Showing 11 results for Masoum
Nima Rostampour, Tinoosh Almasi, Masoumeh Rostampour, Khatereh Arabian, Ahmadreza Karami,
Volume 5, Issue 2 (13 2012)
Abstract
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Background and Objectives: Biological effects of non-ionizing radiation on the body
of living organisms have been studied by researchers in recent years. High
Voltage medical equipments are one of the sources generating electromagnetic
fields. The electromagnetic field intensity of the medical equipment installed
at Hamadan
hospitals and the potential hazards were investigated. The main purpose of this
study was to determine the intensity of the electromagnetic field around high
voltage power supplies in radiology ward of the Hamadan hospitals.
Materials and Methods: This was a cross-sectional study and we investigated the electromagnetic fields
intensity around high voltage power supplies at Hamadan hospital wards. All measurements were
performed using a calibrated Tesla-meter (HI-3603). The measurements were
conducted at a range of distances varying from 25 cm to 3 m around the
supporting high voltage power supply.
Results: We found that
the maximum intensity of the magnetic and electric fields at a distance of less
than 1 m around the high voltage power supply was 29.625±5.738 mGauss and
25.17±0.92 V/m respectively, which is less than the safe amounts recommended by
the ICNIRP for occupational exposure (5000 mG and 10000 V/m) and even for
public exposure (1000 mG and and 5000 V/m). The minimum intensity of EM fields
for a less than 3 m distance was found to be 0.1±0.005 mGauss, which relates to
a CT-scanner system installed at Farshchian hospital. Among the whole
equipments evaluated in the current survey, the most intense magnetic and
electric field was found to be for imaging technician office, which was
3.050±0.004 mGauss and 128.88±0.05 V/m respectively it is lower than the
tolerances recommended by the ICNIRP.
Conclusion: According
to our results, it seems that the EM field occupational exposure for radiation
workers working at Hamadan
hospitals does not exceed the tolerances recommended by the ICNIRP. Therefore,
we did not find any issue related to the over-irradiation of non-ionizing among
the radiologists studied. It is recommended that different brands of generators
to be used in order to conduct a detailed and comprehensive study to compare
the intensity of the electrical and magnetic fields.
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Leila Karimi Takanlu, Mahdi Farzadkia, Amir Hossein Mahvi, Ali Esrafily, Masoumeh Golshan,
Volume 7, Issue 2 (10-2014)
Abstract
Background and Objectives: Cadmium can enter water resources through the industrial wastewater. It could cause intensivly damages to the liver and kidney of humans. Magnetic iron nanoparticles are used to control and eliminate heavy metals from industrial effluents through the mechanisms of adsorption, ion exchange and electrostatic forces. The aim of this study was to evaluate the efficiency of magnetic nanoparticles for adsorption of cadmium. Methods: The magnetite nanoparticles were prepared by co-precipitation method through the addition of bivalent and trivalent iron chloride under alkaline conditions. Characteristics of nanoparticles including particles structure, composition and size were determined using analytical devices such as XRD, SEM, and FT-IR. For optimization of adsorption process of cadmium, some parameters such as pH, contact time, initial concentration of cadmium, nanoparticles concentration, and temperature were studied under different conditions. Results: It was found that 95% of cadmium could be removedAt pH &ge 5.6, 10 mg/L initial cadmium concentration, a dose of 1 mg synthesized magnetite nanoparticles, 10 minutes contact time, and 200 rpm mixing rate at 25 °C. The isotherm of adsorption follows the Langmuir model (R2 < 0.995). Maximum capacity of cadmium adsorption was found to be 20.41 mg/g. Conclusion: Magnetite nanoparticles exhibit high capability for removal of cadmium. The nanoparticles synthesized could be used at industrial scale because of having the magnetic property, which make them easily recovered from aqueous solution through applying a magnetic field.
