Health and environment
Ahmad Allahabadi; Abolfazl Rahmani Sani; MohammadHossein Saghi; Hamideh Behrozikhah; Shahram Sadeghi; Mohammadreza Behrouzikhah
Volume 26, Issue 1 , March and April 2019, , Pages 63-71
Abstract
AbstractBackground: One of the most important environmental pollutants that there is in sewage of different industrials is cyanide to cause pollution of water sources that are dangerous to humans and the environment. Cyanide can be removed in different ways from the aqueous media, but most of these methods ...
Read More
AbstractBackground: One of the most important environmental pollutants that there is in sewage of different industrials is cyanide to cause pollution of water sources that are dangerous to humans and the environment. Cyanide can be removed in different ways from the aqueous media, but most of these methods are costly. Therefore, the aim of this study is the removal cyanide using iron nanoparticles. Material and Methods: Removal of cyanide from aqueous media using iron nanoparticles in various conditions including the effect of the adsorbent, initial cyanide concentration, contact time and pH were studied in discontinuous phase. In this study, adsorption equilibrium and also the kinetics of the reaction examined.Results: In the process of sharing discontinuous, the balance was achieved after 120 minutes of contact time and maximum amount of removal cyanide in the pH =11 for cyanide concentration of 2.5 mg/L and 1 gr of nanoparticle over 97% obtained. Also the results showed that the adsorption process fitted with Langmuir isotherm and chemical kinetic fitted with of secondary grade.Conclusion: According to the findings, iron nanoparticles can be used as a suitable option for removal cyanide from aqueous solution in hazardous waste. Keywords: iron nanoparticles, cyanide, hazardous waste
genetics
Abolfazl Adli; Solmaz kholdi; Mohammadreza Behroozikhah; Mohammadmehdi Forghanifard
Volume 25, Issue 6 , November and December 2018, , Pages 895-902
Abstract
Introduction: Breast cancer is one of the main cause of death in women in the world. This cancer is heterogeneous and there are three types including LCIS ،(Lobular carcinoma in situ) ،(Ductal carcinoma in situ) DCIS and carcinoma. Although there are chemotherapy and surgery for its treatment, the ...
Read More
Introduction: Breast cancer is one of the main cause of death in women in the world. This cancer is heterogeneous and there are three types including LCIS ،(Lobular carcinoma in situ) ،(Ductal carcinoma in situ) DCIS and carcinoma. Although there are chemotherapy and surgery for its treatment, the molecular mechanism help to diagnosis in the first stage. In this study we aimed to show the expression of CDX1 and CDX2 in breast cancer.Materials and methods:In this study, total RNA was extracted from 40 tumor and 40 normal tissues using RNA extraction kit. After cDNA synthesis with Takara cDNA synthesis kit, expressional analysis of CDX1 and CDX2 gene was evaluated by Real time PCR techniques.Results:Our data showed the expression of CDX1 and CDX2 gene were decreased in this cancer, 50 and 45 percent, respectively. Also our statistical analysis demonstrated the underexpression of CDX1 is correlated with tumor size.Discussion: To the best our knowledge, this is the first study that shows the expression of these gene were reduced in breast cancer. We suggest that these genes have tumor suppressor role in breast cancer and it require more studies to show the main mechanism of these genes in breast cancer