The sensitivity of rapid diagnostic tests (RDT) for Chagas disease is not great enough for their single use. The aim of this paper was to evaluate the performance of two RDTs for Chagas disease, used simultaneously. Two different RDTs (A and B) were performed in 64 and 42 serum samples that were negative and positive, respectively, by conventional serological techniques. Validity and reliability of both tests were evaluated individually and simultaneously. Sensitivity was 90.5% and 97.6%, and specificity was 100% and 93.8%, for RDT A and B, respectively. The k statistic was 0.96. When both RDTs were used simultaneously, sensitivity was 97.4%, specificity was 100% and the discordance percentage 6.6%. The combined use of two RDTs with serum samples is an acceptable application in healthcare centres.
Many patients with Chagas disease live in remote communities that lack both equipment
and trained personnel to perform a diagnosis by conventional serology (CS). Thus,
reliable tests suitable for use under difficult conditions are required. In this
study, we evaluated the ability of personnel with and without laboratory skills to
perform immunochromatographic (IC) tests to detect Chagas disease at a primary health
care centre (PHCC). We examined whole blood samples from 241 patients and serum
samples from 238 patients. Then, we calculated the percentage of overall agreement
(POA) between the two groups of operators for the sensitivity (S), specificity (Sp)
and positive (PPV) and negative (NPV) predictive values of IC tests compared to CS
tests. We also evaluated the level of agreement between ELISAs and indirect
haemagglutination (IHA) tests. The readings of the IC test results showed 100%
agreement (POA = 1). The IC test on whole blood showed the following values: S =
87.3%; Sp = 98.8%; PPV = 96.9% and NPV = 95.9%. Additionally, the IC test on serum
displayed the following results: S = 95.7%; Sp = 100%; PPV = 100% and NPV = 98.2%.
Using whole blood, the agreement with ELISA was 96.3% and the agreement with IHA was
94.1%. Using serum, the agreement with ELISA was 97.8% and the agreement with IHA was
96.6%. The IC test performance with serum samples was excellent and demonstrated its
usefulness in a PHCC with minimal equipment. If the IC test S value and NPV with
whole blood are improved, then this test could also be used in areas lacking
laboratories or specialised personnel.
The toxicity of glyphosate-based herbicide (GBH) and arsenite (As(III)) as individual toxicants and in mixture (50:50 v/v, GBH-As(III)) was determined in Rhinella arenarum tadpoles during acute (48 h) and chronic assays (22 days). In both types of assays, the levels of enzymatic activity [Acetylcholinesterase (AChE), Carboxylesterase (CbE), and Glutathione S-transferase (GST)] and the levels of thyroid hormones (triiodothyronine; T3 and thyroxine; T4) were examined. Additionally, the mitotic index (MI) of red blood cells (RBCs) and DNA damage index were calculated for the chronic assay. The results showed that the LC50 values at 48 h were 45.95 mg/L for GBH, 37.32 mg/L for As(III), and 30.31 mg/L for GBH-As(III) (with similar NOEC = 10 mg/L and LOEC = 20 mg/L between the three treatments). In the acute assay, Marking's additive index (S = 2.72) indicated synergistic toxicity for GBH-As(III). In larvae treated with GBH and As(III) at the NOEC-48h (10 mg/L), AChE activity increased by 36.25% and 33.05% respectively, CbE activity increased by 22.25% and 39.05 % respectively, and GST activity increased by 46.75% with the individual treatment with GBH and by 131.65 % with the GBH-As(III) mixture. Larvae exposed to the GBH-As(III) mixture also showed increased levels of T4 (25.67 %). In the chronic assay at NOEC-48h/8 (1.25 mg/L), As(III) and GBH-As(III) inhibited AChE activity (by 39.46 % and 35.65%, respectively), but did not alter CbE activity. In addition, As(III) highly increased (93.7 %) GST activity. GBH-As(III) increased T3 (97.34%) and T4 (540.93%) levels. Finally, GBH-As(III) increased the MI of RBCs and DNA damage. This study demonstrated strong synergistic toxicity of the GBH-As(III) mixture, negatively altering antioxidant systems and thyroid hormone levels, with consequences on RBC proliferation and DNA damage in treated R. arenarum tadpoles.
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