Masoumeh Golshan, Simin Nasseri, Mahdi Farzadkia, Ali Esrafili, Roshanak Rezaei Kalantary, Leila Karimi Takanlu,
Volume 7, Issue 2 (10-2014)
Abstract
Background and Objectives: The use of surfactants enhance the bioavailability of nonbiodegradable contaminants such as PAHs. Biosurfactants are more environmental friendly. In this study the ability of removing phenenthrene from soil by biosurfactant was assessed and compared with that of chemical surfactant. Materials and Methods: A soil sample free of any organic or microbial contamination was artificially spiked with phenanthrene at two concentrations. Then, mineral salt medium at constant concentration of chemical surfactant TritonX-100 and rhamnolipid MR01biosurfactant was added to it in order to have the proportion of 10% w:v (soil:water). A microbial consortium with a potential of phenanthrene biodegradation was inoculated to the soil slurry in two densities (OD=1 and 2) and then it was aerated on a shaker. After eight weeks, the residual concentration of phenanthrene in the soil was extracted by ultrasonic and was analyzed using HPLC. MPN test was used for measuring microbial population. This study was conducted based on the two level full factorial design of experiment. Results: It was found that chemical surfactant exhibited higher PHE removal efficiency than the biosurfactant. Using 120 mg/L of TritonX-100 and rhamnolipid, the PHE removal for the soil contaminated with 50 mg PHE/kg dry soil was 98.5 and 88.7% respectively, while the removal efficieny was decreased to 87 and 76% respectively for the soil contaminated with 300 mg PHE/kg. In the absence of surfactant, the removal efficiency at concentrations of 50 and 300 mg PHE/kg dry soil was achieved 60.76 and 51% respectively. The phenanthrene removal efficiency in OD=2 was more higher than OD=1. In the presence of rhamnolipid, the maximum microbial populations was observed in the second week, while it decreased in the presence of TritonX-100. Conclusion: Use of biosurfactants can be considered as a suitable option in low level pollutant sites. Chemical surfactants as ex-situ has achieved more satisfactory results in high level contaminant sites.
N Ravankhah, R Mirzaei, S Masoum,
Volume 8, Issue 3 (12-2015)
Abstract
Background and purpose: Soil contamination resulted from either natural or anthropogenic factors reduces environmental quality. The aim of this study was to evaluate the geoaccumulation, contamination factor, and principal component analysis indices to estimate topsoil contamination in Aran-Bidgol town.
Materials and methods: 135 topsoil samples were collected from Aran-Bidgol town and the metal concentrations of Cd, Pb, Ni, Cu, and Zn in each sample were determined. The index of geoaccumulation (Igeo), contamination factor (CF), and principal component analysis (PCA) techniques were applied to determine the status and trends of soil contamination in this region. The inverse distance weighting (IDW) was then used to map these soil contamination indices.
Results: The research found that the means concentrations of Cd, Pb, Ni, Zn, and Cu were 0.72, 11.41, 29.87, 48.59, and 14.82 mg/kg respectively all exceeded the background values. Mean Igeo and CF of elements followed the order: Cu> Cd> Ni> Zn≈ Pb. The Igeo and CF maps showed higher values of Cd, Pb, and Zn in areas near industrial estates, brick kilns, and urban areas whereas higher levels of Cu and Ni occurred in urban and agricultural areas. According to the PCA index, two principal components were identified that Cu, Ni and Zn were highly loaded in PC1 and Cd and Pb occurred in PC2.
Conclusion: Results indicated that the concentration of Pb and Cd are mostly affected by human activities, whereas Ni, Zn, and Cu contents are controlled by both anthropogenic and natural sources.
Azadeh Tavakoli, Arezoo Tavakoli, Masoumeh Mohammadi,
Volume 14, Issue 3 (12-2021)
Abstract
Background and Objective: Indoor air pollution in hospitals could be a serious health threat to the patients, medical staff, and visitors. In previous studies, the importance of paying attention to air quality during the Coronavirus pandemic has been proven. In this study, the effect of visiters' presence under normal conditions and the imposition of hospital restrictions at the time of pandemic on air quality and environmental parameters in a hospital has been evaluated.
Materials and Methods: Air sampling was carried out in Valiasr Hospital of Zanjan in two periods, September 2019 (morning and visiting hours) and during the pandemic in October 2020. All wards inside and the outside of the hospital were examined for air pollutants (PM2.5, PM10, NO2, SO2, CO2) and environmental parameters (temperature, humidity, and sound levels).
Results: The results of this study showed that except for the sound levels, other pollutants are at an acceptable level. Particulate matter of different sizes in the air of the hospital has a correlation, often with an external source, and has been imported through construction activitie;. However, nitrogen dioxide concentration is dependent on urban traffic. Visiting hours are associated with an increase in the concentration of particulate matter and the sound levels. The pandemic had a positive effect in some wards, on some parameters and often improved the air quality due to the imposing strict health protocols.
Conclusion: This study showed that natural ventilation has a direct effect on the air quality inside of the hospital. It is also suggested that in wards where patients are sensitive or in the need of intensive care, restrictions on commuting and visitation be applied.
Hasan Rahmani, Masoumeh Kazemi Mashkani, Faezeh Asgari Tarazoj,
Volume 14, Issue 3 (12-2021)
Abstract
Background and Objective: Hospitals are the center of infection transmission due to their special conditions. In order to reduce microorganisms from the equipment and in the hospital environment, disinfection and sterilization methods are required. The aim of this study was to investigate the types of disinfectants used in Kashan hospitals.
