Eating more unsaturated fats, especially polyunsaturated fats, in place of either dietary carbohydrate or saturated fats lowers blood sugar levels and improves insulin resistance and secretion, according to a new study.
The meta analysis of 102 trials involving 4660 people, led by Tufts University and the University of Cambridge and supported by The George Institute for Global Health, provides novel quantitative evidence for the effects of dietary fats and carbohydrate on the regulation of glucose and insulin levels and several other metrics linked to type 2 diabetes.
The results were published in PLOS Medicine on July 19.
Rates of insulin resistance and type 2 diabetes are rising sharply worldwide, highlighting the need for new, evidence-based preventive strategies. While a healthy diet is clearly a cornerstone of such efforts, the effects of different dietary fats and carbohydrate on metabolic health have been controversial, leading to confusion about specific dietary guidelines and priorities.
Senior author Dr Dariush Mozaffarian, from Tufts University, said: “The world faces an epidemic of insulin resistance and diabetes. Our findings support preventing and treating these diseases by eating more fat-rich foods like walnuts, sunflower seeds, soybeans, flaxseed, fish, and other vegetable oils and spreads, in place of refined grains, starches, sugars, and animal fats.”
“This is a positive message for the public,” he added. “Don’t fear healthy fats.”
The study was the first systematic evaluation of all available evidence from trials to quantify the effects of different types of dietary fat (saturated, monounsaturated and polyunsaturated) and carbohydrate on key biological markers of glucose and insulin control that are linked to development of type 2 diabetes.
The team identified and summarized findings from 102 randomised controlled trials, involving a total of 4,660 adult participants, which provided meals that varied in the types and amounts of fat and carbohydrate. The team then evaluated how such variations in diet affected measures of metabolic health, including blood sugar, blood insulin, insulin resistance and sensitivity, and ability to produce insulin in response to blood sugar.
The researchers found that exchanging dietary carbohydrate or saturated fat with a diet rich in monounsaturated fat or polyunsaturated fat had a beneficial effect on key markers of blood glucose control. For example, for each five percent of dietary energy switched from carbohydrates or saturated fats to mono- or polyunsaturated fats, there is an approximately 0.1 percent reduction in HbA1c, a blood marker of long-term glucose control. The authors note that based on prior research, each 0.1 percent reduction in HbA1c is estimated to reduce the incidence of type 2 diabetes by 22 percent and cardiovascular diseases by 6.8 percent.
“Among different fats, the most consistent benefits were seen for increasing polyunsaturated fats, in place of either carbohydrates or saturated fat,” said Dr Fumiaki Imamura, Ph.D., at the Medical Research Council (MRC), University of Cambridge, who is first author on the study.
Dr Jason Wu, from The George Institute, a co-author of the study, said: “Our results suggest that increasing consumption of unsaturated fats (e.g. from vegetable oils, avocados, and nuts) in place of either saturated fats or highly refined grains and sugars will help improve glucose control, and therefore likely helps to reduce the risk of type 2 diabetes.”
Given the current global pandemic of type 2 diabetes, the authors hope that these findings will help inform scientists, clinicians, and the public on dietary priorities related to dietary fats and carbohydrates and metabolic health.
“Until now, our understanding of how dietary fats and carbohydrate influence glucose, insulin, and related risk factors has been based on individual studies with inconsistent findings,” Imamura said. “By combining results from more than 100 trials, we provide the strongest evidence to-date on how major nutrients alter these risks.”
Source: George Institute