A young adult in the U.S. could add more than a decade to their life expectancy by changing their diet from a typical Western diet to an optimized diet that includes more legumes, whole grains and nuts, and less red and processed meat, according to a new study. For older people, the anticipated gains to life expectancy from such dietary changes would be smaller but still substantial.
Food is fundamental for health and, globally, dietary risk factors are estimated to lead to 11 million deaths and 255 million disability-adjusted life-years annually.
In the new study, researchers used existing meta-analyses and data from the Global Burden of Diseases study to build a model that enables the instant estimation of the effect on life expectancy of a range of dietary changes. The model is also now available as a publicly available online tool called the Food4HealthyLife calculator.
For young adults in the United States, the model estimates that a sustained change from a typical Western diet to the optimal diet beginning at age 20 would increase life expectancy by more than a decade for women (10.7 years) and men (13.0 years).
The largest gains in years of LE would be made by eating:
- More legumes (females: +2.2 years; males: +2.5 years)
- More whole grains (females: +2.0 years; males: +2.3 years)
- More nuts (females: +1.7 years; males: +2.0 years)
- Less red meat (females: +1.6 years; males: +1.9 years)
- Less processed meat (females: +1.6 years; males: +1.9 years)
Changing from a typical diet to the optimized diet at age 60 years could still increase life expectancy by 8.0 years for women and 8.8 years for men, and 80-year-olds could gain 3.4 years from such dietary changes.
“Understanding the relative health potential of different food groups could enable people to make feasible and significant health gains,” the authors say. “The Food4HealthyLife calculator could be a useful tool for clinicians, policy makers, and lay-people to understand the health impact of dietary choices.”
Fadnes adds, “Research until now have shown health benefits associated with separate food group or specific diet patterns but given limited information on the health impact of other diet changes. Our modeling methodology has bridged this gap.”
Source: Lars T. Fadnes, Jan-Magnus Økland, Øystein A. Haaland, Kjell Arne Johansson. Estimating impact of food choices on life expectancy: A modeling study. PLOS Medicine, 2022; 19 (2): e1003889 DOI: 10.1371/journal.pmed.1003889
