Diagnosis of Congenital Chagas Disease Using an Iron Superoxide Dismutase Excreted as Antigen, in Mothers and Their Children During the First Year of Life.

BACKGROUND: Chagas disease caused by Trypanosoma cruzi is endemic in Latin America. Human infection is mainly spread by Triatominae insects. Other forms of transmission are congenital, blood transfusion and organ transplantation. METHODS: Anti-T. cruzi antibodies were determined by enzyme-linked immunosorbent assay (ELISA) and Western blot (WB) in 155 serum samples from mothers and their babies. Indirect immunofluorescence (IFA) and a commercial test were used to validate efficacy of a specific ELISA-iron-excreted superoxide dismutase assay. Sera from babies were collected at 6 and 12 months, whereas maternal samples were obtained after delivery. Calostrum and umbilical cord samples were simultaneously obtained. RESULTS: Anti-T. cruzi antibodies were detected in 8 (5.16%) mothers by ELISA-WB, in 7 (4.51%) using IFA and in 1 (0.64%) by a commercial kit. Nine (5.80%) 6-month-old children were positive by ELISA-WB and 7 (4.51%) by IFA; negative results were obtained when the commercial kit was used. At 12 month of age, 15 (9.67%) children were positive by ELISA-WB, 13 (8.38%) by IFA and 1 (0.64%) by the commercial test. Antibodies were detected in 4 mothers whose children were serologically negative. Four other mothers and their children were positive, but only one of them had detected antibodies in umbilical cord up to 12 months, thus assuming vertical transmission. CONCLUSIONS: The use of iron-excreted superoxide dismutase as antigen in serologic tests for detection of T. cruzi yielded promising results as diagnostic procedure.

Presence of trypanosomatid antibodies in gray foxes (Urocyon cinereoargenteus) and domestic and feral dogs (Canis lupus familiaris) in Queretaro, Mexico.

Trypanosoma cruzi and Leishmania spp. are vector-borne parasitic protozoa, the causative agents of Chagas and Leishmaniasis diseases, respectively. Trypanosoma cruzi and Leishmania spp. have been reported in a wide variety of mammals, including canids, which play an important role in the transmission of these parasites between urban and natural environments. Currently, no studies have been conducted on trypanosomatids in wild canids in Mexico. Using a partially purified fraction of excreted Iron Superoxide dismutase (FeSODe) of T. cruzi, L. mexicana, and L. infantum as antigen for the ELISA and Western blot tests, we detected the presence of antibodies against these parasites in gray foxes (Urocyon cinereoargenteus Schreber, 1775), domestic and feral dogs (Canis lupus familiaris L.) from Queretaro. Our study provides new information regarding the potential of these carnivores as reservoirs of T. cruzi, Leishmania mexicana, and L. infantum for Latin America.

Anti-Trypanosoma cruzi antibody detection in eastern Andalusia (Spain).

BACKGROUND: Chagas disease caused by the protozoan haemoflagellate Trypanosoma cruzi is no longer found exclusively in Latin America; the disease is occurring in Europe, and Spain is the country with the highest prevalence. METHODS: Our aim was to detect anti-T. cruzi antibodies in blood donors from southeast Spain, and we performed eight serological diagnostic assays on each of 550 blood samples collected in March-June 2010. Two in-house ELISA methods were used to test against a parasite lysate (ELISA-H) and the semi-purified superoxide dismutase excreted by T. cruzi (ELISA-SODe); we also used the Western blot technique against the same antigen (WB-SODe), indirect immunofluorescence (IFA) and four commercial tests. RESULTS: The serological test results showed a range of seroprevalence values, the lowest being 1.1%, determined by IFA and two commercial tests (Ab rapid and Chagascreen); other values were: 1.3% (commercial ELISA [Chagas ELISA IgG+IgM]); 2.1% (immunochromatographic test [Stick Chagas]); 2.7% (ELISA-H); 4.0% (WB-SODe); and 4.2%, the highest value (ELISA-SODe). CONCLUSIONS: The excellent specificity of SODe antigen for the detection of antibodies to T. cruzi in donors lead us to affirm that the serological test performed with this biomarker could provide a useful screening and confirmatory test method for cases of Chagas disease.

[Sanitary microbiology]. / Microbiología sanitaria.

Sanitary Microbiology is a science based on the detection of risks associated with the production, manufacture and consumption of foods and water. It has been established that environment facts determine the survival, growing and inactivation of the microorganisms. These risks are commonly associated with the presence of microbiological hazards and represent a serious problem from the Public Health viewpoint. The types of microorganisms presents in products will depend of the way they have been elaborated, transportated, stored, taking or prepared before eating. The guarantee of safety foods have impacted both to single and collective level: and also in economics. socials and sanitaries aspects. The sanitary microbiology like a science must be in context to the regional and national needs. with an important vinculation between different sectors of the society such as academy, industry and government, taking care of infrastructure and qualified personal, based on novel technology, actualized normative and making basical and applied research. The application of novel technology for the microbiological analysis of water and foods allows to show the microbial risk and also identify practices that compromise the safety of themself, with the final proposes of diminish or eliminate healthy risk due the food consumption.