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Study of Air Quality Health Index and its Application in Seven Cities of Iran in 2011
Majid Kermani, Mohsen Dowlati, Sevda Fallah Jokandan, Mina Aghaei, Farshad Bahrami Asl, Sima Karimzadeh,
Volume 19, Issue 12 (3-2017)
Abstract

Abstract

Background: Poor air quality has a lot of damage on the environment and humans. Awareness of the air quality situation reduces health effects of air pollution. This study was performed with the aim of the comparative investigation of Air Quality Health Index (AQHI) and its application in seven major cities of Iran in 2011.

Materials and Methods: This study was a descriptive–analytic one. First, the required data of four criteria pollutants were taken from Department of Environment in seven major cities of Iran. The data were validated by the World Health Organization criteria. The air quality health index was measured based on the instructions and classified into low, medium, high and very high degrees according to the air quality standard tables.

Results: The results demonstrate that according to air quality health index, the level of air pollution in seven major cities of Iran has been undesirable and air quality has exceeded the standard level in Ahvaz 85%, Arak73%, Tehran70%, Esfahan60%, Shiraz 47%, Tabriz 43% and, Mashhad 29% of days.

Conclusion: Due to poor air quality and health consequences resulting from it, importance of Air Quality Health Index is explored in planning to control and reduce air pollution and awareness of peoples from daily status of air quality and its health effects.


Cytotoxicity Co-Effect of Laser with Graphene Oxide on Cancer Cell Line In Vitro
Mohammad Khalili Kelaki, Ruholah Karimzadeh , Neda Soleimani, Seyed Masoud Hosseini, Maghsud Arshadi,
Volume 22, Issue 3 (8-2019)
Abstract
Background and Aim: Background and Aim: Photodynamic therapy is a minimally invasive approach to cancer, which is used to combine non-toxic photosensitizer and visible light to produce reactive oxygen species and destroy tumors. This study aimed to investigate the cytotoxicity effect of Graphene Oxide (GO)as an organic matter with many oxygen groups on photodynamic on destroying cancer cells.
Materials and Methods: This study was performed on breast cancer cells (MCF-7) in vitro. The study groups included the first group of drug with different concentrations of graphene oxide (333.3, 285.7, 230.7, 166.6, 90.9,
47.6 µg/ml), the second group co-drug and laser light irradiation and the control group consisted of cells treated only with laser irradiation and the control group was treated with no treatment. Cells were exposed to visible laser irradiation (405 nm) at 0.1 W / cm2. Cell viability was determined by MTT assay.
Ethical Considerations: This study with research ethics code SBU/S.1397.46A has been approved by research ethics committee at Shahid Behesht University of Tehran, Iran.
Findings: The results of in vitro experiments showed that the dark toxicity of graphene oxide at concentrations of less than the 90.9 μg / ml concentration had no significant effect on cancer cells. Also, laser light alone don’t has toxic effect on cells. But graphene oxide-mediated dynamic light therapy has reduced the bioavailability of cancer cells on average by 21% over dark toxicity. Results are presented as mean of three independent replications, standard error, and p< 0.05 was considered significant.
Conclusion: In this study, graphene oxide is fully biodegradable at concentrations below a certain value, but with increasing concentration, the toxicity effect increases. With exposure to light and graphene oxide, viability decreses that it is more effective for in vivio studies.

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