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BACKGROUND: Quantifying the potential health benefits of improvements in the nutritional quality of the average diet of a population would provide evidence for resource allocation between population-level interventions aimed at reducing chronic disease. METHODS: A model was built linking consumption of food components with biological risk factors (blood pressure, serum cholesterol and obesity) and subsequent mortality from coronary heart disease, stroke and cancer. Meta-analyses of individual-level studies that quantified the RR of increased consumption/increased risk factor level on disease outcomes were used to build the model. The sensitivity of the model to the results from the meta-analyses was assessed with Monte Carlo simulations. Country-specific estimates of current nutrient intake compared against dietary recommendations for the UK were used to demonstrate the model. RESULTS: Approximately 33 000 deaths per year would be avoided if UK dietary recommendations were met. The modelled reduction in deaths for coronary heart disease was 20 800 (95% credible interval 17 845-24 069), for stroke 5876 (3856-7364) and for cancer 6481 (4487-8353). Over 15 000 of the avoided deaths would be due to increased consumption of fruit and vegetables. CONCLUSIONS: The developed model estimates the impact of population-level dietary changes and is robust. Achieving UK dietary recommendations for fruit and vegetable consumption (five portions a day) would result in substantial health benefits-equivalent benefits would be achieved if salt intakes were lowered to 3.5 g per day or saturated fat intakes were lowered to 3% of total energy.

Original publication

DOI

10.1136/jech.2010.114520

Type

Journal article

Journal

Journal of epidemiology and community health

Publication Date

05/2012

Volume

66

Pages

420 - 426

Addresses

Department of Public Health, British Heart Foundation Health Promotion Research Group, University of Oxford, Oxford, UK. peter.scarborough@dphpc.ox.ac.uk

Keywords

Humans, Neoplasms, Cardiovascular Diseases, Diet, Models, Biological, United States