CRESH members Drs Jamie Pearce and Elizabeth Richardson are part of a multidisciplinary team of researchers recently awarded interdisciplinary funding to examine the role of pollution and weather events in shaping health and inequalities in the UK. In collaboration with Edinburgh colleagues Ruth Doherty (Edinburgh PI), Mat Heal, David Stevenson and Massimo Vieno they have secured a grant entitled “Air pollution and weather-related health impacts: methodological study based on spatio-temporally disaggregated multi-pollutants models for present day and future”, awarded under the UK cross-council Environmental Exposure and Health Initiative. The project involves 5 institutions with atmospheric scientists at the Universities of Edinburgh and Strathclyde, epidemiologists at the London School of Hygiene and Tropical Medicine (LSHTM) and St. Georges Hospital, University of London, health geographers and social scientists at Edinburgh and LSHTM and experts in building physics at University College London. The total award is £1.8M over 4 years. The project will examine the spatial variations in health outcomes related to mixtures of air pollutants and weather in the UK, and the relationship to socio-economic inequalities. The WRF (meteorology) and EMEP (atmospheric chemistry) models will be used to simulate weather and composition at 5km by 5km resolution across the UK.
Elizabeth Richardson presented our regional-level environmental deprivation work to the ScotStat Small Area Statistics event on 5th October 2010. The programme of talks can be found here, along with links to the talks: http://www.scotland.gov.uk/Topics/Statistics/sns/SNSEve/051010SmallAreaStatistics
She gave a talk entitled “Multiple Environmental Deprivation in South Lanarkshire: Does It Influence Health?” which can be found here: http://www.scotland.gov.uk/Topics/Statistics/sns/SNSEve/051010MultipleEnvDep
The event provided a useful overview of small area statistics in Scotland, including the Scottish Index of Multiple Deprivation, the Scottish Neighbourhood Statistics web portal and a range of interesting talks from other users of the data such as ourselves. Useful links were made with ScotStat, the Scottish Government, NHS Scotland and other users. A key part of the day was a consultation on potential changes to Scotland’s key small area geography: the data zone. The process involves trading off the advantages of maintaining comparable populations between the areas but also keeping the area boundaries consistent through time.
THE DEADLINE FOR APPLICATIONS HAS NOW PASSED.
We have a new PhD studentship available, based in Glasgow. The closing date for applications is 1st Nov. Please get in touch with Rich Mitchell for details on how to apply.
Title: Does the development of Glasgow’s city structure over time explain its excess mortality?
Duration: 3 year PhD, full time from Jan 2011 (or sooner)
Supervisors: Prof Rich Mitchell, Dr Mark Livingston (Urban Studies, University of Glasgow), David Walsh (Glasgow Centre for Population Health)
Research: Glasgow has particularly poor population health relative to other cities in the UK, and elsewhere in Europe. This apparent ‘Glasgow effect’ is not explained by the high levels of poverty. One possible explanation lies in the physical size of the city’s poorer areas. Some are now so large that residents have to travel quite a long way to experience anywhere that is not deprived. It has been suggested that this spatial pattern of deprivation contributes to poor health in its own right, perhaps explaining why the city has worse health than others with the same deprivation levels. This studentship will trace development of the spatial structure of deprivation in Glasgow, Manchester and Liverpool from 1971 to 2010 to identify any inter-city differences in this development and examine how these are related to Glasgow’s mortality rates. The precise methods and focus will be developed and agreed by the supervisors and student, but the general approach will use GIS. The studentship presents an opportunity for training in researching social geography, public health and health inequalities, and using GIS.
Person specification: Applicants should hold a first class or upper second class degree in a relevant, numerate social science (such as geography) or clinical discipline. Some experience of GIS is essential. A master’s qualification in a relevant discipline would be an advantage.
