Recovery of DNA ofGiardia intestinaliscysts from surface water concentrates measured with PCR and real time PCR

The taxonomy and molecular epidemiology of Giardia and Giardia infections are reviewed in the context of zoonotic and waterborne transmission. Evidence to support the zoonotic transmission of Giardia is very strong, but how frequent such transmission occurs and under what circumstances, have yet to be determined. Zoonotic origin for waterborne outbreaks of Giardia infection appears to be uncommon. Similarly, livestock are unlikely to be an important source of infection in humans. The greatest risk of zoonotic transmission appears to be from companion animals such as dogs and cats, although further studies are required in different endemic foci in order to determine the frequency of such transmission.

The flagellate parasite Giardia duodenalis is a major cause of diarrhoea in humans and in animals worldwide. Molecular techniques are particularly useful for studying the taxonomy, the population structure, the zoonotic potential of animal isolates, and the correlation between the genetic variability of the parasite and the range of clinical symptoms observed in humans. In this work, a new PCR assay that targets the beta-giardin gene was tested on 21 Giardia duodenalis reference strains representing Assemblages A, B and E, which are associated with infections of humans and other mammals. The assay was then applied to 30 faecal samples collected from Italian persons. The sequence analysis of 31 PCR products from both reference strains and clinical samples showed that each Assemblage is clearly distinct from the others on the basis of specific substitutions; the sequence diversity was approximately 5%, and all substitutions occurred at the third codon positions of the gene. The analysis of the intra-Assemblage variability allowed for the identification of three genotypes within Assemblage A, and of four genotypes within Assemblage B. Interestingly, two genotypes were identified only in the clinical samples and not in reference strains. Finally, a simple PCR-restriction fragment length polymorphism method was developed for the rapid discrimination of Assemblages and applied for the direct genetic analysis of cysts present in human faecal samples.

Entamoeba histolytica, Giardia intestinalis, and Cryptosporidium spp. are not only three of the most important and common diarrhea-causing parasitic protozoa, but they often have similar clinical presentations. Microscopic diagnosis of these parasites is neither sensitive nor specific. Recently, more specific and sensitive alternative molecular methods (polymerase chain reaction [PCR] and antigen detection tests) have been introduced for all three of these parasitic infections. The use of these molecular diagnostic tests in routine diagnostic laboratories is still limited. In this study, we developed a multiplex real-time PCR assay for the simultaneous detection of E. histolytica, G. intestinalis, and Cryptosporidium spp. in one reaction using species-specific probes. This assay was evaluated using clinical specimens and was found to be quite sensitive and specific. The reagents used in this multiplex PCR assay can also be used for detection of these parasites individually. The use of this real-time PCR multiplex assay in developing countries at present will have limited scope for routine diagnosis because the cost will be high for a single test, although in the developed world, the test could see immediate application.