In sera from patients with fascioliasis the enzyme-linked immunosorbent assay (ELISA) was used to detect antibody using excretory-secretory products (ES) from Fasciola hepatica adult worms. The specificity of ES-ELISA (with OD values greater than 0.38) allowed the differentiation among fascioliasis, schistosomiasis, clonorchiasis, and other human parasite infections.
A sandwich enzyme-linked immunosorbent assay has been developed for the detection of Fasciola hepatica excretory secretory (ES) antigens in stool specimens of infected humans. The assay uses antibodies against F. hepatica ES antigens. A monoclonal antibody (ES78, mouse immunoglobulin G2a) was used to capture ES antigens, and a rabbit polyclonal antibody, peroxidase conjugate, was used to identify ES antigens. Thirteen of 14 patients with parasitological evidence of fascioliasis had a detectable concentration of ES antigens (more than 15 ng/ml). None of the stool specimens from controls and from patients with parasites other than F. hepatica showed a positive reaction, suggesting the absence of cross-reactions in this assay. When the 14
In the present study the dynamics of antigenemia and coproantigens were studied in patients withFasciola hepatica infection during an outbreak occurring in La Palma, Pinar del Rı́o, in the West Province of Cuba. Stool and serum samples were collected from 67 patients and 40 healthy subjects. Stool samples were studied by a simple gravity sedimentation technique and an ES78 sandwich enzyme-linked immunosorbent assay (ELISA) for observation of eggs and detection of parasite coproantigens, respectively. Serum samples were also studied by the ES78 sandwich ELISA and an indirect ELISA to detect circulating antigens and antibodies, respectively. At the beginning of the study, 8 of 67 patients had patent infections and 59 had prepatent infections, which was determined by the recent consumption of lettuce contaminated with metacercariae of F. hepatica, the presence of clinical symptoms, and the absence of Fasciolaeggs in their stools. Patients with prepatent infections were monitored by all techniques until patency. Circulating antigens were not detected in patients with patent infections. However, coproantigens were clearly detected in all patients with patent infections. On the other hand, 28.8% of patients with prepatent infections tested positive for circulating antigens and 81.4% tested positive for coproantigens in the first stool sample studied. Only two other coproantigen determinations were necessary to diagnose 93.2% of the patients. While circulating antigen levels diminished in all patients during the infection, coproantigen levels increased. The present study demonstrates that the ES78 sandwich ELISA is a better tool than parasitological examination for diagnosis of active early infection, since by the combination of the circulating-antigen detection assay and the coproantigen detection assay 91% of patients were able to be diagnosed at the beginning of the study. In contrast, a coprologic analysis repeated over several weeks was necessary to diagnose 100% of the patients.
The monoclonal antibody ES78 was used in a sandwich immunosorbent assay (Sandwich ELISA) for the detection of antigens in sera and faeces in the course of Fasciola hepatica infection in 10 experimentally infected sheep. All infected sheep had circulating antigens in the first week post-infection (WPI). Antigenemia was detectable until WPI 3 in four infected sheep, WPI 4 in five infected sheep and in only one sheep by WPI 5. The detection of coproantigens (Fa(g)) was possible in five infected sheep at WPI-4, in four sheep at WPI-5 and in one sheep only at WPI-6. This technique was compared to an indirect ELISA for the detection of antibodies using excretory secretory antigens of F. hepatica. A significant correlation was found between Fa(g) and egg output and also with adult worm numbers. Our method demonstrated that the diagnosis of active fasciolosis in sheep is possible during all periods of infection.
We developed a sandwich enzyme-linked immunosorbent assay to detect circulating parasite antigen in humans with fascioliasis. The assay uses antibodies against Fasciola hepatica excretory secretory (ES) antigens. A monoclonal antibody was used to capture circulating ES antigens, and a human polyclonal antibody peroxidase conjugate was used to identify circulating ES antigens. Optimal dilutions of all reagents were determined by block titration. The antigen concentration in sera from patients was estimated by comparing the optical density at 492 nm of test sera with a standard curve. All of the serum samples from 25 patients with parasitological evidence of fascioliasis had a detectable antigen concentration (more than 10 ng/ml). None of the serum samples from 80 patients infected with parasites other than F. hepatica showed a positive reaction, suggesting the absence of cross-reactions in this assay.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.