Abstract
In recent years health science seems to have taken a “spatial turn” with a renewed interest in spatially oriented research. There are a number of reasons behind this rediscovery of “the power of maps”. One of the predominant drivers has been the development of Geographical Information Systems (GIS), software systems that can handle geographically referenced data. GIS is a very helpful tool to characterise neighbourhoods for a wide range of health-related studies. However, neighbourhoods can be defined in many different ways, and modifying the area unit used to delineate a neighbourhood affects the results of analyses. It is important for researchers to be aware of the effect the choice of neighbourhood can have on the analyses. A first fundamental step using GIS in health science is to have a good conceptual understanding of which physical environment to study exactly in relation to which health outcome or health behaviour. With a good conceptual understanding of the neighbourhood in focus, numerous meaningful variables can be derived from a GIS, as a series of examples demonstrates in this chapter. However, the quality of the parameters and analyses is highly dependent on the quality and scale of the available GIS data. With the increased use of GIS, the limitations of existing GIS data are becoming more apparent. However, we expect that methodological and technical developments will increase the usefulness and validity of using GIS-derived environmental parameters in health research, which in turn will increase the use of GIS in the future.
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References
Brownson, R. C., Hoehner, C. M., Day, K., Forsyth, A., & Sallis, J. F. (2009). Measuring the built environment for physical activity state of the science. American Journal of Preventive Medicine, 36(4), S99–S123.
Buck, C., Pohlabeln, H., Huybrechts, I., De Bourdeaudhuij, I., Pitsiladis, Y., Reisch, L., et al. (2011). Development and application of a moveability index to quantify possibilities for physical activity in the built environment of children. Health & Place, 17, 1191–1201.
Carstairs, V. (2000). Socio-economic factors at area level and their relationship with health. In P. Ellio, J. C. Wakefield, N. G. Best, & D. J. Biggs (Eds.), Spatial epidemiology. Methods and applications (pp. 51–67). Oxford: Oxford University Press.
Carstairs, V., & Morris, R. (1999). Deprivation and health in Scotland. Aberdeen: Aberdeen University Press.
Chaix, B. (2009). Geographic life environments and coronary heart disease: A literature review, theoretical contributions, methodological updates, and a research agenda. Annual Review of Public Health, 30, 81–105.
Cockings, S., & Martin, D. (2005). Zone design for environment and health studies using pre-aggregated data. Social Science & Medicine, 60(12), 2729–2742.
Cromley, E. K., & McLafferty, S. L. (2012). GIS and Public Health. New York: The Guilford.
Cutchin, M. P., Eschbach, K., Mair, C. A., Ju, H., & Goodwin, J. S. (2011). The socio-spatial neighborhood estimation method: An approach to operationalizing the neighborhood concept. Health & Place, 17(5), 1113–1121.
Diez Roux, A. V., & Mair, C. (2010). Neighborhoods and health. Annals of the New York Academy of Sciences, 1186, 125–145.
Eames, M., Ben-Shlomo, Y., & Marmot, M. G. (1993). Social deprivation and premature mortality: Regional comparison across England. BMJ, 307, 1097–1102.
Eriksen, L., Grønbæk, M., Helge, J. W., Tolstrup, J. S., & Curtis, T. (2011). The Danish health examination survey 2007–2008 (DANHES 2007–2008). Scandinavian Journal of Public Health, 39(2), 203–211.
Fan, Y., & Khattak, A. (2008). Urban form, individual spatial footprints, and travel. Transportation Research Record: Journal of Transportation Research Board, 2082, 98–106.
Farley, T. A., Meriwether, R. A., Baker, E. T., Rice, J. C., & Webber, L. S. (2008). Where do the children play? The influence of playground equipment on physical activity of children in free play. Journal of Physical Activity and Health, 5, 319–331.
Forsyth, A., D’Sousa, E., Koepp, J., Oakes, J. M., Schmitz, K. H., Van Riper, D., et al. (2007, June). Twin Cities walking study—environment and physical activity: GIS protocols version 4.1. http://www.designforhealth.net/pdfs/GIS_Protocols/MinnGIS_Ver4_1_FINAL.pdf.
Fotheringham, A. S., Brunsdon, C., & Charlton, M. E. (2002). Geographically weighted regression: The analysis of spatially varying relationships. Chichester: Wiley.
Frank, L. D., Sallis, J. F., Saelens, B. E., Leary, L., Cain, K., Conway, T. L., et al. (2010). The development of a walkability index: Application to the neighborhood quality of life study. British Journal of Sports Medicine, 44, 924–933.
Gatrell, A. C., & Löytönen, M. (1998). GIS and health research: An introduction. In A. C. Gatrell & M. Löytönen (Eds.), Health and GIS. GISMAPS 6. European Science Foundation (pp. 3–16). London: Taylor and Francis.
Haining, R. (1998). Spatial statistics and the analysis of health data. In A. C. Gatrell & M. Löytönen (Eds.), Health and GIS. GISMAPS 6. European Science Foundation (pp. 29–38). London: Taylor and Francis.
