Aim: Several countries have recently established multistakeholder strategies to prevent or control overweight and obesity; however, studies have not yet been done on their effectiveness and likely impact. This study’s objectives were to (i) explore sector-wide benefits and impacts likely to accrue from implementing an obesity prevention strategy in the Australian state of New South Wales; (ii) discuss the wider implications of the findings for research and practice; and (iii) strengthen the case for sustained implementation of a comprehensive, intersectoral approach.
Method: A case study approach, including evidence reviews and illustrative epidemiological models, was used to show potential benefits from meeting selected targets and objectives specified in the strategy.
Results: For adults, improved health outcomes potentially include reductions in all-cause mortality, cardiovascular disease, type 2 diabetes, various cancers, osteoarthritis, infant mortality and healthcare costs. Potential benefits beyond the health sector involve disability payments, absenteeism, worker productivity, workplace injuries and insurance claims. For children and adolescents, improved health outcomes potentially include metabolic risk factors, dental health, prehypertension/hypertension, cardiovascular disease risk factors, depression, rates of mortality in hospitalised children, bullying and otitis media.
Conclusion: Sector-wide health, social and economic benefits from successful implementation of multisector obesity prevention strategies are likely to be substantial if specified targets are achieved. Epidemiological modelling described in this paper for selected examples provides illustrative rather than comprehensive evidence for potential benefits. Process evaluation of the extent of implementation of these multisectoral strategies, together with the accumulated data on intervention effectiveness, will determine their potential population health benefit. Quantifying the health and social benefits that are likely to accrue if comprehensive sector-wide obesity prevention and control strategies are established can strengthen advocacy for their sustained implementation.
The prevalence of overweight and obesity is rising internationally.1 Most of the adult population, and one in five children, are now overweight or obese in Organisation for Economic Co-operation and Development (OECD) countries.2 Although weight gains were largely beneficial to the health and longevity of our ancestors, substantial proportions of the populations in these countries have now crossed the line beyond which further gains compromise health.2 As body mass index increases, so too does the prevalence of comorbid conditions, including diabetes, cardiovascular disease and some cancers.3 Severely obese people die 8−10 years sooner than people of healthy weight, with every 15 extra kilograms increasing the risk of early death by approximately 30%.2 Rising medical costs are associated with increasing prevalence of both overweight and obesity.4 Obesity is estimated to be responsible for 1−3% of total health expenditure in most developed countries (and 5−10% in the US), with costs expected to rise rapidly in coming years as obesity-related diseases become more prevalent.2, 4
As recently noted by the OECD2 and the World Health Organization1, many countries have adopted strategies and policies to prevent or control overweight and obesity. Best practice includes multistakeholder frameworks, which involve business and civil society actors in the development of public health policies5; however, because these frameworks have only recently been implemented, evidence of their effectiveness and likely impact is just beginning to emerge.1, 2 This paper takes a case study approach to examining a multistakeholder obesity prevention strategy in the Australian state of New South Wales (NSW) − the NSW Healthy Eating Active Living (HEAL) Strategy 2013–2018. Specifically, we used epidemiological modelling to demonstrate potential benefits from meeting a subset of the targets specified in the HEAL Strategy.
The HEAL Strategy provides a whole-of-government framework to promote and support healthy eating and active living in NSW, and reduce the impact of lifestyle-related chronic disease. The strategy sets a number of targets that aim to encourage and support the community to make healthy lifestyle changes at a personal level, and create an environment that supports healthier living, through better planning, built environments and transport solutions (Box 1). To achieve these targets, the strategy includes activities such as state-wide and targeted programs for children and young people, workplace-based programs to support physical activity and healthy eating, changes to urban planning and design processes to encourage and facilitate active living and healthy eating, expansion of the telephone-based Get Healthy Information and Coaching Service, targeted programs for people with prediabetes and women at risk of gestational diabetes to prevent progression to type 2 diabetes, and changes to consumer nutrition information requirements and communication.
