can be divided into three categories based on the various methods used for antigen and antibody binding, namely:
- Reverse ELISA
- Sandwich ELISA
- Comparable ELISA
Types of Detection Methods
In addition to these various approaches for carrying out ELISA, there are also numerous approaches to detection, split up into two categories: direct and indirect.
Testing using an ELISA kit can yield either purely quantitative or qualitative and semi-quantitative results. The data are typically graphed to be compared with other studies and used to conclude. The interpretation of quantitative findings involves making comparisons to a standard curve. The absence or presence of an antigen is reported as a simple yes or no in qualitative results, and Semi-quantitative outcomes are contrasted in relative levels.
This test is susceptible when compared to other immunoassays that are currently on the market. The features of the antibody-antigen reaction will determine the level of sensitivity that can be achieved. The laboratory could incorporate a substrate, such as one that produces a stronger chemiluminescent or fluorescent signal, to achieve more favorable outcomes.
Principle of ELISA
ELISA is based on the theory that particular antibodies will bind to their respective targets’ antigens, allowing for detecting both the presence of and the number of antigens attached. The plate needs to be coated with antibodies with high affinity for the target to maximize the experiment’s sensitivity and precision. A helpful measurement of the antigen-antibody concentration can be obtained through ELISA.
ELISA Kit Protocol
You can find links to the handbooks for ELISA kits on some online datasheets, or you can request access. These materials contain information on the assay’s essential workings, a comprehensive list of the kit’s components, and an in-depth procedure. The simple methodology and thorough instructions are best suited for people with little experience with ELISAs and those with extensive experience but limited time.
In addition, you can find MSDS sheets for these products if you need them. There are several ELISA kit businesses and manufacturers that offer a wide variety of tests. However, these kits are distinguished by their high-quality components and reagents.
ELISA Procedure
ELISA is one of the most straightforward blood tests that can be performed. It is swift, takes very little time, and all that is needed is a blood sample from the patient. The entire ELISA procedure is detailed below.
- An antibody is immobilized on a polystyrene dish, which has a solid structure. This antibody is sensitive to hormones, other compounds, and microorganisms, and thus it is bonded to the plate.
- After adding the antigen-antibody mixture to a microtiter that has already been coated with antigen, the microtiter is washed to eliminate any free antibodies.
- In most cases, a second antibody that is selective to the first antibody and that has been coupled with an enzyme is added.
- Washing the plate removes any secondary antibodies that are not enzyme-linked free.
- The last step is to add the substrate. The enzyme changes the substrate into a colored byproduct that can be measured with spectrophotometry.
- ELISA can identify the presence of the HCG protein, which is a sign of pregnancy. To complete the process, a blood or urine sample and purified HCG coupled to an enzyme must be added. If HCG is not present in the sample being tested, just the enzyme connected to it will adhere to the solid surface.
- The higher the concentration of the substance of interest, the more reaction occurs, and the less linked enzyme adheres to the solid surface. Usually, a change in the solution’s color indicates the presence of these activities.
ELISA-Diagnosable Illnesses
Some of the following conditions can be identified using ELISA kits :
- Pernicious anemia
- Syphilis
- Toxoplasmosis
- Zika virus
- Epithelial cell adenocarcinoma
- AIDS
- Rotavirus
- Ebola
- West Nile virus
- Lyme illness
- Bibliography: Blood Groups
The Benefits of ELISA
The ELISA method has several benefits, some of which are detailed below:
Due to the utilization of two different antibodies, the results obtained through ELISA allow for a reliable diagnosis of a specific disease. It can be performed on complicated samples because the antigen doesn’t require purifying to be detected.
Because both direct and indirect analysis methods can be used, it has a high degree of responsiveness. Fast turnaround time for results is another advantage of this test.
ELISA detection models include quantitative, semi-quantitative, standard curve, qualitative, and calibration curve models, among others. Compared to other tests that need to be conducted in the presence of radioactive substances, this one is simpler and less challenging.
ELISA Applications
Some of ELISA’s many uses are described in the following points.
- It is possible to ascertain whether or not a specimen has any antibodies or antigens.
- It is used in the food sector to identify any allergies that may be present in the food.
- Serum antibody testing is used to quantify the level of protection against infection in a blood sample.
- Rapid testing kits are used to find the existence of antibodies in blood samples during a disease epidemic to assess the spread of the illness, as was the case with the most recent COVID-19 outbreak.
Conclusion
The ELISA test relies on the unique interaction between an antigen’s specific amino acid sequence and the attachment site on an antibody identical to the antigen. An ELISA test can involve either monoclonal or polyclonal antibodies, depending on the researcher’s preference.