Haynes, R., Jones, A. P., Reading, R., Daras, K., & Emond, A. (2008). Neighbourhood variations in child accidents and related child and maternal characteristics: Does area definition make a difference? Health & Place, 14(4), 693–701.
Huff, N., Macleod, C., Ebdon, D., Phillips, D., Davies, L., & Nicholson, A. (1999). Inequalities in mortality and illness in Trent NHS Region. Journal of Public Health Medicine, 21(1), 81–87.
Janghorbani, M., Jones, R. B., & Nelder, R. (2006). Neighbourhood deprivation and excess coronary heart disease mortality and hospital admissions in Plymouth, UK: An ecological study. Acta Cardiologica, 61(3), 313–320.
Jarman, B. (1983). Identification of underprivileged areas. BMJ, 286, 1705–1709.
Jones, A. P., van Sluijs, E. M. F., Ness, A. R., Haynes, R., & Riddoch, C. J. (2010). Physical activity in children: Does how we define neighbourhood matter? Health & Place, 16(2), 236–241.
Kawachi, I., & Berkman, L. F. (2003). Neighborhoods and health. New York: Oxford University Press.
Kerr, J., Duncan, S., & Schipperijn, J. (2011). Using global positioning systems in health research—a practical approach to data collection and processing. American Journal of Preventive Medicine, 41(5), 532–540.
Kurland, K. S., & Wilpen, L. G. (2007). GIS tutorial for Health. Redlands: ESRI.
Lai, P. C., & Mak, A. S. H. (Eds.). (2007). GIS for health and the environment. Development in the Asia-Pacific Region. Berlin: Springer.
Langford, I. H., & Bentham, G. (1996). Regional variations in mortality rates in England and Wales: An analysis using multi-level modelling. Social Science & Medicine, 42(6), 897–908.
Lee, C., & Moudon, A. V. (2008). Neighbourhood design and physical activity. Building Research and Information, 36, 395–411.
Longley, P. A., Goodchild, M., Maguire, D. J., & Rhind, D. W. (2011). Geographic information systems and science (3rd ed.). New York: Wiley.
Lorant, V., Thomas, I., Deliège, D., & Tonglet, R. (2001). Deprivation and mortality: The implications of spatial autocorrelation for health resources allocation. Social Science & Medicine, 53(12), 1711–1719.
Meijer, M., Kejs, A. M., Stock, C., Bloomfield, K., Ejstrud, B., & Schlattmann, P. (2012a). Population density, socioeconomic environment and all-cause mortality: A multilevel survival analysis of 2.7 million individuals in Denmark. Health & Place, 18(2), 391–399.
Meijer, M., Röhl, J., Bloomfield, K., & Grittner, U. (2012b). Do neighborhoods affect individual mortality? A systematic review and meta-analysis of multilevel studies. Social Science & Medicine, 74(8), 1204–1212.
Millington, C., Ward Thompson, C., Rowe, D., Aspinall, P., Fitzsimons, C., Nelson, N., et al. (2009). Development of the Scottish walkability assessment tool (SWAT). Health & Place, 15, 474–481.
Mitra, R., & Buliung, R. N. (2012).Built environment correlates of active school transportation: neighborhood and the modifiable areal unit problem. Journal of Transport Geography, 20, 51–61.
Monmonier, M. S. (1996). How to lie with maps. Chicago: University of Chicago Press.
Nielsen, K., Stjernholm, M., Olsen, B. Ø., Müller-Wohlfeil, D. I., Madsen, I. L., Kjeldgaard, A., et al. (2000). Areal Informations Systemet – AIS Miljø- og Energiministeriet, Danmarks Miljøundersøgelser. http://www2.dmu.dk/1_Viden/2_Miljoe-tilstand/3_samfund/AIS/2_Rapport/ais_rapport.pdf.
Norman, G. J., Nutter, S. K., Ryan, S., Sallis, J. F., Calfas, K. J., & Patrick, K. (2006). Community design and access to recreational facilities as correlates of adolescent physical activity and body-mass index. Journal of Physical Activity and Health, 3(1S), 118–128.
Oh, K., & Jeong, S. (2007). Assessing the spatial distribution of urban parks using GIS. Landscape and Urban Planning, 82, 25–32.
Openshaw, S. (1977). Optimal zoning systems for spatial interaction models. Environment and Planning A, 9(2), 169–184.
Openshaw, S. (1984). The modifiable areal unit problem. Norwich: Geo Books.
Openshaw, S., & Alvandies, S. (1999). Applying geocomputation to the analysis of spatial distributions. In P. Longley, M. Goodchild, D. Maguire, & D. Rhind (Eds.), Geographic information systems: Principles and technical issues (pp. 267–282). New York: Wiley.
Openshaw, S., Charlton, M., Wymer, C., & Graft, A. (1987). A mark 1 geographical analysis machine for the automated analysis of point datasets. International Journal of Geographical Information Science, 1, 335–358.
Parenteau, M.-P., & Sawada, M. C. (2011). The modifiable areal unit problem (MAUP) in the relationship between exposure to NO2 and respiratory health. International Journal of Health Geographics, 10, 58.
