News Release

Mediterranean diet tied to 30 percent risk reduction for diabetes in Women's Health Study

Investigators reported changes in biomarkers of insulin resistance, body mass index, lipoprotein metabolism and inflammation -- mechanisms that may explain lower rates of type 2 diabetes

Peer-Reviewed Publication

Brigham and Women's Hospital

The Mediterranean (MED) diet -- rich in olive oil, fruits, vegetables, legumes, nuts and seeds -- is a recommended way to reduce the risk of heart disease, type 2 diabetes and other adverse health outcomes. But exactly how and why the MED diet lowers risk for type 2 diabetes has remained unclear. In a study conducted by investigators from Brigham and Women's Hospital, researchers examined outcomes for more than 25,000 participants in the Women's Health Study, a longitudinal cohort study that followed female health professionals for more than 20 years. In a paper published in JAMA Network Open, the investigators report that women who adhered to a more MED-like diet had a 30 percent lower rate of type 2 diabetes than women who did not. The team examined several biomarkers to look for biological explanations for these results, finding key mechanisms including insulin resistance, body mass index, lipoprotein metabolism and inflammation.

"Our findings support the idea that by improving their diet, people can improve their future risk of type 2 diabetes, particularly if they are overweight or have obesity," said corresponding author Samia Mora, MD, MHS, of the Brigham's divisions of Preventive Medicine and Cardiovascular Medicine and an associate professor at Harvard Medical School. "A lot of the benefit we see can be explained through just a few pathways. And it's important to note that many of these changes don't happen right away -- while metabolism can change over a short period of time, our study indicates that there are longer term changes happening that may provide protection over decades."

The Women's Health Study (WHS) enrolled female health care professionals between 1992 and 1995, collecting data through December 2017. It was designed to evaluate the effects of vitamin E and low-dose aspirin on risk of heart disease and cancer. Additionally, participants were asked to complete food frequency questionnaires (FFQs) about dietary intake when the study began and answer other questions about lifestyle, medical history, demographics and more. More than 28,000 women provided blood samples at the beginning of the trial.

Mora and colleagues leveraged data from the FFQs and blood samples to investigate the relationship between the MED diet, type 2 diabetes and biomarkers that might explain the connection. To do so, they assigned each participant a MED diet intake score from 0 to 9, with points assigned for higher intake of fruits, vegetables, whole grains, legumes, nuts and fish, moderate intake of alcohol, and lower intake red meat or processed meat. The team measured a range of biomarkers, including traditional ones such as cholesterol, and more specialized ones that can only be detected using nucleic magnetic resonance. These included lipoproteins -- molecules that pack and transport fats and proteins -- and measures of insulin resistance, a condition in which muscle, liver and fat cells do not respond to normal amounts of insulin. Insulin resistance is often a precursor to diabetes.

Of the more than 25,000 participants in the WHS, 2,307 developed type 2 diabetes. Participants with higher MED intake at the beginning of the study (scores greater than or equal to 6) developed diabetes at rates that were 30 percent lower than participants with lower MED intake (scores less than or equal to 3). This effect was seen only among participants with a body mass index greater than 25 (overweight or obese range) and not among participants whose BMI was less than 25 (normal or underweight).

Biomarkers of insulin resistance appeared to be the biggest contributor to lower risk, followed by biomarkers of body mass index, high-density lipoprotein measures and inflammation.

"Most of this reduced risk associated with the Mediterranean diet and type 2 diabetes was explained through the biomarkers related to insulin resistance, adiposity, lipoprotein metabolism and inflammation," said first author Shafqat Ahmad, PhD, a researcher in the Molecular Epidemiology Unit at Uppsala University, Sweden, who helped conduct the study while working at the Brigham. "This understanding may have important downstream consequences for the primary prevention of diabetes disease."

One of the strengths of the study was its length -- unlike many previous studies that have only looked at short-term effects of diets, the WHS followed participants for up to 25 years to see who developed type 2 diabetes. But the authors note several limitations, including that study participants were predominantly white and well educated, and all were female health professionals. In addition, dietary intake was self-reported and only examined at the start of the study. Biomarkers were also only measured when participants entered the study.

Mora emphasizes that insights into the biology that explains how the Mediterranean diet may help protect against diabetes could be helpful in preventive medicine and for physicians speaking to patients about dietary changes.

"Even small changes can add up over time," she said. "And there may be many biological pathways that lead to a benefit. One of the best things patients can do for future health is to improve their diet, and now we are beginning to understand why."

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The Women's Health Study is supported by the National Institutes of Health (grants HL080467, HL099355, CA047988, HL043851, and UM1 CA182913). Ahmad was supported through a fellowship from Swedish Heart-Lung Foundation and Henning och Johan Throne-Holst Stiftelse as well as research support from Swedish Heart-Lung Foundation (20170988), Kungl Vetenskapssamh Sweden, and EFSD/Novo Nordisk. The study was also supported by grants from the National Institutes of Health (HL118264, HL60712 and DK112940, R01 CA138962, R01 HL034594, U01 HL145386, and HHSN268201100001C) the National Heart, Lung, and Blood Institute (K01HL135342-02, R01HL134811, R01HL117861, and K24 HL136852), National Institute of Diabetes and Digestive and Kidney Diseases (grant DK112940), the American Heart Association (grant 0670007N), and the Molino Family Trust. A co-author is listed as a coinventor on patents held by Brigham and Women's Hospital related to the use of inflammatory biomarkers in cardiovascular disease (licensed to AstraZeneca and Siemens). Mora had a patent to use glycoprotein acetylation (a biomarker used in the study) in relation to colorectal cancer risk issued.

Paper cited:
Ahmad F et al. "Association of the Mediterranean Diet With Onset of Diabetes in the Women's Health Study" JAMA Network Open DOI: 10.1001/jamanetworkopen.2020.25466

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