The Relation Between Developing Childhood Obesity, TV Watching, Electronic Media and Sleeping Hours
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Abstract
We aimed to study associations between the childhood obesity, sleep duration and screen time regarding watching TV and using computer. Methodology: Our study included 72 patients between < 6 and 18 years, of the 72 children 38 obese children (52.8%) and 34 control cases (47.2%) have been recruited from the outpatient clinic of Pediatrics at National Nutritional Institute from September 2013 to March 2014 using anthropometric measurements, sleeping hours during daytime and weekends, TV watching & computer hours. Results: In our study, there was 33 male child, 16 (48.5%) of them were obese and 17 (51.5%) were in the control group, there was 39 female child, 22 (56.4%) of them were obese while 17 (50%) were in the control group (43.6%). The mean BMI of the obese group was 31.5 ± 6.1 while the control group was 14.5 ± 1.3. But in day sleep there was significant correlation between number of hours that the child sleeps during the day and there was significant correlation between the number of hours spending in watching TV and childhood obesity, during weekends obese children watch TV more than controls but in terms of using computer, the controls spend more hours using computer in the weekends than the obese group. There was an insignificant relation between the number of hours in outdoor playing on the weekdays between both groups while on weekends there was significant correlation between numbers of spent in outdoors playing and obesity. Conclusion: Obese children sleep more during the day on the weekdays and the weekends but not at night. During weekends obese children watch TV more but in terms of using computers, the controls spend more hours using computer at the weekends. During weekends obese children play outdoors less than the controls.
References
[1] Antwi, F. A., Fazylova, N., Garcon, M. C., Lopez, L., Rubiano, R., Slyer, J. T. Effectiveness of web-based programs on the reduction of childhood obesity in school-aged children: a systematic review. JBI Evidence Synthesis. 2013; 6:1-44.
[2] Börnhorst, C., Wijnhoven, T. M., Kunešová, M., Yngve, A., Rito, A. I., Lissner, L., Breda, J. WHO European Childhood Obesity Surveillance Initiative: associations between sleep duration, screen time and food consumption frequencies. BMC Public Health. 2015; 15:1-11.
[3] Alruwaili, B. F., Bayyumi, D. F., Alruwaili, O. S., Alsadun, R. S., Alanazi, A. S., Hadi, A., Alrayes, A. A. Prevalence and Determinants of Obesity and Overweight Among Children and Adolescents in the Middle East and North African Countries: An Updated Systematic Review. Diabetes, Metabolic Syndrome and Obesity. 2024; 2:2095-2103.
[4] Kelishadi, R., Heshmat, R., Motlagh, M. E., Majdzadeh, R., Keramatian, K., Qorbani, M., Larijani, B. Methodology and early findings of the third survey of CASPIAN study: A national school-based surveillance of students’ high-risk behaviors. International Journal of Preventive Medicine. 2012; 6:394.
[5] Dehghan, M., Akhtar-Danesh, N., Merchant, A. T. Childhood obesity, prevalence and prevention. Nutrition Journal. 2005; 4:1-8.
[6] Rashidi, H., Erfanifar, A., Latifi, S. M., Payami, S. P., Aleali, A. M. Incidence of obesity, overweight and hypertension in children and adolescents in Ahvaz southwest of IRAN: Five-years study. Diabetes and Metabolic Syndrome: Clinical Research Reviews. 2019; 1:201-205.
[7] Rajan, M. A. J., Srinivasan, R., Thaddeus, A. Childhood obesity: The Indian scenario compared with worldwide. Curr Res Diabetes Obes J. 2018; 5:1-3.
[8] Ponnambalam, S., Palanisamy, S., Singaravelu, R., Janardhanan, H. A. Effectiveness of a school-based nutrition education program on waist circumference and dietary behavior among overweight adolescents in Puducherry, India. Journal of Education and Health Promotion. 2022; 11(1):323.
[9] Sanyaolu, A., Okorie, C., Qi, X., Locke, J., Rehman, S. Childhood and adolescent obesity in the United States: a public health concern. Global Pediatric Health. 2019; 6:2333794X19891305.
[10] Hales, C. M., Carroll, M. D., Fryar, C. D., Ogden, C. L. Prevalence of obesity among adults and youth: United States, 2015-2016. 2017.
[11] Ahmad, Q. I., Ahmad, C. B., Ahmad, S. M. Childhood obesity. Indian Journal of Endocrinology and Metabolism. 2010; 1:19-25.
[12] Kosti, R. I., Panagiotakos, D. B. The epidemic of obesity in children and adolescents in the world. Central European Journal of Public Health. 2006; 4:151.
[13] Bessesen, D. H. Update on obesity. The Journal of Clinical Endocrinology and Metabolism. 2008; 6:2027-2034.
[14] Abdelaal, M., le Roux, C.W., Docherty, N.G. Morbidity and mortality associated with obesity. Annals of Translational Medicine. 2017; 7:161.
[15] Kêkê, L. M., Samouda, H., Jacobs, J., Di Pompeo, C., Lemdani, M., Hubert, H., Guinhouya, B. C. Body mass index and childhood obesity classification systems: A comparison of the French, International Obesity Task Force (IOTF) and World Health Organization (WHO) references. Revue d'epidemiologie et de sante publique. 2015; 3:173-182.
[16] World Health Organization, 2005; pp. 21-22.
[17] Kakinami, L., Henderson, M., Delvin, E. E., Levy, E., O’Loughlin, J., Lambert, M., Paradis, G. Association between different growth curve definitions of overweight and obesity and cardiometabolic risk in children. Cmaj. 2012; 10:539-550.
[18] Ribeiro, R. C., Coutinho, M., Bramorski, M. A., Giuliano, I. C., Pavan, J. Association of the waist-to-height ratio with cardiovascular risk factors in children and adolescents: the three cities heart study. International Journal of Preventive Medicine. 2010; 1:39.
[19] Romieu, I., Dossus, L., Barquera, S., Blottière, H. M., Franks, P. W., Gunter, M., IARC working group on Energy Balance and Obesity. Energy balance and obesity: what are the main drivers? Cancer Causes Control. 2017; 28:247-258.
[20] Cappuccio, F. P., Taggart, F. M., Kandala, N. B., Currie, A., Peile, E., Stranges, S., Miller, M. A. Meta-analysis of short sleep duration and obesity in children and adults. Sleep. 2008; 5:619-626.
[21] Dhana, K., Nano, J., Ligthart, S., Peeters, A., Hofman, A., Nusselder, W., Franco, O. H. Obesity and life expectancy with and without diabetes in adults aged 55 years and older in the Netherlands: a prospective cohort study. PLoS Medicine. 2016; 7:e1002086.
[22] Lu, S., Bao, M. Y., Miao, S. M., Zhang, X., Jia, Q. Q., Jing, S. Q., Liu, Y. Prevalence of hypertension, diabetes, and dyslipidemia, and their additive effects on myocardial infarction and stroke: a cross-sectional study in Nanjing, China. Annals of Translational Medicine. 2019; 18:78.
[23] Centers for Disease Control and Prevention. Overweight and obesity (2009) childhood overweight and obesity, consequences. [Last accessed on 2009]. Available from: http://www.cdc.gov/obesity/childhood/consequences.html.
[24] Karnik, S., Kanekar, A. Childhood obesity: a global public health crisis. Int J Prev Med. 2012; 1:1-7.
[25] Roberts, D. F., Foehr, U. G. Trends in media use. The Future of Children. 2008; 5:11-37.
[26] Mushtaq, M. U., Gull, S., Mushtaq, K., Shahid, U., Shad, M. A., Akram, J. Dietary behaviors, physical activity and sedentary lifestyle associated with overweight and obesity, and their socio-demographic correlates, among Pakistani primary school children. International Journal of Behavioral Nutrition and Physical Activity. 2011; 8:1-13.
[27] Gomez, L. F., Parra, D. C., Lobelo, F., Samper, B., Moreno, J., Jacoby, E., Borda, C. Television viewing and its association with overweight in Colombian children: results from the 2005 National Nutrition Survey: a cross-sectional study. International Journal of Behavioral Nutrition and Physical Activity. 2007; 4:1-8.
[28] Matheson, D. M., Killen, J. D., Wang, Y., Varady, A., Robinson, T. N. Children's food consumption during television viewing. The American Journal of Clinical Nutrition. 2004; 6:1088-1094.
[29] Ekelund, U., Brage, S., Froberg, K., Harro, M., Anderssen, S. A., Sardinha, L. B., Andersen, L. B. TV viewing and physical activity are independently associated with metabolic risk in children: the European Youth Heart Study. PLoS Medicine. 2006; 12:e488.
[30] Appelhans, B. M., Fitzpatrick, S. L., Li, H., Cail, V., Waring, M. E., Schneider, K. L., Pagoto, S. L. The home environment and childhood obesity in low-income households: indirect effects via sleep duration and screen time. BMC Public Health. 2014; 14:1-9.
[31] Dennison, B. A., Erb, T. A., Jenkins, P. L. Television viewing and television in bedroom associated with overweight risk among low-income preschool children. Pediatrics. 2002; 6:1028-1035.
[32] Suresh, V., Rupnath, K., Ramesh, V., Rojarani, M., Ramadevi, T., Sambasivarao, K. R. S. Television watching, and sleep promotes obesity in urban and semi-urban children in India. Toxicology Environmental Health Science. 2011; 1:001-7.
[33] Miller, A. L., Kaciroti, N., LeBourgeois, M. K., Chen, Y. P., Sturza, J., Lumeng, J. C. Sleep timing moderates the concurrent sleep duration–body mass index association in low-income preschool-age children. Academic Pediatrics. 2014; 2:207-213.
How to cite this paper
The Relation Between Developing Childhood Obesity, TV Watching, Electronic Media and Sleeping Hours
How to cite this paper: Mona Eid Ahmed, Eman Mohamed Eltawansy, Marianne Ragai Hana, Eman Ahmed Soltan. (2024). The Relation Between Developing Childhood Obesity, TV Watching, Electronic Media and Sleeping Hours. Advances in Modern Paediatrics, 1(1), 1-8.
DOI: http://dx.doi.org/10.26855/amp.2024.12.001
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