Box 1. Targets and objectives of the NSW Healthy Eating Active Living Strategy 2013–2018
Targets
Objectives
Evidence reviews and epidemiological models were used to illustrate examples of sector-wide benefits that could accrue as a consequence of successful HEAL Strategy implementation (i.e. meeting specified targets and objectives).
A rapid evidence review was undertaken between August and October 2014. The review’s scope was confined to the overweight and obesity targets for adults and children, and the six strategic objectives (see Box 1). Box 1 shows the HEAL Strategy targets and objectives as set out in the strategy document itself; this analysis focused on quantifiable targets (overweight and obesity) and directional targets (as shown in Table 1). The review scope did not include the targets on participation in sport, recreational, arts and cultural activities, and active travel.
This review followed the Evidence Check methodology, which does not comprehensively review all the literature relating to the topic area, but reviews evidence tailored to policy maker needs in a policy-friendly format. Reviewers identify gaps in the evidence but do not undertake new research to fill these gaps. The review’s purpose was to:
Searches were undertaken to identify articles about specific health conditions and other (direct or indirect) outcomes associated with:
Searches were undertaken to identify articles reporting on epidemiological associations with any of the following direct health outcomes:
Wellbeing was broadly defined and included dimensions such as school or social participation, childhood development, injurious falls and health-related quality of life. The searches also aimed to identify associations with other direct or indirect outcomes (e.g. performance at school or economic benefits). The searches were restricted to studies published between January 2000 and September 2014, except for the exposure variables of overweight and obesity, for which the search was restricted to 2012–2014. Evidence from meta-analytic and systematic reviews on individual health outcomes was included from 2012 onwards because of the vast amount of literature on the association between overweight and obesity and health outcomes. In all cases, the most recently published meta-analysis or review article for each outcome was used. Searches of Medline, Pre-Medline and PsychINFO were undertaken using Medical Subject Headings (MeSH) terms and keywords (phrase searching) to identify recent reviews, systematic reviews and meta-analyses of population studies.
Search strategies were tailored for each target and objective; the most recent data from the highest quality studies were extracted, wherever possible. Articles were screened on the basis of title and abstract, and, where required, full articles were obtained. Only articles that reported on the association using appropriate statistical methods were included. Narrative reviews were excluded. Articles with nonsignificant findings were generally not selected, except for the effects of overweight and obesity in children, for which few risk measures were reported in the literature. A limited grey literature search was also conducted. Details of the search strategies can be accessed in supplementary online material.
Population attributable risk (PAR)–based estimation of lives saved and diseases prevented through implementation of the HEAL Strategy was undertaken for five illustrative examples of the potential outcomes of strategy effectiveness: (i) physical activity and colorectal cancer, (ii) fruit and vegetable consumption and coronary heart disease, (iii) sugar-sweetened beverage consumption and type 2 diabetes, (iv) sedentary behaviour (sitting time) and all-cause mortality, and (v) overweight and obesity and type 2 diabetes. The outcomes were selected based on the burden of disease in Australia, as identified by Begg et al.6 Epidemiological modelling was used to examine the effect of achieving targets and objectives for selected health outcomes. PARs were calculated to quantify the benefit that could be expected for selected health outcomes if the HEAL Strategy targets and objectives were met.
PARs estimate the proportion of events (cases, deaths, hospitalisations, etc.) that can be attributed to a particular risk factor – for example, the proportion of lung cancer cases attributable to smoking. PARs were calculated as:
PAR=
Pe (RRe –1)
RRe
where Pe is the prevalence of the risk factor in the population and RRe is the relative risk (RR) of the event, adjusted for confounding factors.
