Comparing children's GPS tracks with geospatial proxies for exposure to junk food.
暂无分享,去创建一个
[1] M. Brauer,et al. The impact of daily mobility on exposure to traffic-related air pollution and health effect estimates , 2011, Journal of Exposure Science and Environmental Epidemiology.
[2] Seth E Spielman,et al. The spatial dimensions of neighborhood effects. , 2009, Social science & medicine.
[3] J. Gilliland,et al. Free Range Kids? Using GPS-Derived Activity Spaces to Examine Children’s Neighborhood Activity and Mobility , 2016 .
[4] Y. Kestens,et al. Association between Activity Space Exposure to Food Establishments and Individual Risk of Overweight , 2012, PloS one.
[5] Paul M. Hess,et al. Route-Based Analysis to Capture the Environmental Influences on a Child's Mode of Travel between Home and School , 2012 .
[6] Martin A Healy,et al. Quantifying the magnitude of environmental exposure misclassification when using imprecise address proxies in public health research. , 2012, Spatial and spatio-temporal epidemiology.
[7] J. Irwin,et al. Obesogenic neighbourhoods: the impact of neighbourhood restaurants and convenience stores on adolescents’ food consumption behaviours , 2012, Public Health Nutrition.
[8] P. Wilk,et al. Linking Childhood Obesity to the Built Environment: A Multi-level Analysis of Home and School Neighbourhood Factors Associated With Body Mass Index , 2012, Canadian Journal of Public Health.
[9] J. Irwin,et al. The Influence of Local Food Environments on Adolescents’ Food Purchasing Behaviors , 2012, International journal of environmental research and public health.
[10] B. Chaix,et al. Neighbourhoods in eco-epidemiologic research: delimiting personal exposure areas. A response to Riva, Gauvin, Apparicio and Brodeur. , 2009, Social science & medicine.
[11] John R. Nuckols,et al. Using Geographic Information Systems for Exposure Assessment in Environmental Epidemiology Studies , 2004, Environmental health perspectives.
[12] Cindy Shearer,et al. Measuring food availability and accessibility among adolescents: Moving beyond the neighbourhood boundary. , 2015, Social science & medicine.
[13] Kai Elgethun,et al. Comparison of global positioning system (GPS) tracking and parent-report diaries to characterize children's time–location patterns , 2007, Journal of Exposure Science and Environmental Epidemiology.
[14] J. Gilliland,et al. An application of the edge effect in measuring accessibility to multiple food retailer types in Southwestern Ontario, Canada , 2011, International journal of health geographics.
[15] JoEllen Wilbur,et al. Activity space environment and dietary and physical activity behaviors: a pilot study. , 2011, Health & place.
[16] N. Schuurman,et al. Comparing circular and network buffers to examine the influence of land use on walking for leisure and errands , 2007, International journal of health geographics.
[17] I. McDowell,et al. Conceptualizing the healthscape: contributions of time geography, location technologies and spatial ecology to place and health research. , 2010, Social science & medicine.
[18] Andy P. Jones,et al. What can global positioning systems tell us about the contribution of different types of urban greenspace to children's physical activity? , 2012, Health & place.
[19] J. Maddock,et al. The Relationship between Obesity and the Prevalence of Fast Food Restaurants: State-Level Analysis , 2004, American journal of health promotion : AJHP.
[20] Bryan J Boruff,et al. Using GPS technology to (re)-examine operational definitions of ‘neighbourhood’ in place-based health research , 2012, International Journal of Health Geographics.
[21] Robin Kearns,et al. From medical to health geography: novelty, place and theory after a decade of change , 2002 .
[22] B Chaix,et al. The influence of geographic life environments on cardiometabolic risk factors: a systematic review, a methodological assessment and a research agenda , 2011, Obesity reviews : an official journal of the International Association for the Study of Obesity.
[23] S. Daniels,et al. Parental report of outdoor playtime as a measure of physical activity in preschool-aged children. , 2004, Archives of pediatrics & adolescent medicine.
[24] Stephen A. Matthews,et al. Spatial Polygamy and the Heterogeneity of Place: Studying People and Place via Egocentric Methods , 2011 .
[25] Daniel Krewski,et al. Development of a wearable global positioning system for place and health research , 2008, International journal of health geographics.
[26] W. Christian,et al. Using geospatial technologies to explore activity-based retail food environments. , 2012, Spatial and spatio-temporal epidemiology.
[27] Kelly R Evenson,et al. Out and about: association of the built environment with physical activity behaviors of adolescent females. , 2012, Health & place.
[28] Steve Wing,et al. Supermarkets, other food stores, and obesity: the atherosclerosis risk in communities study. , 2006, American journal of preventive medicine.
[29] Edmund Seto,et al. A study of community design, greenness, and physical activity in children using satellite, GPS and accelerometer data. , 2012, Health & place.
[30] Lisa M Powell,et al. US secondary schools and food outlets. , 2008, Health & place.
[31] Basile Chaix,et al. GPS tracking in neighborhood and health studies: a step forward for environmental exposure assessment, a step backward for causal inference? , 2013, Health & place.
[32] D. Cohen,et al. Non-residential neighborhood exposures suppress neighborhood effects on self-rated health. , 2007, Social science & medicine.