Abstract
BackgroundThe existing diagnostic techniques for detecting schistosomiasis turkestanica, such as aetiological assays, identify infection by parasitic worms via the incubation of miracidia from faeces or observing eggs under microscopy. However, they are limited in the diagnosis of low-grade and prepatent infections, which lead to a high misdetection rates. Therefore, a new method for parasite diagnosis with increased sensitivity is urgently needed.MethodsGoats in Nimu County (Tibet, China) infected with Schistosoma turkestanicum in an epidemic area were selected according positivity for the infection by faecal examination. Adult worms were collected, eggs were extracted by the sodium hydroxide (NaOH) erosion method, and soluble worm antigen preparation (SWAP) and soluble egg antigen (SEA) were isolated. The best coating concentration of the antigens and the best degree of dilution for serum were determined by square array experiments, and the optimal blocking solution and serum diluents were selected. The specificity, sensitivity and crossover of the ELISA method were determined using 48 samples of goat sera positive for S. turkestanicum, 100 samples of goat sera negative for S. turkestanicum, and 54 samples of buffalo sera positive for S. japonicum. Serological assays were established with samples from goats naturally grazed in a rural area of Nimu County, Tibet Province, by using the indirect ELISA method for the diagnosis of schistosomiasis, and faeces were collected for miracidia hatching. The sensitivity of the two detection methods was compared.ResultsEggs of S. turkestanicum were distributed in the host duodenum and small intestine. Eggs in the host intestinal wall were extracted by the NaOH erosion method, which provided intact eggs with reduced impurities. The testing results obtained by isolating SEA were more stable than those obtained by using SWAP and less affected by the coating concentration and serum dilution. Additionally, the value of positive serum/negative (P/N) serum for SEA was much higher than that for SWAP. The optimal coating concentration of SEA was 0.5 μg/ml, and the optimal serum dilution was 1:100. The specificity and sensitivity of the indirect ELISA based on SEA (S. turkestanicum) were both 100%, and no cross-reactivity was found with schistosomiasis japonica. An epidemiological survey of goats in naturally infected areas showed that the prevalence rate of schistosomiasis turkestanica was 93%, and the infection rate increased with the ages of the goats.ConclusionWe aimed to develop a sensitive method to utilize in the mass field screening of livestock. As a diagnostic antigen, SEA (S. turkestanicum) was more suitable for serological testing than SWAP (S. turkestanicum). The indirect ELISA using SEA (S. turkestanicum) exhibited good sensitivity, specificity and no cross-reactivity with schistosomiasis japonica. The degree of infectivity and prevalence of S. turkestanicum infection in endemic areas are serious and should be a focus of concern among local departments.
Highlights
Schistosomiasis is distributed widely around the world, including in India, Mongolia, Iraq, Kazakhstan and European region, such as Russia and France[1]
Eggs were extracted by the sodium hydroxide (NaOH) erosion method, and soluble worm antigen preparation (SWAP) and soluble egg antigen (SEA) were isolated
Serological assays were established with samples from goats naturally grazed in a rural area of Nimu County, Tibet Province, by using the indirect Enzyme-linked immunosorbent assay (ELISA) method for the diagnosis of schistosomiasis, and faeces were collected for miracidia hatching
Summary
Schistosomiasis is distributed widely around the world, including in India, Mongolia, Iraq, Kazakhstan and European region, such as Russia and France[1]. List of species previously assigned to Orientobilharzia (and their synonyms) and transferred to Schistosoma, for instance, Schistosoma bomfordi (Montgomery, 1906),Schistosoma dattai (Dutt & Srivastava, 1952), Schistosoma harinasutai (Kruatrachue, Bhaibulaya & Harinasuta, 1965) and Schistosoma turkestanicum (Skrjabin, 1913)[2].Schistosomiasis turkestanica is caused by Schistosoma turkestanicum, which belongs to platyhelminthes: Trematoda: Digenea: Schistosomatidae[3]. The existing diagnostic techniques for detecting schistosomiasis turkestanica, such as aetiological assays, identify infection by parasitic worms via the incubation of miracidia from faeces or observing eggs under microscopy. They are limited in the diagnosis of low-grade and prepatent infections, which lead to a high misdetection rates. A new method for parasite diagnosis with increased sensitivity is urgently needed
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