RRs were sourced from the most recent meta-analyses identified as part of the evidence review; earlier meta-analyses were examined to ensure consistency of the RR selected. Prevalence of insufficient physical activity (less than 150 minutes/week), insufficient fruit consumption (less than two serves/day) and vegetable consumption (less than five serves/day), and overweight and obesity were sourced from the NSW Population Health Survey.7 Sugar-sweetened beverage consumption was sourced from the Australian Health Survey8, and sitting time prevalence was calculated using national data from the recent 20-country study.9 All data were for adults. After calculating the PAR for each risk factor and associated outcome, we determined the number of events that would be avoided if the HEAL Strategy targets and objectives were met, using the formula from Lee et al. (2012)10:
Avoided events= Ie × PAR × Δ
where Ie is the incidence of the outcome in the NSW population and Δ is the targeted change in the risk factor. The targeted change in adult overweight and obesity (a 5% reduction by 2020) was based on the HEAL Strategy target. For physical activity and healthy eating, the modelled targets were consistent with the outcomes and performance benchmarks stipulated in the National Partnership Agreement on Preventive Health. For sedentary behaviour and sugar-sweetened beverage consumption, the modelled targets were consistent with the magnitude of change reported in recent systematic reviews.11, 12
A better PAR method would have considered Pd, the prevalence of exposure in those with the outcome of interest; however, the health surveys used could only be used to calculate Pe. This provides conservative estimates of the cases avoided, because, whenever a risk factor is positively associated with an outcome (as in all our examples), Pe is lower than Pd. This means that all our estimates are lower than they would be if we used the technically more correct Pd.
For multiple health and other outcomes in relation to achieving the HEAL Strategy targets for overweight and obesity, few articles were identified in the peer-reviewed literature. Evidence from meta-analytic and systematic reviews on individual health outcomes was identified from 2012 onwards. For increased fruit and vegetable consumption, 12 systematic reviews were available. With respect to sugar-sweetened beverages, three systematic reviews and meta-analyses of prospective cohorts were used, along with six single-cohort studies. For increased physical activity, 15 systematic reviews of prospective cohorts, and a further 10 with a combination of cohort and case–control studies were used. For reduced sedentary behaviour, four systematic reviews of prospective cohorts and a further three with a combination of cohort and case–control studies were used. For reduced consumption of energy-dense, nutrient-poor food, no systematic reviews or meta-analyses of population studies were identified; evidence on associations of these foods with major health outcomes from single population studies (cohort and case–control studies) was used.
For adults, examples of improved health outcomes from meeting the HEAL Strategy targets and objectives include all-cause mortality, cardiovascular disease, type 2 diabetes, various cancers, osteoarthritis, infant mortality and healthcare costs.3,4,13−28 Benefit areas beyond the health sector include disability payments, workplace absenteeism and productivity, workplace injuries and insurance claims.29,32 For children and adolescents, improved health outcomes from meeting the HEAL Strategy targets and objectives include metabolic risk factors, dental health, prehypertension/hypertension, cardiovascular disease risk factors, improved mental health and reduced depression, mortality rates in hospitalised children, bullying, and otitis media.33 – 38
Data models were premised on hypothetically achievable targets – namely, 5% reduction in obesity, 5% reduction in overweight, 15% relative reduction in insufficient physical activity, 25% relative reduction in sedentary behaviour, 25% relative reduction in sugar-sweetened beverage consumption, 25% reduction in insufficient fruit consumption and 10% reduction in insufficient vegetable consumption. These data models suggest that, every year in NSW, meeting the targets and objectives could prevent at least 37 colorectal cancer cases (through increased physical activity) and at least 366 deaths from all causes (through reduced sedentary behaviour). For coronary heart disease, 351 cases could be prevented through increased vegetable consumption, and 370 cases could be prevented through increased fruit consumption. For type 2 diabetes, meeting the targets and objectives could prevent 510 cases through reduced sugar-sweetened beverage consumption, 466 cases through reduced prevalence of overweight, and 371 cases through reduced prevalence of obesity. The details of these examples are shown in Table 1.
