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Amoxicillin Oxidative Degradation Synthesized by Nano Zero Valent Iron
Ar Yazdanbakhsh, M Rafiee, H Daraei, H Kamali,
Volume 23, Issue 12 (3-2016)
Abstract

Introduction: Amoxicillin is one of the most important groups of pharmaceuticals that benefits humans and animals. However, antibiotics excertion in wastewaters and environment have emerged as a serious risk to the biotic environment, and their toxic effects can harm the organisms. Iron-based metallic nanoparticles have received special attention in regard with remediation of groundwater contaminants. In the typical nZVI-based bimetallic particle system, Fe acts as the reducing agent. Thus, the present study aimed to evaluate the synthesis and characteristics of nZVI in regard with degrading AMX.

Methods: In this study, nZVI nanoparticles were synthesized using the liquid-phase reduction method by EDTA as a stabilizer material. Structure and properties of nanoparticles were characterized by BET, SEM, XRD and EDX analysis. A multi-variate analysis was applied using a response surface methodology (RSM) in order to develop a quadratic model as a functional relationship between AMX removal efficiency and independent variables ( initial pH values, dosage of nZVI, contact time and amoxicillin concentration). The four independent variables of solution pH (2–10), AMX concentration (5-45mg/l), contact time (5-85 min) and nanoparticles dose (0.25 – 1.25 g) were transformed to the coded values.

Results: The study results demonstrated that more than 69 % of AMX was removed by nZVI. The optimal AMX removal conditions using nZVI were found as 1.25 g of nZVI, pH 4, contact time of 80 min and concentration of 30 mg/l.

Conclusions: The ability of nZVI in degradation of AMX revealed that these materials can serve as a potential nano material with respect to the environmental remediation.


Relation between Concentration of Pollutants and Some Climatic Parameters on Cardiovascular and Respiratory Disease Mortality in Shiraz
Kamal Omidvar, Sepideh Shahaeian, Mahbobeh Amiri Esfandegheh,
Volume 28, Issue 3 (6-2020)
Abstract
Introduction: Industrialization and the growing of urbanization have increased the amount of contamination and have a devastating impact on the population health; the aim of this study was the relationship between pollutants and some climatic parameters on mortality of heart and respiratory diseases in Shiraz
Methods: The study was an analytical one. Firstly, daily data on climate elements (temperature, humidity, pressure, wind) from Shiraz Meteorological Office (2004-2014), daily information on air pollutants (CO, PM, NO2, SO2, O3) from Shiraz General Environment Department and cardiovascular and respiratory mortality rates from Shiraz University of Medical Sciences was collected, respectively. Data were analyzed using software SPSS ver. 22; statistical methods and correlation coefficients of monthly, seasonal and monthly averages and mortality rates were investigated.
Results: Results of this study indicated that there was a significant correlation between the parameters of the climate (humidity, pressure, temperature and wind) and deaths from cardio - vascular and respiratory diseases at the level of 0.99 and 0.95 (**=P<0/01, *=P<0/05). There was a statistical difference between the mortality rates in different seasons in Shiraz and the mortality rates caused by the cardio vascular and respiratory diseases were relatively more sensitive to climate parameters.
Conclusion: In general, during the statistical period, no polluted day was observed in polluted O3, NO2 in Shiraz City, relationships between other pollutants and mortality rates were significant. This correlation is shown by a 1-5 day delay for pollutants of CO, PM10and 6-10 days for pollutants of SO2.

Predictors of Health-Related Quality of Life in Women with Lupus
Seyedeh Somayeh Hoseini, Seyedeh Solmaz Talebi, Zahra Motaghi, Vahid Rahmanian,
Volume 30, Issue 1 (4-2022)
Abstract
Introduction: Systemic lupus erythematosus is an autoimmune progressive connective tissue disease characterized by multiple organ involvement and a highly variable clinical course. The aim of this study was to predict the health-related quality of life of women with lupus based on perceived stress, fear of perceptual body image and psychological resilience.
Methods: This descriptive-analytical study was performed on 189 women with lupus in Hafez Hospital in Shiraz in 2019. Data were collected through the quality of life questionnaire (LupusQol), perceived stress questionnaire (PSS-14), body image fear inventory (BICI), and Conners and Davidson Technology Questionnaire, and they were analyzed using SPSS version 16 software with descriptive statistics and linear regression.
Results: The mean age and duration of the disease were 40.37±9.47 and 9.45±6.01 years, respectively. Based on the level of education, 43.79% of the patients were undergraduates, 86.8% were housewives and 57.7% were in the active phase of the disease. The mean score of resilience was 67.56±16.07, quality of life 57.30±22.68, stress 25.31±7.78 and fear of body image was 37.07±13.96. Stress, fear of body image, resilience, disease phase, education and occupation accounted for 52% of the total quality of life variability.
Conclusion: The quality of life of the women with lupus is affected by the variables such as stress, fear of body image and resilience. Thus, the higher the stress and fear of body image in women with lupus and the lower the rate of resilience, the lower the quality of life.

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