Materials and Methods: In this descriptive cross-sectional study, Kashan hospitals were selected in 2019 by simple random sampling and the relevant checklist was completed. The required information was collected and analyzed by interviewing an environmental health expert and observing different parts of the hospital and visiting the disinfectant warehouse.
Results: Due to the type of services provided and the possible resistance of the existing microorganisms, the studied hospitals use certain types of disinfectants. Bleach and sayasept- HP were the most widely used disinfectants.
Conclusion: The results showed that since the disinfection is performed by service personnel and help of health workers, informing them about the incidence and prevalence of nosocomial infections, loss of life and financial damage caused by these diseases is very important. In addition, the effective roles of these individuals in the optimal elimination of environmental pathogens and consequently the reduction of nosocomial infections are crucial.
Anasheh Mardiroosi, Hanieh Fakhri, Ali Esrafili, Masoumeh Hasham Firooz, Mahdi Farzadkia,
Volume 15, Issue 4 (3-2023)
Abstract
Background and Objective: Pharmaceutical compounds can cause potential risks to aquatic and terrestrial organisms. So far, different methods have been used to eliminate these pollutants, photocatalytic processes are one of the most efficient processes to eliminate pharmaceutical compounds. In this study, the efficiency of a novel MOF-based nanocomposite, PMo/UiO-66 as a photocatalyst for amoxicillin degradation under visible light irradiation was evaluated.
Materials and Methods: The study of the chemical decomposition of amoxicillin using the PMo/UiO-66 system was conducted at different stages. First, the PMo/UiO-66 MOF nanocomposite was synthesized using the solvothermal method, then the properties of the synthesized nanocomposite were investigated using XRD, FTIR, and SEM techniques. The effect of different operational parameters such as pH (3, 6, and 9), catalyst concentration (15, 20, 25, and 30 %w/w), initial concentrations of amoxicillin (20, 30, 40, and 50 mg/L) at different times on the removal efficiency was investigated. The reusability of the catalyst for four cycles was assessed.
Results: The results showed that PMo/UiO-66 nanocomposite at pH 6, 25 %w/w nanocomposite concentration, and the amoxicillin concentration of 20 mg/L led to complete decomposition of amoxicillin after 120 min. The kinetic of amoxicillin removal followed the first-order model. Reusability tests showed that the photocatalytic efficiency of the synthesized catalyst was not substantially reduced after four cycles.
Conclusion: The current study confirmed that the PMo/UiO-66 system has an appropriate efficiency for photocatalytic removal of amoxicillin under optimized test conditions.
Masoumeh Selahvarzi, Soheil Sobhanardakani, Amir Hooman Hemmasi, Lobat Taghavi, Jamal Ghoddousi,
Volume 15, Issue 4 (3-2023)
Abstract
Background and Objective: Soil contamination with heavy metals is the most important challenge and common environmental, economic, and public health issue in the world. Therefore, this research was conducted to evaluate the contamination and source identification of Fe, Zn, Cd, and Cr in the surface soils of Khorramabad county, west of Iran in 2020.
Materials and Methods: In this descriptive study, after dividing the study area into 11 homogeneous units, a total of 65 surface soil samples were collected. After preparing the samples, the content of the elements was determined using inductively coupled plasma-optical emission spectroscopy (ICP-OES). Also, enrichment factor (EF), pollution factor (CF), and Nemrow integrated pollution index (NIPI) were calculated. Statistical analyses of the data were performed using SPSS statistical software.
Results: The results showed that the average content of Fe, Zn, Cd, and Cr (mg/kg) in soil samples were 3.14, 1.13, 0.021, and 0.529, respectively. The EF values showed that the enrichment of Zn, Cd, and Cr was "extremely severe" and the average values of EF for the elements followed the descending order of Cd > Cr > Zn. The average values of CF and NIPI varied from 3.30×10-5 to 0.182 and 0.043-0.136, respectively, indicating the level of "low pollution" and quality conditions of "no pollution" in all the studied stations. Based on the results of multivariate statistical analysis (PCC, PCA and HCA), Fe has a geological origin; while, Zn, Cd, and Cr mainly originated from a combination of geological processes and anthropogenic activities.
Conclusion: Although the average values of CF and NIPI showed that the study area has an acceptable soil quality, the values of EF indicated the impact of anthropogenic activities on soil contamination. Therefore, regular and periodic monitoring of soil samples as well as management and control of pollutant emission sources is recommended for maintaining environmental and human health.