Pickett, K., & Pearl, M. (2001). Multilevel analyses of neighbourhood socioeconomic context and health outcomes: A critical review. Journal of Epidemiology & Community Health, 55, 111–122.
Pikora, T., Giles-Corti, B., Bull, F., Jamrozik, K., & Donovan, R. (2003). Developing a framework for assessment of the environmental determinants of walking and cycling. Social Science & Medicine, 56(8), 1693–1703.
Ridgers, N. D., Stratton, G., Fairclough, S. J., & Twisk, J. W. (2007a). Long-term effects of a playground markings and physical structures on children’s recess physical activity levels. Preventive Medicine, 44(5), 393–397.
Ridgers, N. D., Stratton, G., Fairclough, S. J., & Twisk, J. W. (2007b). Children’s physical activity levels during school recess: A quasi-experimental intervention study. International Journal of Behavioral Nutrition and Physical Activity, 4, 19.
Riva, M., Apparicio, P., Gauvin, L., & Brodeur, J. M. (2008). Establishing the soundness of administrative spatial units for operationalising the active living potential of residential environments: An exemplar for designing optimal zones. International Journal of Health Geographics, 7(1), 43.
Riva, M., Gauvin, L., & Barnett, T. A. (2007). Toward the next generation of research into small area effects on health: A synthesis of multilevel investigations published since July 1998. Journal of Epidemiology and Community Health, 61(10), 853–861.
Saelens, B. E., Sallis, J. F., Black, J. B., & Chen, D. (2003). Neighborhood-based differences in physical activity: An environment scale evaluation. American Journal of Public Health, 93, 1552–1558.
Sallis, J. F., Conway, T. L., Prochaska, J. J., McKenzie, T. L., Marshall, S. J., & Brown, M. (2001). The association of school environments with youth physical activity. American Journal of Public Health, 91(4), 618–620.
Schipperijn, J., Stigsdotter, U. K., Randrup, T. B., & Troelsen, J. (2010). Influences on the use of urban green space: A case study in Odense, Denmark. Urban Forestry and Urban Greening, 9, 25–32.
Schuurman, N., Bell, N., Dunn, J. R., & Oliver, L. (2007). Deprivation indices, population health and geography: An evaluation of the spatial effectiveness of indices at multiple scales. Journal of Urban Health, 84(4), 591–603.
Scott, M. M., Evenson, K. R., Cohen, D. A., & Cox, C. E. (2007). Comparing perceived and objectively measured access to recreational facilities as predictors of physical activity in adolescent girls. Journal of Urban Health, 84, 346–359.
Sherman, J. E., Spencer, J., Preisser, J. S., Gesler, W. M., & Arcury, T. A. (2005). A suite of methods for representing activity space in a healthcare accessibility study. International Journal of Health Geographics, 4, 24.
Smith, G., Gidlow, C., Davey, R., & Foster, C. (2010). What is my walking neighbourhood? A pilot study of English adults’ definitions of their local walking neighbourhoods. International Journal of Behavioral Nutrition and Physical Activity, 7, 34.
Smith, G. D., Whitley, E., Dorling, D., & Gunnell, D. (2001). Area based measures of social and economic circumstances: Cause specific mortality patterns depend on the choice of index. Journal of Epidemiology and Community Health, 55, 149–150.
Soo, L., Huff, N., Gray, D., & Hampton, J. R. (2001). Geographical distribution of cardiac arrest in Nottinghamshire. Resuscitation, 48(2), 137–147.
Stock, C., Bloomfield, K., Ejstrud, B., Vinther-Larsen, M., Meijer, M., Grønbæk, M., et al. (2012). Are characteristics of the school district associated with active transportation to school in Danish adolescents? European Journal of Public Health, 22(3), 398–404.
Stock, C., Ejstrud, B., Vinter-Larsen, M., Schlattmann, P., Curtis, T., & Grønbæk, M. (2011). Effects of school district factors on alcohol consumption: Results of a multi-level analysis among Danish adolescents. European Journal of Public Health, 21(4), 449–455.
Tian, N., Goovaerts, P., Zhan, F. B., & Wilson, J. G. (2010). Identification of racial disparities in breast cancer mortality: Does scale matter? International Journal of Health Geographics, 9, 35.
Townsend, P., Phillimore, P., & Beattie, A. (1988). Health and deprivation: Inequality and the north. London: Croom Helm.
Villanueva, K., Giles-Corti, B., Bulsara, M. K., McCormack, G. R., Timperio, A., Middleton, N., et al. (2012). How far do children travel from their homes? Exploring children’s activity spaces in their neighborhood. Health & Place, 18(2), 263–273.
Zenk, S. N., Schulz, A. J., Matthews, S. A., Odoms-Young, A., Wilbur, J., Wegrzyn, L., et al. (2011). Activity space environment and dietary and physical activity behaviors: A pilot study. Health & Place, 17(5), 1150–1161.
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Schipperijn, J., Ejstrud, B., Troelsen, J. (2013). GIS: A Spatial Turn in the Health Science?. In: Stock, C., Ellaway, A. (eds) Neighbourhood Structure and Health Promotion. Springer, Boston, MA. https://doi.org/10.1007/978-1-4614-6672-7_8
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