Haemagglutination is a form of agglutination where antibodies bind to red blood cells. Red blood cells are both readily available and the results are readily observable using the naked eye. This video demonstrates the steps involved in a haemagglutination assay, interpreting the results and determining the titre.
Preparation of 5x Veronal Buffered Saline (VBS)
Dilution of Revercells
Verfahren
Representative Results:
The video includes an example of representative results. Below (Fig1 and Fig 2) are two examples shown in a diagrammatic manner. The first example is of a reaction that cannot be interpreted as the VBS control is positive, while the second is a valid assay that allows for the titre to be determined.
Figure 1. An example of a haemagglutination where the positive result has failed. In the diagrammatic representation above, the heamagglutination reaction cannot be accepted. The VBS serum negative control displays a positive haemagglutination reaction as evidenced by the sheet formation at the base of the well. This indicates that an error has occurred and the results cannot be accepted. In this case, the process should be repeated.
Figure 2. An example of a haemagglutination where the positive result has worked correctly. In the diagrammatic representation, the heamagglutination reaction is valid. The VBS negative control displays a negative haemagglutination reaction as evidenced by the pellet that has formed at the base of the well. The last positive well is row 7, which indicates that the titre for this serum sample is 128 (i.e the reciprocal of 1/128). This would be an example of an antibody that is present in moderate amounts in the serum.
The haemagglutination assay is a very simple technique that allows for a large number of serum samples to be assessed within a short period of time. It also has the advantage of being read without the need for specialised equipment, with the eye being suitable. This technique can also be modified for the detection of human chorionic gonadotrophin hormone present in urine, as part of a haemagglutination-inhibition test. In relation to a standard haemagglutination test, there are a few areas where care needs to be taken in order for the assay to be performed correctly. Firstly, this technique is based on the settling of cells onto a concave surface. As such, it is essential that a U- or round bottom microtitre plate is used. The use of a flat bottom plate as is commonly used for ELISA is not suitable, as negative and positive reactions will appear identical. It should also be appreciated that when different serum samples are used, reactive antibodies are likely to be present at differing concentrations. At high antibody concentration, the antigen (Revercells) may be limiting and a prozone effect may be observed. However this will not affect the determination of the titre value, since this is determined as being the last well where a positive reaction was last seen. Lastly, this technique is not quantitative, the absolute level of reactive antibody in the serum is not known. However, in most cases this is not necessary, particularly when the determination of reactivity to a known antigen is all the information that is required.
The author would like to thank Miss Lora Matthews for performing the technique and Mr Paul Shepherd for cinematography. This project was funded by the University of South Australia, Laboratory Medicine program.
Material Name | Typ | Company | Catalogue Number | Comment |
---|---|---|---|---|
Revercells | CSL | 02490201 | Use at 1% final | |
Anti-A serum | CSL | 02611305 | ||
96 well U bottom plate | TRP | 92097 | Must be U-bottom | |
Veronal buffered saline | Use at 1x final | |||
37°C room/incubator | ||||
Disposable gloves |