Light Microscopy

Replicating virus often produce histological changes in infected cells. These changes may be characteristic or non-specific. Viral inclusion bodies are basically collections of replicating virus particles either in the nucleus or cytoplasm. Examples of inclusion bodies include the negri bodies and cytomegalic inclusion bodies found in rabies and CMV infections respectively. Although not sensitive or specific, histology nevertheless serves as a useful adjunct in the diagnosis of certain viral infections.

Viral Genome Detection

Methods based on the detection of viral genome are also commonly known as molecular methods. It is often said that molecular methods is the future direction of viral diagnosis. However in practice, although the use of these methods is indeed increasing, the role played by molecular methods in a routine diagnostic virus laboratory is still small compared to conventional methods. It is certain though that the role of molecular methods will increase rapidly in the near future.Classical molecular techniques such as dot-blot and Southern-blot depend on the use of specific DNA/RNA probes for hybridization. The specificity of the reaction depends on the conditions used for hybridization. These techniques may allow for the quantification of DNA/RNA present in the specimen. However, it is often found that the sensitivity of these techniques is not better than conventional viral diagnostic methods.

Newer molecular techniques such as the polymerase chain reaction (PCR), ligase chain reaction (LCR), nucleic acid based amplification (NASBA), and branched DNA (bDNA) depend on some form of amplification, either the target nucleic acid, or the signal itself. bDNA is essentially a conventional hybridization technique with increased sensitivity. However, it is not as sensitive as PCR and other amplification techniques. PCR is the only amplification technique which is in common use. PCR is an extremely sensitive technique: it is possible to achieve a sensitivity of down to 1 DNA molecule in a clinical specimen. However, PCR has many problems, the chief among which is contamination, since only a minute amount of contamination is needed to give a false positive result. In addition, because PCR is so sensitive compared to other techniques, a positive PCR result is often very difficult to interpret as it does not necessarily indicate the presence of disease. This problem is particular great in the case of latent viruses such as CMV, since latent CMV genomes may be amplified from the blood of healthy individuals. Despite all this, PCR is being increasingly used for viral diagnosis, especially as the cost of the assay come down and the availability of closed automated systems that could also perform quantification (Quantitative PCR) e.g. real-time PCR and Cobas Amplicor.systems. Other amplification techniques such as LCR and NASBA are just as susceptible to contamination as PCR but that is ameliorated to a great extent by the use of propriatory closed systems. It is unlikely though that other amplification techniques will challenge the dominance of PCR since it is much easier to set up an house PCR assay than other assays.