The results of this study revealed that hydroalcoholic extract of P. oleracea seeds aggregates hypertension in dexamethasoneinduced hypertensive rats. Therefore, it is recommended that its using be avoided in hypertensive patients receiving glucocorticoids.
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Introduction:Portulaca oleracea is used as a nutritional and medicinal plant. The aim of this study was to assess the effect of hydroalcoholic extract of P. oleracea seeds in dexamethasone -induced hypertension in rats. Methods: For induction of hypertension, dexamethasone (30 µg/kg/d, subcutaneously) was administered for 14 days. Animals received P. oleracea extract as a pretreatment at various doses of 100, 200 and 400 mg/kg/d orally from 4 days before dexamethasone administration and during the test period. Systolic blood pressure (SBP) and heart rate were measured using tailcuff method. The weight of thymus gland was estimated as a marker of glucocorticoid activity. Results: Dexamethasone injection significantly increased SBP (P < 0.001) while decreased the body and thymus weights (P < 0.05 and P < 0.001, respectively). Oral administration of P. oleracea could not prevent rising in SBP and decreasing in thymus weight. It also increased heart rate in hypertensive rats at the dose of 400 mg/kg/d (P < 0.05).
Conclusion:The results of this study revealed that hydroalcoholic extract of P. oleracea seeds aggregates hypertension in dexamethasone-induced hypertensive rats. Hence, it should be used with caution in hypertensive patients receiving glucocorticoids.
This study synthesized a La2O3@snowflake-like Cu2S composite to fabricate an electrochemical sensor for sensitively simultaneous detection of diclofenac and chlorzoxazone exploiting an easy hydrothermal approach, followed by analysis with XRD, FE-SEM, and EDX methods. According to voltammetric studies, the electrocatalytic diclofenac and chlorzoxazone oxidations on the electrode modified with La2O3@SF-L Cu2S composites were increased, with greater oxidation currents, as well as the oxidation potential was significantly decreased due to synergetic impact of La2O3@SF-L Cu2S composites when compared with the pure SF-L Cu2S NS-modified electrode. The differential pulse voltammetry findings showed wide straight lines (0.01–900.0 μM) for La2O3 NP@SF-L Cu2S NS-modified electrode with a limit of detection (LOD) of 1.7 and 2.3 nM for the detection of diclofenac and chlorzoxazone, respectively. In addition, the limit of quantification was calculated to be 5.7 and 7.6 nM for diclofenac and chlorzoxazone, respectively. The diffusion coefficient was calculated to be 1.16 × 10−5and 8.4 × 10−6 cm2/s for diclofenac and chlorzoxazone oxidation on the modified electrode, respectively. Our proposed electrode was examined for applicability by detecting diclofenac and chlorzoxazone in real specimens.
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