Table 1. Estimated lives saved and diseases prevented every year in NSW by meeting targets in selected scenarios
Exposure variable | Outcome measure | Target reduction in exposure variable prevalence | Current exposure variable prevalence | Relative risk of outcome measure | Population attributable riska | Incidence of outcome measure | Incidence attributable to risk factora | Annual number of outcome events avoided by achieving targeta |
Insufficient physical activity | Colorectal cancer | 15% | 44%7 | 1.14 (relative to adequate physical activity)44 | 5.3% | 4 74445 | 249 | 37 cases |
Insufficient fruit consumption | Coronary heart disease | 25% | 47%7 | 1.15 (relative to sufficient fruit consumption)46 | 16.1% | 24 40647 | 1 479 | 422 cases |
Insufficient vegetable consumption | Coronary heart disease | 10% | 90%7 | 1.19 (relative to sufficient vegetable consumption)46 | 14.4% | 24 40647 | 3 515 | 351 cases |
Sugar-sweetened beverage consumption | Type 2 diabetes | 25% | 29%8 | 1.20 (relative to no consumption)48 | 4.9% | 42 08049 | 2 041 | 510 cases |
Sedentary behaviour (sitting for ≥10 hours per day) | All-cause mortality | 25% | 12%9 | RR of all-cause mortality 1.34 (relative to sitting <7 hours per day, adjusted for physical activity) 50 | 3% | NSW incidence of all-cause deaths (2012):49 314 | 1 464 | 366 deaths |
Overweight | Type 2 diabetes | 5% | Men: 39% Women: 25%7 | Men: 2.40 Women: 3.92 (relative to healthy weight)3 | Men: 22.5% Women: 18.7% | Men: 23 671 Women: 21 36849 | Men: 5 316 Women: 3 995 | Men: 266 cases Women: 200 cases |
Obesity | Type 2 diabetes | 5% | Men: 18% Women: 19%7 | Men: 6.74 Women: 12.41 (relative to healthy weight)3 | Men: 15.7% Women: 17.4% | Men: 23 671 Women: 21 36849 | Men: 3 709 Women: 3 713 | Men: 185 cases Women: 186 cases |
The concept of a comprehensive approach to obesity prevention and control is not new in Australia39 or internationally.1 However, efforts to move from planning to implementation of these comprehensive approaches is a recent phenomenon, now emerging in several countries.2 These approaches are encouraged by the Global Action Plan (GAP) for the prevention and control of noncommunicable diseases 2013−2020, endorsed by the 66th World Health Assembly. The GAP includes nine voluntary global targets, including a 25% relative reduction in premature mortality from cardiovascular diseases, cancer, diabetes or chronic respiratory diseases; and a halt in the rise in diabetes and obesity. The obesity target in GAP is less ambitious than the targets stipulated in the HEAL Strategy (see Box 1). A recent global status report from the World Health Organization states that “obesity and diabetes can be prevented through multisectoral action that simultaneously addresses different sectors that contribute to the production, distribution and marketing of food, while concurrently shaping an environment that facilitates and promotes adequate levels of physical activity”; but the report also concedes that “research is urgently needed to evaluate the effectiveness of interventions to prevent and control obesity” (executive summary, page xiv).1
Our study of the NSW HEAL Strategy 2013–2018 showcases the range of health outcomes that could be influenced by intersectoral strategies. Note that, as a result of the complex relationships between risk factors/conditions and health outcomes, the estimated number of avoided events shown in Table 1 cannot be combined to give total avoided events. Monitoring of these targets will confirm whether comprehensive sector-wide strategies represent a logical and evidence-informed approach to addressing the obesity epidemic. A key challenge is the adequacy and sustainability of strategy implementation. Process evaluation of the extent to which full implementation of proven multisectoral strategies is achieved is therefore a central component of evaluating the HEAL Strategy.
Although we acknowledge its importance, assessing the costs and benefits of comprehensive strategy implementation was beyond this study’s scope. Outputs from studies such as this (and, in the longer term, the accumulated data on intervention effectiveness) can inform economic modelling of the costs and benefits of the strategy, examples of which have been published.40, 41 The explicit evidence of the social and health benefits that are likely to be achieved, as determined in the present study, helps strengthen the case for comprehensive, multisectoral action with respect to healthy eating and active living.
