Affiliation:
1. Nutrition Department, School of Public Health University of São Paulo São Paulo Brazil
2. Research Centre for Anthropology and Health, Department of Life Sciences University of Coimbra Coimbra Portugal
3. Faculty of Sport Sciences and Physical Education University of Coimbra Coimbra Portugal
4. Faculty of Health Sciences University Fernando Pessoa Porto Portugal
5. Comprehensive Health Research Centre‐Group of Sleep, Chronobiology and Sleep Disorders‐Nova Medical School University of Lisbon Lisbon Portugal
6. Research Centre for Anthropology and Health, Department of Geography and Tourism University of Coimbra Coimbra Portugal
Abstract
AbstractObjectivesSun exposure seems to have an indirect effect on the development of obesity through vitamin D synthesis in the skin, the primary source of this vitamin. The present study aimed to investigate associations among sun exposure time, obesity indicators, and lifestyle habits in children.MethodsA total of 4755 children (3–10 years; 49.86% boys) from the north, center and south‐central Portugal were included in the present study. During 2016/2017 children's sun exposure time, screen time, time devoted to the practice of physical activity and active play were collected through standard questionnaires answered by parents. Statistical analyses were conducted to investigate differences among sun exposure time according to the sex, age, obesity indicators and lifestyle habits.ResultsLinear regression analysis showed that sun exposure time presented a negative association with Body Mass Index (β = −0.09, 95% CI: −0.18; −0.003; p = .042), body fat % (β = −0.31, 95%; CI: −0.54; −0.07; p = .010), computer time (β = −0.08, 95% CI: −0.12; − 0.05; p < .0001) and a positive association with active play time (β = 0.22, 95% CI: 0.17; 0.27; p < .0001) and total time of physical activity practice (β = 10.01, 95% CI: 4.52; 15.20; p < .0001).ConclusionsThe results reinforce the need for future guidance on the ideal sun exposure time, especially in children, who are at risk for vitamin D deficiency. Standardization of criteria for classifying optimal sun exposure time in this age group, considering the parameters that affect vitamin D status, such as age and seasonality, should be considered when planning future guidelines.
Funder
Foundation for Science and Technology
Subject
Genetics,Anthropology,Ecology, Evolution, Behavior and Systematics,Anatomy
Reference71 articles.
1. Influence of neighbourhood safety on childhood obesity: a systematic review and meta-analysis of longitudinal studies
2. Lifestyle Changes and Determinants of Children’s and Adolescents’ Body Weight Increase during the First COVID-19 Lockdown in Greece: The COV-EAT Study
3. Australian Government Department of Health. (2019).Australian 24‐hour movement guidelines for children & young people (5–17 years). Recommended screen time limits. Retrieved October 2022 fromhttps://www.health.act.gov.au/about‐our‐health‐system/healthy‐living/kids‐play‐active‐play/screen‐time/recommended‐screen‐time
4. Association of sunlight exposure with sleep hours in Iranian children and adolescents: The CASPIAN‐V study;Baradaran Mahdavi S.;Journal of Tropical Pediatrics,2020
5. Vitamin D levels in a paediatric population of normal weight and obese subjects