Volume 3, Issue 2 (May 2018)                   JNFS 2018, 3(2): 94-100 | Back to browse issues page

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Rezaei Hachesu V, Naderyan Feli S. Association between Shift Working and Markers of Obesity: A Cross Sectional Study on Taxi Drivers in Yazd, Iran. JNFS 2018; 3 (2) :94-100
URL: http://jnfs.ssu.ac.ir/article-1-162-en.html
Department of Biostatistics and Epidemiology, Shahid Sadoughi University of Medical Sciences, Yazd, Iran
Abstract:   (2766 Views)
Background: Obesity is one of the most important health problems, so it is very important to identify its causes. Shift work is one of the factors that causes people to become obese. The aim of this study was to examine the relationship between shift work and obesity in taxi drivers. Methods: In this cross sectional study conducted in 2016, 120 male taxi drivers from Yazd were studied for demographic characteristics and some anthropometric indices. To describe the data, descriptive statistics were used; to compare the prevalence of overweight, general and abdominal obesity, chi-square test was used and to compare quantitative variables, independent t-test and Mann-Whitney test were used. Results: The results showed that the mean weight, waist circumference, body mass index and waist to hip ratio (WHR) were significantly higher in shift workers (P < 0.05). In this study, the prevalence of overweight in shift and day workers was 41.4 and 46% (P = 0.61), general obesity was 34.3 and 20% (P = 0.08), and abdominal obesity was 82.9 and 82% (P = 0.90), respectively. Spearman correlation coefficient showed a positive and significant correlation between age and WHR as well as work experience and WHR in shift workers (r = 0.34 and r = 0.31, respectively). Also, a positive and significant correlation was found between age and WHR in day workers (r = 0.35). Conclusions: The results of this study showed that shift work in taxi drivers is associated with an increased probability of overweight, general and abdominal obesity.
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Type of article: orginal article | Subject: public specific
Received: 2018/05/1 | Published: 2018/05/1 | ePublished: 2018/05/1

References
1. Antunes L, Levandovski R, Dantas G, Caumo W & Hidalgo M 2010. Obesity and shift work: chronobiological aspects. Nutrition research reviews. 23 (1): 155-168.
2. Basner M, et al. 2007. American time use survey: sleep time and its relationship to waking activities. Sleep. 30 (9): 1085-1095.
3. Bøggild H & Knutsson A 1999. Shift work, risk factors and cardiovascular disease. Scandinavian journal of work, environment & health. 25 (2): 85-99.
4. Bray M & Young M 2007. Circadian rhythms in the development of obesity: potential role for the circadian clock within the adipocyte. Obesity reviews. 8 (2): 169-181.
5. Chen C-C, et al. 2010. Shift Work and Arteriosclerosis Risk in Professional Bus Drivers. Annals of epidemiology. 20 (1): 60-66.
6. Choi B, et al. 2017. A socioecological framework for research on work and obesity in diverse urban transit operators based on gender, race, and ethnicity. Annals of occupational and environmental medicine. 29 (1): 15.
7. Di Lorenzo L, et al. 2003. 1283801. Effect of shift work on body mass index: results of a study performed in 319 glucose-tolerant men working in a Southern Italian industry. International journal of obesity. 27 (11): 1353-1358.
8. Gu MJK, et al. 2012. Long work hours and adiposity among police officers in a US northeast city. Journal of occupational and environmental medicine. 54 (11): 1374.
9. Ishizaki M, et al. 2004. The influence of work characteristics on body mass index and waist to hip ratio in Japanese employees. Industrial health. 42 (1): 41-49.
10. Kim M-J, et al. 2013. Association between shift work and obesity among female nurses: Korean Nurses’ Survey. BMC public health. 13 (1): 1204.
11. Knutsson A 2003. Health disorders of shift workers. Occupational medicine. 53 (2): 103-108.
12. Lemke MK, Hege A, Perko M, Sönmez S & Apostolopoulos Y 2015. Work patterns, sleeping hours and excess weight in commercial drivers. Occupational medicine. 65 (9): 725-731.
13. Lowden A, Moreno C, Holmbäck U, Lennernäs M & Tucker P 2010. Eating and shift work—effects on habits, metabolism, and performance. Scandinavian journal of work, environment & health. 36 (2): 150-162.
14. Macagnan J, et al. 2012. Impact of nightshift work on overweight and abdominal obesity among workers of a poultry processing plant in southern Brazil. Chronobiology international. 29 (3): 336-343.
15. Magee CA, Caputi P & Iverson DC 2011. Short sleep mediates the association between long work hours and increased body mass index. Journal of behavioral medicine. 34 (2): 83-91.
16. Manenschijn L, van Kruysbergen RG, de Jong FH, Koper JW & van Rossum EF 2011. Shift work at young age is associated with elevated long-term cortisol levels and body mass index. Journal of clinical endocrinology & metabolism. 96 (11): E1862-E1865.
17. Marqueze EC, Ulhôa MA & Moreno CRdC 2013. Effects of irregular-shift work and physical activity on cardiovascular risk factors in truck drivers. Revista de saude publica. 47 (3): 497-505.
18. Peplonska B, Bukowska A & Sobala W 2015. Association of rotating night shift work with BMI and abdominal obesity among nurses and midwives. PLoS One. 10 (7): e0133761.
19. Samara D, Merijanti LT, Tandean R & Harrianto R 2016. The association between shift work and body mass index among female nurses. Universa medicina. 27 (2): 72-77.
20. Scott E, Carter A & Grant P 2008. Association between polymorphisms in the Clock gene, obesity and the metabolic syndrome in man. International journal of obesity. 32 (4): 658.
21. Suwazono Y, et al. 2008. A longitudinal study on the effect of shift work on weight gain in male Japanese workers. Obesity. 16 (8): 1887-1893.
22. Tada Y, et al. 2014. Association of body mass index with lifestyle and rotating shift work in Japanese female nurses. Obesity. 22 (12): 2489-2493.
23. Van Drongelen A, Boot CR, Merkus SL, Smid T & Van Der Beek AJ 2011. The effects of shift work on body weight change—a systematic review of longitudinal studies. Scandinavian journal of work, environment & health. 37 (4): 263-275.
24. Wang X, Armstrong M, Cairns B, Key T & Travis R 2011. Shift work and chronic disease: the epidemiological evidence. Occupational medicine. 61 (2): 78-89.
25. World Health Organization 2004. Appropriate body-mass index for Asian populations and its implications for policy and intervention strategies. Lancet. 363 (9403): 157-163.
26. World Health Organization 2011. Waist circumference and waist-hip ratio: Report of a WHO expert consultation, Geneva, 8-11 December 2008.

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