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Showing 4 results for Alimohammad
Effects of fumonisin B1 on the stomach and colon cell lines in vitro
Mahmoodi Majid, Alizadeh Alimohammad, Amini-Najafi Fatemeh, Khosravi Alireza, Hosseini Seyed Kazem, Safari Zahra, Hydarnasab Daryosh,
Volume 69, Issue 12 (5 2012)
Abstract

Background: Fumonisins, a family of mycotoxins, are mainly found in wheat, corn and their products. Previous studies have shown that fumonisin B1 (FB1), the most abundant and toxic of known fumonisins, has been associated with many animal and human diseases including cancer. In the present study, the effects of FB1 were examined on the production of inflammatory cytokines in intestine and stomach cell lines.

Methods: This study was performed in the Cancer Research Center of Tehran University of Medical Sciences in 2010. The cell lines of colon adenocarcinoma (SW742) and gastric epithelium (AGS) were purchased from the Pasteur Institute of Iran. The cells were pretreated with different concentrations of FB1 (0 to 100 µM) for 3 days. The cells were later stimulated by lipopolysaccharides. Twenty-four hours after cell induction, the cytokines including tumor necrosis factor-alpha (TNF-α), interlukin-1 beta (IL-1β) and interlukin-8 (IL-8) were measured by ELISA.

Results: Treatment with FB1 induced a dose-dependent decrease in IL-8 production (P<0.05). This decrease was seen in both SW742 and AGS cell lines. Moreover, FB1 induced a dose-dependent increase in the production of TNF-α and IL-1β in both cell lines (P<0.05).

Conclusion: The results of this study indicated that FB1 could increase the inflammatory cytokines including TNF-α and IL-1β in gastric and intestinal celllines. These effects might result in the development of inflammatory responses and subsequent mucosal atrophy in in-vivo conditions.


Intra-rater reliability of sonographic measurement of the upper trapezius, supraspinatus and deltoid muscles in women with frozen shoulder and healthy women
Tayebeh Mirhashemi , Mehri Ghasemi , Frideh Dehghan-Manshadi , Alireza Akbarzadeh-Baghban , Alimohammad Faizi , Alireza Sabbaghian ,
Volume 76, Issue 5 (August 2018)
Abstract
Background:  Some studies show that frozen shoulder is due to the pathologic changes in the muscles around the shoulder. Measurement of the ultrasonic thickness of a muscle is a method for measuring the muscle changes. There is no study about the reliability of measurement of the muscle’s ultrasonic thickness around the shoulder in patients with frozen shoulder. The present study aims to investigate the intra-rater reliability of the ultrasonic thickness measurement of the supraspinatus, deltoid and upper trapezius muscles in women with frozen shoulder and healthy women.
Methods: This study was carried out during 4 months (June to October 2017). Twenty women consisted of 10 patients with frozen shoulder (mean age: 51.6±9.41 years) and 10 healthy subjects (mean age: 35.5±8.22 years) participated in this study. The patients from some clinics and hospitals in Tehran, and healthy subjects consisted of some personals and students in the School of Rehabilitation of Shahid Beheshti university of Medical Sciences participated in the present study. Measurements of ultrasonic thickness of the upper trapezius, supraspinatus and deltoid muscles in rest position carried out by the same rater two times in 48 hours. Ultrasonography instrument with linear probe (frequency: 7.5 MHz) were used for measurement of muscle thickness in millimeter.
Results: Reliability of the ultrasonic measurements of the muscle thickness in patients and healthy subjects was respectively as follow: The upper trapezius muscle (0.81, 0.81), the supraspinatus muscle (0.90, 0.92) and the middle deltoid muscle (0.93, 0.96). The reliability of the ultrasonic measurements of the muscle thickness for the upper trapezius muscle and the supraspinatus muscle was higher in healthy subjects compared to the patients with frozen shoulder. The reliability of the ultrasonic measurements of the middle deltoid thickness for the patients and healthy subjects was similar.
Conclusion: It seems that ultrasonography is a reliable method for measuring the thickness of the muscles around the shoulder in patients with frozen shoulder and healthy subjects.

Futurology of Iran health transformation plan: letter to the editor
Alimohammad Mosadeghrad,
Volume 77, Issue 3 (June 2019)
Abstract

Effect of ozone on the inactivation of indoor airborne viruses with the COVID-19 virus approach: a systematic review
Maziar Naderi , Gholamreza Ebrahimzadeh, Mahmood Alimohammadi , Vida Past,
Volume 80, Issue 2 (May 2022)
Abstract
Background: Nowadays, the COVID-19 pandemic has become a global problem that new methods must be used to prevent it. The virus is highly contagious and is mainly transmitted through the air. Ozone is a powerful oxidant that can be used to inactivate a wide range of viruses that may be resistant to other disinfectants. The purpose of this study was to review the use and effect of ozone in inactivating indoor viruses.
Methods: To conduct this review study, the keywords such as ozone, virus and air were used to search the PubMed and Scopus databases. Articles were searched from 2010 to 2020. As a result of the search, 57 articles in this field were selected and their content and results were used in this review study. 
Results: This review study showed that ozone has been successfully used to prevent several viral diseases such as COVED-19. In addition, some viruses, such as coronaviruses, contain sulfhydryl functional groups containing cysteine and tryptophan that react better with ozone gas. The infected person's sneezing may result in the formation of 40,000 droplets in the air. The droplets can be transferred to the nearest surface up to approximately 2 meters before falling and also may remain in the air for 30 hours.
Conclusion: The use of ozone gas has many potential applications in inactivating viruses in enclosed spaces. Given the importance of virus-containing aerosols in the transmission of COVED-19, ozone can be a promising way to prevent the disease. The degree of inactivation of viruses by ozone gas depends on the gas concentration, contact time, temperature, humidity and type of virus. In general, studies in this field have shown the use of ozone gas in preventing the spread of viral diseases such as COVED-19. Necessary safety measures and precautions are also recommended in using this gas.

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