Abstract
Chagas disease is still a major public health issue in many Latin American countries. One of the current major challenges is to find an association between Trypanosoma cruzi discrete typing units (DTUs) and clinical manifestations of the disease. In this study, we used a multilocus conventional PCR and quantitative real time PCR (qPCR) approaches to perform the molecular typing and parasite load quantification directly from blood specimens of 65 chronic Chagas disease patients. All patients were recruited at the same health center, but their place of birth were widely distributed in different geographic regions of Brazil. Of the 65 patients, 35 (53.8%) presented positive amplification by real time qPCR, being 20 (30.7%) with the clinical indeterminate form and 15 (23.1%) with the cardiac form of the disease. The parasite load median for all positive patients was 2.54 [1.43–11.14] parasite equivalents/mL (par. Eq./mL), with the load ranging from 0.12 to 153.66 par. Eq./mL. Noteworthy, the parasite load was significantly higher in patients over 70 years old (median 20.05 [18.29–86.86] par. Eq./mL). Using guanidine-EDTA blood samples spiked with reference T. cruzi strains, belonging to the six DTUs, it was possible to genotype the parasite up to 0.5 par. Eq./mL, with high specificity. Of the patients with positive qPCR, it was possible to identify the T. cruzi DTU in 28 patients (80%). For the remaining patients (20%), at least a partial result was obtained. Analysis of specimens showed prevalences of TcVI, TcII and mixed infection TcVI+TcII equal to 40%, 17.1% and 14.3%, respectively. In addition, two patients were infected by TcV, and one patient was coinfected by TcIII+TcVI, These last three patients were in stage A of chronic chagasic cardiomyopathy (CCC), and they were born at the Bahia State (northeast region of Brazil). When T. cruzi genotypes were compared with the parasite load, more elevated parasite loads were observed in patients infected by TcII in general (parasite load median of 7.56 par. Eq./mL) in comparison to patients infected by TcVI (median of 2.35 par. Eq./mL). However, while the frequency of CCC was 50% in patients infected by TcVI and TcV, only 16.7% of patients infected by TcII evolved to CCC. Taking together, our results contribute to update the epidemiological knowledge of T. cruzi DTUs in Brazil, and highlight the age of patient and infection by TcII as important features that lead to the observation of higher parasitemia levels.
Highlights
Chagas disease (CD) is considered the most important parasitic infection in Latin America, with serious consequences for public health and national economies [1]
Chagas disease is a neglected illness caused by the protozoan parasite Trypanosoma cruzi, which affects millions of people in the endemic countries in Latin America
Despite the knowledge about the parasite genetic diversity, there still some gaps regarding the association between those different genotypes and clinical manifestations, including the level of parasites circulating in the bloodstream
Summary
Chagas disease (CD) is considered the most important parasitic infection in Latin America, with serious consequences for public health and national economies [1]. It is caused by the flagellate protozoan Trypanosoma cruzi and mostly affects poor populations in 21 countries from the endemic areas. T. cruzi is represented by a set of populations showing different levels of pathogenicity, sensitivity to drugs and disease prognosis [7,8,9,10,11], as well as eco-epidemiological complexity [12, 13, 14]. In 2009, the scientific community achieved a consensus to classify T. cruzi isolates into six discrete typing units (DTUs)—T. cruzi I to VI—based on different molecular markers and biological characteristics of the parasite [15]
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