Avaliação eletromanométrica do esfíncter superior do esôfago em portadores da forma indeterminada da doença de Chagas Manometric evaluation of upper esophageal sphincter in patients with indeterminate form of Chagas' disease

Objetivou-se avaliar as alterações do esfíncter superior esofágico pela eletromanometria em 37 pacientes portadores da forma clínica indeterminada da doença de Chagas. Foram encontrados 18 (48,6%) pacientes portadores de ondas sincrônicas. A média das pressões máximas do esfíncter foi significativamente maior entre os portadores de ondas sincrônicas. Assim, alguns indivíduos portadores da forma indeterminada da doença de Chagas possuem alterações funcionais caracterizadas pelo aumento da pressão do esfíncter superior do esôfago, que podem ser detectadas à eletromanometria.<br>The objective was to study the disorders of upper esophageal sphincter in 37 patients with indeterminate clinical form of Chagas' disease. Eighty (48.6%) patients with synchronic waves were found. The average maximum pressure value of the upper esophageal sphincter was significantly higher in the synchronic group. Subjects with indeterminate clinical form of Chagas' disease may have functional disorders demonstrated by an increase in the pressure of the upper esophageal sphincter

A Preformulation Study of a New Medicine for Chagas Disease Treatment: Physicochemical Characterization, Thermal Stability, and Compatibility of Benznidazole

This work aimed the studies of physicochemical characterization, thermal stability, and compatibility of benznidazole (BNZ) drug by spectroscopy (NMR, IR), thermoanalytical (differential thermal analysis, differential scanning calorimetry, and thermogravimetry), and chromatographic (HPLC) techniques, beyond the analytical tools of Van’t Hoff equation and Ozawa model. The compatibility study was conducted by binary mixtures (1:1, w/w) of the drug with microcrystalline cellulose 102 and 250, anhydrous lactose, and sodium starch glycolate. The physicochemical characterization confirmed data reported in scientific literature, guaranteeing authenticity of the analyzed raw material. The drug melts at 191.68°C (∆H, 119.71 J g−1), characteristic of a non-polymorphic raw material, and a main stage decomposition at 233.76–319.35°C (∆m, 43.32%) occurred, ending the study with almost all mass volatilized. The quantification of drug purity demonstrated a correlation of 99.63% between the data obtained by chromatographic (99.20%) and thermoanalytical technique (99.56%). The Arrhenius equation and Ozawa model showed a zero-order kinetic behavior for the drug decomposition, and a calculated provisional validity time was 2.37 years at 25°C. The compatibility study evidenced two possible chemical incompatibilities between BNZ and the tested excipients, both associated by the authors to the reaction of the BNZ’s amine and a polymer carbohydrate’s carbonile, being maillard reactions. The BNZ reaction with anhydrous lactose is more pronounced than with the sodium starch glycolate because the lactose has more free hydroxyl groups to undergo reduction by the drug. In this sense, this work guides the development of a new solid pharmaceutical product for Chagas disease treatment, with defined quality control parameters and physicochemical stability