Detection ofClonorchis sinensisin stool samples using real-time PCR

Human clonorchiasis, caused by infection with the trematode Clonorchis sinensis, is a common health problem in East Asia. In an attempt to develop a new, sensitive method for the diagnosis of the disease, the use of a real-time PCR (targeting the internal-transcribed-spacer-2 sequence of the parasite) to detect C. sinensis-specific DNA in faecal samples has recently been evaluated. The PCR-based assay, which included an internal control to detect any inhibition of the amplification by faecal constituents in the sample, was performed on stool samples and on DNA controls representing a wide range of intestinal microorganisms. The assay appeared very specific, only showing positivity with C. sinensis and Opisthorchis felineus. The sensitivity of the assay was explored by testing 170 preselected samples of human faeces, from an endemic area of South Korea, which had known (microscopically-determined) densities of C. sinensis eggs. The sensitivity of the assay was 100% for the 74 samples that each had > 100 eggs/g and 91.4% for the other 70 samples found egg-positive by microcopy (i.e. those that had ≤ 100 eggs/g). Three of the 26 samples that appeared egg-negative by microscopy were found PCR-positive. Encouragingly, the PCR cycle-threshold values, which reflect parasite-specific DNA loads, showed significant correlation with the egg counts. The real-time PCR used in this study therefore appears to be a powerful tool for both the detection and quantification of C. sinensis infections.