Immunoassay Classifications Essay PDF

Summary

This document is an essay on different immunoassay classifications. It covers label-free assays, highlighting their simplicity and cost-effectiveness, as well as reagent excess and limited assays. The essay provides examples, like Latex Agglutination Assays (LAAs) or Sandwich Assays, and discusses factors like sensitivity and hook effects. It is a potentially useful resource for learners of biological chemistry or related disciplines.

Full Transcript

**Write an essay on each of the following Immunoassay Classifications
with an example and diagram of each:**

**[Label Free ]**

- Category of immunoassay that don't require a label to detect the
Ab-Ag complex.

- Based on principle that when Ab binds to it's Ag; they form a
complex that can be detected w/o label being needed.

- Rely on physical properties of complex, such as size or ability to
to scatter light.

- Can visualise the complexes via precipitation or Agglutination.

- When Ab or Ag coated onto cells, the binding of the Ab to it's
target Ag will cause the cells to clump together forming the
precipitation or agglutination.

- One of the **advantages** = Simplicity -\> they don't require
complex labelling procedures

- Another **advantage** = Cost-effectiveness -\> They're less
expensive than labelled assays due to the lack of need for labelling
procedures

- One **Disadvantage** = Sensitivity -\> They have a lower sensitivity
compared to labelled assays

- Another **Disadvantage** = Hook Effect -\> highly concentration of
analyte can inhibit complex formation; leads to inaccurate results

- To overcome Hook Effect; appropriate dilutions should be
conducted to determine the yield.

- **Example: Latex Agglutination Assays (LAAs)**

- Faster alternative to traditional single radial immunodiffusion
(sRID)

- Known concentrations of analyte (Ag) are used to create a
standard curve.

- Serial dilutions are done on bother the test sample and
standards to ensure they are within the detectable range

- Latex beads coated with a specific amount of purified antigen
are mixed in wells with sample containing the antibody.

- Mixture is incubated.

- If antibody present -- they will bind to the antigen in the
beads

- Causes agglutination (clumping together)

- An equivalence curve can be used to calculate the point at
which the ab and ag are equal in conc.

- Represents relationship between Ag con and degree of
agglutination observed

- The degree of agglutination can then be measure with a
spectrophotometer.

**[Reagent Excess]**

- Non competitive immunoassay

- Use an excess of reagents, usually Abs to ensure the target analyte
in the sample is captured and detected.

- Maximizes sensitivity and allows for quant of analyses over wide
concentration range.

- Example:

- 2-Site/Sandwich Assay

- Analyta captured between 2 Abs that bind to different
epitopes on target molecule.

- 1^st^ Ab is immobilised on solid phase -Microtitre
plate/magnetic beads-

- Sample containing analyte then added; allows for capture Ab
to bind specifically to target.

- 2^nd^ Ab -Detection Ab- introduced.

- Ab is conjugated to a detectable label such as Enzyme or
fluorescent molecule.

- Detection Ab binds to different epitope on analyte;
sandwiching target between 2 Abs

- Following wash step to remove unbound material; signal
generated by label is measured.

- Signal is directly proportional to conc of analyte in
sample.

- Advantages of Sandwich Assay:

- High specificity and sensitivity

- Due to the use of 2 Abs that recognise distinct epitopes
on the analyte

- Excellent Detection in complex small samples

- Such as serum and plasma

- Due to dual Ab binding minizing interference from other
components

- Disadvantages of Sandwich Assay:

- Requires carefully matched Ab pairs

- due to the need for them to bind to different epitopes
on analyte without interfering with each other

- Difficult to test small Ags

- Finding 2 distinct epitopes is challenging

- Applications:

- Detecting and quant of Protes in serum/blood sample

- Diagnosis and monitoring disease

**[Reagent Limited]**

- Competitive Assay

- Principle = Competition between labelled and unlabelled Ags for a
limited number of binding sites.

- Utilizes fixed and limited amount of Ab

- Can be heterogeneous or homogenous

- Uses a labelled Ag or labelled Ab

- Both labelled Ag and unlabelled analyte in sample compete for
binding sites

- Amount of labelled Ag bound to the Ab is inversley proportional to
the conc of unlabelled analyte in sample.

- Higher signal = lower conc of analyte in sample

- Example:

- Enzyme Multiplied Immunoassay Technique (EMIT)

- Free analyte analog molecules labelled with enzyme
-Glucose-6-Phosphate Dehydrogenase- competes with analyte of
interest in test solution

- Active Enzyme reduces NAD to NADH which is measurable
spectrophotometrically

- When bound, no reduction, therefore, more target bound
-\>more free enzyme -\> more signal

- Signal intensity = directly proportional to analyte conc