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The Association between Waterpipe Use and Resilience in University Students: A Study at Kerman University of Medical Sciences, Iran
Mohammadreza Naghavi, Farshid Khosropour,
Volume 9, Issue 3 (Summer 2020)
Abstract
Introduction: It has been well documented that resilience is a protective factor against the abuse of a variety of drugs. To date, this factor has not been examined regarding waterpipe smoking. This study aims to investigate the predictive role of resilience in tobacco use among students of the University of Medical Sciences.
Materials and Methods: A cross-sectional study was conducted among a consecutive sample of college students (n = 820) at Kerman University of Medical Sciences, Iran, 2019. To this end, the 14-item Resilience Scale (RS-14) was used. The students entered the study using convenience sampling. Self-administered questionnaires were completed anonymously and confidentially in the classroom. Besides, multivariable logistic regression was used to examine the relationship between waterpipe smoking and resilience. In addition, SPSS version 24 was used for statistical analysis.
Results: The mean (SD) age of the participants was 22.2 (3.0) years. A total of 776 subjects were enrolled into the study, with 47.3% of whom having been female. Most of the students were single (84.4%). The prevalence of waterpipe use in the past 30 days was 33.4%. The initiation age of waterpipe smoking in 75.1% of the students was ≤ 18. Low resilience was (OR=7.10, CI: 4.75-10.62, p < 0.001) the strongest predictor of waterpipe smoking among students.
Conclusion: Given the importance of resilience in the field of tobacco use, this study suggests that resilience-building programs be included in university curricula especially at the time of university enrollment.

A Hazard and Operability Study for Assessing Hazard Risks using Fault Tree Analysis in an Iranian Petrochemical Industry Unit (2016)
Marzieh Kosari, Sakineh Mahdavi, Vida Zaroushani, Tahereh Dehghani, Zahra Naghavi Konjin,
Volume 10, Issue 2 (Spring 2021)
Abstract

Background: Risk assessment is an important tool for reducing casualties and financial damage in the oil and gas industry. This research aimed to identify and evaluate process hazards in the petrochemical industry in 2016.
Material and Methods: In this case study, a team was organized and briefed on the process. Besides, hazard identification was performed using the Hazard and Operability Study. Next, causes were analyzed using the Fault Tree Analysis and occurrence probability of top events. Finally, events and subevents were ranked. The minimum cut sets were determined using Boolean algebra.
Results: A total of 77 events were identified. Accordingly, unacceptable, tolerable, and acceptable risk levels were 41, 31, and 5 events, respectively. Fire was the most unacceptable risk level, with the final events of "human errors in correct gasket installation on the flange surface" and "flange defects" having had the shares of 51.2 and 21.55%, respectively.
Conclusion: The combination of the two HAZOP and FTA techniques is useful in process industries in which incomplete performance of the system and control systems is the most effective factor in the potential occurrence of fire. Human errors and flange defects are the two main factors in this event, so occupational safety and health must be improved in this system. Thus, due to complex interactions between humans, machines, materials, and the environment in systems, such as the petrochemical industry, which lead to uncertainties in safety results of the process, risk assessment is recommended to be performed periodically using different techniques.


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