参考文献:1. Strong, WB, Malina, RM, Blimkie, CJ, Daniels, SR, Dishman, RK, Gutin, B, Hergenroeder, AC, Must, A, Nixon, PA, Pivarnik JM Rowland, T, Trost, S, Trudeau, F (2005) Evidence based physical activity for school-age youth. J Pediatr 146: pp. 732-737 CrossRef Centre, HaSCI eds. (2005) Health Survey for England 2004 - updating of trend tables to include 2004 data. National Statistics, London Health Survey for England 2008: Volume 1 Physical Activity and Fitness. The Health and Social Care Information Centre, London 2. Troiano, RP, Berrigan, D, Dodd, KW, Masse, LC, Tilert, T, McDowell, M (2008) Physical activity in the United States measured by accelerometer. Med Sci Sports Exerc 40: pp. 181-188 CrossRef 3. Nader, PR, Bradley, RH, Houts, RM, McRitchie, SL, O’Brien, M (2008) Moderate-to-vigorous physical activity from ages 9 to 15?years. JAMA 300: pp. 295-305 CrossRef 4. van Sluijs, EM, McMinn, AM, Griffin, SJ (2007) Effectiveness of interventions to promote physical activity in children and adolescents: systematic review of controlled trials. BMJ 335: pp. 703 CrossRef 5. Kriemler, S, Meyer, U, Martin, E, van Sluijs, EM, Andersen, LB, Martin, BW (2011) Effect of school-based interventions on physical activity and fitness in children and adolescents: a review of reviews and systematic update. Br J Sports Med 45: pp. 923-930 CrossRef 6. Cliff, DP, Okely, AD, Morgan, PJ, Jones, RA, Steele, JR (2010) The impact of child and adolescent obesity treatment interventions on physical activity: a systematic review. Obes Rev 11: pp. 516-530 CrossRef 7. Dobbins, M, Husson, H, DeCorby, K, LaRocca, RL (2013) School-based physical activity programs for promoting physical activity and fitness in children and adolescents aged 6 to 18. Cochrane Database Syst Rev 2: pp. CD007651 Primary School Physical Education - Speednet Survey makes depressing reading. Br J PE 30: pp. 19-20 8. Pate, RR, O’Neill, JR (2009) After-school interventions to increase physical activity among youth. Br J Sports Med 43: pp. 14-18 CrossRef 9. Jago, R, Baranowski, T (2004) Non-curricular approaches for increasing physical activity in youth: a review. Prev Med 39: pp. 157-163 CrossRef 10. Atkin, AJ, Gorely, T, Biddle, SJ, Cavill, N, Foster, C (2011) Interventions to Promote Physical Activity in Young People Conducted in the Hours Immediately After School: A Systematic Review. Int J Behav Med 18: pp. 176 CrossRef 11. Gorely, T, Atkin, AJ, Biddle, SJ, Marshall, SJ (2009) Family circumstance, sedentary behaviour and physical activity in adolescents living in England: Project STIL. Int J Behav Nutr Phys Act 6: pp. 33 CrossRef 12. Jago, R, Edwards, MJ, Cooper, AR, Fox, KR, Powell, J, Sebire, SJ, Spears, M, Thompson, JL, Montgomery, AA (2013) Action 3:30: protocol for a randomized feasibility trial of a teaching assistant led extracurricular physical activity intervention. Trials 14: pp. 122 CrossRef 13. Craig, P, Dieppe, P, Macintyre, S, Michie, S, Nazareth, I, Petticrew, M (2008) Developing and evaluating complex interventions: the new Medical Research Council guidance. BMJ 337: pp. a1655 CrossRef 14. Baranowski, T, Jago, R (2005) Understanding mechanisms of change in children’s physical activity programs. Exerc Sport Sci Rev 33: pp. 163-168 CrossRef 15. Cooper, AR, Page, AS, Foster, LJ, Qahwa
Background School travel mode and parenting practices have been associated with children’s physical activity (PA). The current study sought to examine whether PA parenting practices differ by school travel mode and whether school travel mode and PA parenting practices are associated with PA. Methods 469 children (aged 9-11) wore accelerometers from which mean weekday and after-school (3.30 to 8.30?pm) minutes of moderate-to-vigorous intensity PA (MVPA) and counts per minute (CPM) were derived. Mode of travel to and from school (passive vs. active) and PA parenting practices (maternal and paternal logistic support and modelling behaviour) were child-reported. Results Children engaged in an average of 59.7?minutes of MVPA per weekday. Active travel to school by girls was associated with 5.9 more minutes of MVPA per day compared with those who travelled to school passively (p--.004). After-school CPM and MVPA did not differ by school travel mode. There was no evidence that physical activity parenting practices were associated with school travel mode. Conclusions For girls, encouraging active travel to school is likely to be important for overall PA. Further formative research may be warranted to understand how both parental logistic support and active travel decisions are operationalized in families as a means of understanding how to promote increased PA among pre-adolescent children.