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Monash University: Ultra-processed foods associated with faster biological ageing

Eating too much ultra-processed food could speed up the biological ageing process, Monash University-led research has found.


Published in the journal Age and Ageing, the study showed an association between increased  consumption of ultra-processed foods (UPF) and biological ageing. For every 10 per cent increase in UPF consumption, the gap between biological and chronological age rose by 2.4-months.


UPFs include foods such as chips, carbonated drinks, instant noodles, ice cream, chocolate, biscuits, ready-to-eat meals, sausages, burgers, chicken and fish nuggets, sweet or savoury packaged snacks and energy bars.


The cross-sectional study assessed data involving 16,055 people from the US aged 20-79, whose health and lifestyles were comparable to those in other western countries such as Australia.


First author Dr Barbara Cardoso, from Monash University’s Department of Nutrition, Dietetics and Food and Monash Victorian Heart Institute, said the findings underlined the importance of eating as many unprocessed and minimally processed foods as possible.

Dr Cardoso said the association between UPFs and markers of biological ageing was under-investigated, despite the obvious adverse health effects of these foods.


“The significance of our findings is tremendous, as our predictions show that for every 10 per cent increase in ultra-processed food consumption there is a nearly two per cent increased risk of mortality and 0.5 per cent risk of incident chronic disease over two years,” she said


“Assuming a standard diet of 2,000 calories (8500 kilojoules) per day, adding an extra 200 calories of ultra-processed food, which roughly equals an 80-gram serving of chicken bites or a small chocolate bar, could lead to the biological ageing process advancing by more than two months compared to chronological ageing.”


The study  used data from the US National Health and Nutrition Examination Survey (NHANES) 2003-2010.Diet quality was assessed with the American Heart Association (AHA) 2020 and the Healthy Eating Index 2015 (HEI-15). Biological ageing was assessed using the PhenoAge algorithm.


For each 10 per cent of energy intake by UPFs, participants were 0.21 years biologically older. Compared to participants in the lowest UPF quintile (39 per cent or less of their diet was UPF), those in the highest UPF quintile (68–100 per cent of their diet was UPF) were 0.86 biologically years older.


The association between UPF intake and biological ageing remained significant after adjusting for diet quality and total energy intake.


This suggested the association could be due to other factors such as lower intake of flavonoids or phytoestrogens, which occur in natural foods such as fresh fruit and vegetables, or higher exposure to packaging chemicals and compounds formed during food processing.


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