Award details: This is a 3 full time studentship and will provide an estimated stipend of £13,590 per annum. The award is available to UK and other EU nationals only. The award also covers fees. The award is provided by the Glasgow Centre for Population Health (www.gcph.co.uk)
Further details: More details on the project, the supervisors and the departments involved is available from Prof Rich Mitchell (Richard.Mitchell@glasgow.ac.uk), Dr Mark Livingston (email@example.com ) or David Walsh (David.Walsh@glasgow.gov.uk ). See also www.gcph.co.uk
CRESH has been awarded a grant from the AHRC Connected Communities programme to look at The Big Society, a key idea underpinning the UKs coalition government. The work will start in January 2011
In a ‘Big Society’, citizens and communities take a vastly increased role in managing, shaping and delivering social and physical infrastructure. The idea is closely allied to notions of community activism and civic participation, and thereby to concepts of social capital and social cohesion. The idea behind Big Society is that not only do social and community problems get ‘fixed’ without direct state intervention; those involved draw social and health benefits from their roles. Measurement of community participation, social support, social capital and civic engagement is well developed at the individual level. However, Big Society places a focus on geographically defined communities such as ‘the neighbourhood’ or ‘your square mile’. Measuring and comparing community participation within neighbourhoods across the country is much harder and less well developed.
Existing literature provides compelling reasons for wanting to follow the progression of Big Society over time. The nature and size of social and environmental problems faced varies between communities. Some communities currently have greater levels of civic engagement than others, and some are probably better placed to begin or grow that kind of participation than others. If Big Society is to become a major route through which problems are solved and life in the UK is improved, it is essential that we understand who and where might benefit most, which communities might lead the way and which might need most help in adapting to the new policy. Monitoring where we start from, and where we go, is an essential component of this important change in the balance between citizens and the state.
If we want to learn whether a policy emphasis on Big Society changes participation in our neighbourhoods and communities, we need to know about how people currently participate. We also need to know this in a way which allows us to monitor how things may change. There is no contemporary picture of existing patterns of engagement, or indeed potential for engagement, across the UK. There is however, a range of existing methods for measuring and estimating levels of social capital or civic engagement within small geographically defined communities.
The objectives of the project are to
A) Identify sources of data on civic engagement, community participation, volunteering and community cohesion which either describe geographical variation in these characteristics across the UK, or which are suitable for producing estimates
B) Consider the candidacy for each of the identified characteristics as a contributor to measuring ‘Big Society’, and determine the small-area units best suited to capturing ‘community’ in this context
C) Identify the most suitable methods for deriving small area measures of community participation and action
Duncan Lee and Rich Mitchell have been awarded a grant from ESRC to try and solve a problem with the methods used to investigate spatial variation in health.
There is great interest in how and why the risks of good or poor health seem to vary from place to place. There are lots of studies which have tried to work out how the characteristics of places and the people who live there may explain why health is worse in some areas than in others. When scientists do this kind of work, they need to take into account the fact that places which are physically closer together tend to be similar to each other; this similarity can have an influence on the statistical tests used and if this problem is ignored, it can lead to the wrong conclusions about how the characteristics of places and the people who live there are related to risks of poor health.
There is a problem however, in that the existing techniques are not sophisticated enough to tell the difference between places that are right next to each other and which actually are very similar, and those which are right next to each other but which are actually quite different. This is a particular problem in cities, where you can get two neighbouring areas that have very different characteristics.
In this project, we intend to develop a method which is able to spot when areas are close together but have different characteristics and when areas which are close together are indeed quite similar. The method will then apply the right kind of statistical approach in each situation. Our project has three parts. First, we will develop the new method. Then we will test it in a way that allows us to see how much better our new approach is than the existing technique. Finally, we will use the method to look at how and why the risks of three different health problems vary in the central belt of Scotland. The health problems will be alcohol problems, lung problems and breast cancer. For each of these health problems we will use our new technique to explore what characteristics of places and the people who live in them, might raise or lower risk. Rather than discovering new factors that might be involved in the risks of these disease, we expect to be able to gain a better understanding of the relative importance of factors which have already been identified. This might help the health service to know what level of ill health to expect in an area, given its characteristics, and hence plan services better, or it might help to identify what aspects of places and their residents need to be changed or helped to reduce risk of poor health.
So, overall the project will make a contribution to methods in this kind of science and will also provides a useful study of some big health problems.
The project starts in October 2010 and will run for 2 years.
Dr Jamie Pearce was part of a team of researchers considering the impact of the introduction of legislation in New Zealand that restricted the places where people can smoke. The results of the study, published recently, suggested that whilst the introduction of the smoking legislation has reduced the rate of hospital admissions due to heart attacks, this effect may be greater in males, older age groups and those living in more affluent neighbourhoods. The research was published in the Australia and New Zealand Journal of Public Health. Reports on the findings have appeared on the BBC, ITV, national newspapers as well as various international media outlets. For example, see: