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The Impact of Cocoa Processing on Flavanol Content Absorption and Health Effects
Reference
BB/G005702/1
Principal Investigator / Supervisor
Professor Jeremy Spencer
Co-Investigators /
Co-Supervisors
Professor Glenn Gibson
,
Professor Donald Mottram
Institution
University of Reading
Department
Food and Nutritional Sciences
Funding type
Research
Value (£)
319,463
Status
Completed
Type
Research Grant
Start date
01/10/2008
End date
30/09/2011
Duration
36 months
Abstract
Dietary derived flavanols have been shown to reduce cardiovascular risk. These beneficial effects have been attributed to their absorption and actions on the vascular endothelium. However, food processing alters the flavanol content of foods due to interactions with Maillard reaction products, formed primarily during heating. This proposal is designed to unravel the significance of these reactions for the beneficial vascular effects of flavanol-rich foods. We will determine which flavanol-Maillard conjugates are generated from native flavanols and carbohydrate precursors under heat processing [150C; 30min or 120C; 5min], using state-of-the-art analytical analysis to characterise products, including specially developed HPLC protocols and LC-MS/MS. Major flavanol-Maillard derivatives identified will be synthesised. To assess human absorption and vascular function we will perform randomised, double blind, triple cross-over human intervention studies. These will use analytically well characterised foods: 1) standard high-flavanol, 2) heat processed high-flavanol; and 3) a low-flavanol. Blood samples will be collected at 0, 0.5, 1, 2 and 4 hr and flavanols and/or flavanol-Maillard conjugates will be measured by HPLC. Vascular function will be measured using state-of-the-art Laser Doppler imaging with iontophoresis. We will also investigate the absorption of individual flavanol-Maillard conjugates in cellular models of the human small intestine. The extent to which flavanol-Maillard conjugates are metabolised in the large intestine and their effects on the microflora will be performed using HPLC and fluorescent in situ hybridisation (FISH) with molecular probes targeting 16S rRNA, respectively. Finally the cellular activity of flavanol-Maillard conjugates will be assessed (using Western immunoblotting), in terms of their ability to: 1) inhibit the growth of colon adenocarcinoma cells and 2) to increase endothelial nitric oxide production by eNOS activation.
Summary
Representing one of the most important lifestyle factors, diet can strongly influence the incidence of cardiovascular disease and thus a healthy diet is crucial for healthy ageing. Recent dietary intervention studies, in particular those using wine, tea and cocoa, have demonstrated beneficial effects on reducing cardiovascular disease risk, including an ability to lower blood pressure and to prevent blood vessel ageing. While such foods and beverages differ greatly in chemical composition, nutrient content and calories per serving, they have in common that they are amongst the major dietary sources of a group of plant compounds known as flavanols. The beneficial effects of flavanols have been attributed to their potential to be absorbed into the blood and to exert direct actions on blood vessels. Whilst flavanol-rich foods can be regarded as being protective against cardiovascular disease, the content of active flavanols is significantly reduced during industrial processing. This is because during heating and storage, the flavanols react with to varying degrees with sugars to form new products known as flavanol-Maillard conjugates. At present, information regarding the absorption of these new conjugates and whether they possess similar beneficial properties to native flavanols is lacking. This proposal is designed to address these questions and to unravel the significance of industrial food processing on their inherent health properties. On completion of the proposal, we will be in an excellent position to advise manufacturers of flavanol-rich foods on the best processing conditions required to produce foods with optimum beneficial cardiovascular effects. Building on existing human work conducted in our laboratory, this multidisciplinary study is designed to: 1) investigate the formation of flavanol-Maillard products during the processing of a common flavanol-rich food, namely cocoa; 2) determine the fate of these compounds in the human stomach, small intestine and large intestine; and 3) assess their ability to exert beneficial effects human cells. The first objective will inform us of the major flavanol-Maillard conjugates formed in the flavanol-rich foods during the processing, in this case heating of the cocoa beans during roasting. Although we will study cocoa, heat processing is relevant to many other flavanol rich-foods and therefore will have wider relevance. Secondly, we will examine the absorption of these conjugates, along with native flavanols by feeding processed cocoa to human and measuring them in blood. This will tell us whether heat processing reduces the absorption of native flavanols and also whether the flavanol-Maillard conjugates are absorbed by humans. We will also investigate their metabolism in the large intestine and whether they have a beneficial effect on the balance of the gut microflora, akin to changes seen with pre-biotic functional foods. Lastly, we will examine the beneficial effects of the conjugates in cellular models of human colon cancer and cardiovascular disease using state-of-the-art molecular techniques. We predict that this proposal will help determine the optimum industrial processing conditions required to generate flavanol-rich foods capable of exerting the strongest cardiovascular protection. It will inform both industry and the consumer and will help us develop future strategies to maximise flavanols in our foods. The proposal will broaden understanding of the role that diet plays in the prevention of cardiovascular disease and will help provide evidence for new and promising dietary strategies for tackling cardiovascular disease. The results of this study therefore have important implications for an ageing population where an improvement in healthy ageing is greatly desired. Moreover, the potential benefits in terms of quality of life are relevant to the population as a whole, as are the potential savings in health care costs.
Committee
Closed Committee - Agri-food (AF)
Research Topics
Diet and Health, Microbiology
Research Priority
X – Research Priority information not available
Research Initiative
Diet and Health Research Industry Club (DRINC) [2008-2014]
Funding Scheme
X – not Funded via a specific Funding Scheme
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