Hossein Masoumbeigi, Davood Motalebi Peykani, Ghader Ghanizadeh, Hamed Akbari Jour, Maryam Esmaeili,
Volume 16, Issue 4 (3-2024)
Abstract
Background and Objective: The health and safety of the employees of any industry is one of the most important issues to prevent the occurrence of accidents. This study aimed to identify and assess related risks in a battery-manufacturing industry using FMEA method and estimate the ratio of the cost of accidents to prevention.
Materials and Methods: In this descriptive and analytical study, the production activities of the industry were first identified. Then the work process, employee duties, and Potential risks were determined by the HAZID method. Evaluation and prioritization of risks were done using FMEA method. Risks whose RPN was higher than 145 were determined as important risks and the ratio of incident cost to accident prevention was calculated.
Results: In 62 active units of this industry, 716 risks were identified and prioritized, 16 of which (2.23%) had RPN above 145 with the highest priority. The financial pulp unit with falling and fire hazards and the assembly unit with the risk of fumes and lead dust leakage with RPN 245 were among the most dangerous units and hazards identified in the industry. In all units except one unit, the ratio of the cost of accidents to prevention varied from 1.2 to 25.
Conclusion: The results showed that it is necessary to consider the correction of the important risks by the industry officials, according to the set priorities so that potential accidents caused by these risks are minimized. This prioritization can play an effective role in optimal risk management and reduce related costs.
Safieh Hassanzad, Hossein Pirkharrati, Masoumeh Ahangari, Farrokh Asadzadeh,
Volume 17, Issue 1 (6-2024)
Abstract
Background and Objective: One of the significant challenges in mining areas is the pollution of the environment by heavy metals. Therefore, it is crucial to assess the pollution risk associated with mining wastes and take action to mitigate their environmental impact. The current study assessed the risk potential of recently deposited tailings in the Songun copper mining area.
Materials and Methods: Based on the conditions of tailings, 26 samples were randomly selected from the recently deposited mine wastes. Twenty-two thin and thin polished sections were prepared for lithology and mineralogy studies. Inductively-Coupled Plasma Mass Spectrometry (ICP-MS) was employed to analyze all 26 samples, while X-ray diffraction method (XRD) was used to analyze a subset of 10 samples.
Results: Sulfide minerals, as the main source of environmental pollution, remain intact and unaffected in the tailings. However, the majority of potentially toxic elements (PTEs) exhibit higher concentrations in the waste composition than the standard levels, resulting in a total ecological risk index of 49.93. Geochemical indicators highlight significant pollution levels for elements such as lead (Pb), arsenic (As), and copper (Cu). The values of the non-carcinogenic risk index for children (except As and Fe) and adults are lower than 1, indicating a non-significant non-carcinogenic health risk. However, the carcinogenicity index also indicates a significant carcinogenic risk in the case of long exposure to wastes, particularly for children.
Conclusion: Therefore, wastes pose a significant environmental risk potential, and due to this risk, proper management of their storage is necessary to prevent the release of PTEs into the environment.
Ali Hamidi, Maryam Ravanipour, Masoumeh Ravanipour,
Volume 17, Issue 2 (9-2024)
Abstract
Background and Objective: Scientometrics is used to identify existing study gaps, discover the future research directions, investigate fundamental trends and implement the necessary policies in a specific field of knowledge. Considering the key role of environmental factors in the health trends and the varyingburden of diseases in the country, this study was conducted with the aim of performing scientometric analysis of the role of environmental health in the prevention and control of diseases related to environmental factors in Iran.
Materials and Methods: Bibliographic information related to scientific documents indexed in the Web of Science database until September 12, 2022, was analyzed and visualized using Citespace and Biblioshiny software.
Results: A total of 1,212 documents were retrieved. These documents were published in 629 sources with the participation of 8,461 authors. The average publication year of the documents was 2010. The top three ranks of organizational affiliations were as follows: Tehran University of Medical Sciences (747 documents), Isfahan University of Medical Sciences (436 documents), and Shahid Beheshti University of Medical Sciences (393 documents). Iran's cooperation network with other countries indicates substantial joint researchbetween Iran and the main countries in this network. Over time, the co-occurrence network of keywords has evolved from outcomes (such as cardiovascular diseases, cancers, etc.) to environmental exposure factors, especially air pollutants, heavy metals, and food-borne pathogens factors. Risk assessment has also been a category of interest in recent years.
Conclusion: Scientometric analysis showed that environmental health studies in prevention and control of diseases related to environmental factors in Iran are young and still progressing. In the early years, studies were mainly focused on diseases as an outcome, while in recent years, they have focused more on exposure factors or environmental pathogens. It is suggested that the future studies based on the retrieved keywords should be more mission-oriented and the priority of solving the problems of environmental pollutants affecting people's health in the country based on the extent and scope of the problems of each province should be considered by policy makers and researchers.