This Australian case study is based on the Evidence Check rapid review methodology with additional selective epidemiological modelling. Our grey literature search for overweight and obesity was limited to articles published in the past 2 years. We also did not use some common systematic review techniques, such as searching the bibliographies of included papers for additional relevant references, because of time constraints. This means that we may have missed some relevant papers. In addition, some health behaviours we explored (as represented in the HEAL Strategy objectives) are less well defined than others in the literature. For example, energy-dense, nutrient-poor foods are described in various ways in the literature, making identification of relevant search terms more challenging. In addition, most of the literature does not centre on food groups as such, but focuses on so-called ‘negative’ nutrients such as salt, saturated fat, and added or total sugars.
In their methodological critique, Flegal and colleagues42 have noted the importance of considering whether the exposure and outcome were defined similarly for PAR and for the relative risks, whether the relative risks were suitable for the population at hand, and whether PAR was calculated using correct methods. Every effort was made to address these considerations in our study within the limitations of the available data. Studies for some of the targets and objective behaviours (exposure variables) did not always clearly define the exposure variable, or failed to delineate between associated behaviours sufficiently (e.g. between physical activity and sedentary behaviours). In some cases, they did not fully account for residual confounding.
Many of the meta-analyses used indicated that the outcome of interest was measured in a variety of ways. Nevertheless, large numbers of meta-analyses involving large numbers of studies and participants indicate considerably increased relative risk across a wide range of morbidities and mortality.
The evidence base for children and adolescents was sparse compared with that for adults, partly because many of the health effects involved are longer term and require study designs to accommodate this. Educational outcomes studies in relation to behavioural changes were limited and represent another area where more extensive research would be valuable.
We used a limited number of databases because of the expansive nature of the literature on obesity and risk factor behaviours; some nonhealth outcomes (e.g. educational outcomes, productivity) may be more extensively described within nonhealth databases that were not accessed in this review. However, the possibility that our research team may have missed some additional potential benefits as a result of these limitations means that the measures of association identified in the review are conservative and may underestimate the cumulative effect of intersectoral action.
These case studies are confined to a few chosen areas, and we have not attempted to describe all the potential benefits that may accrue within the broad scope of the HEAL Strategy. However, these case studies were chosen for their high relative burden of disease in Australia6, which, given the comparatively similar chronic disease profiles in developed nations around the world43, should mean that our results are relevant to other settings. For our epidemiological models, the prevalence estimates for coronary heart disease and type 2 diabetes are the best available but are subject to a degree of uncertainty. The targeted changes for fruit and vegetable consumption, sugar-sweetened beverage consumption, and sitting time are ambitious, although we believe they are feasible over the longer term. Nonetheless, achieving sustained behaviour change in populations is challenging, and the avoided morbidity and mortality calculated for these objectives should be viewed with caution.
Obesity prevalence may be reduced through multisectoral action in food production, distribution and marketing, while concurrently shaping an environment that facilitates and promotes sufficient physical activity. A review of evidence and our epidemiological modelling suggest that successful implementation of comprehensive sector-wide strategies targeting overweight and obesity could prevent a large number of chronic disease cases and deaths. Some notable outcomes beyond the traditional health sector boundaries (disability payments, absenteeism, worker productivity, workplace injuries, insurance claims) were also identified in our review, but more extensive confirmatory research is required. Sector-wide health, social and economic benefits from successful implementation of these comprehensive strategies are likely to be substantial if specified targets are achieved. This paper provides an example of modelling that can provide estimates of potential lives saved and diseases prevented through strategy implementation; these estimates are illustrative rather than definitive, but nonetheless compelling. Evaluation of the extent to which full implementation of proven multisectoral strategies is achieved and their potential benefits are realised is now a global priority.
This research was supported by the Australian Prevention Partnership Centre through the National Health and Medical Research Council (NHMRC) Partnership Centre grant scheme (grant ID: GNT9100001) with the Australian Government Department of Health, the NSW Ministry of Health, ACT Health, HCF and the HCF Research Foundation.
Copyright:
© 2015 Kite et al. This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International Licence, which allows others to redistribute, adapt and share this work non-commercially provided they attribute the work and any adapted version of it is distributed under the same Creative Commons licence terms.