Millet-based diet can lower risk of type 2 diabetes and help manage blood glucose levels


Millet-based diet can lower risk of type 2 diabetes and help manage blood glucose levels
Credit: University of Reading

A new study has shown that eating millets can reduce the risk of developing type 2 diabetes and helps manage blood glucose levels in people with diabetes, indicating the potential to design appropriate meals with millets for diabetic and pre-diabetic people as well as for non-diabetic people as a preventive approach.

Drawing on research from 11 countries, the study published in Frontiers in Nutrition shows that diabetic people who consumed millet as part of their daily diet saw their blood glucose levels drop 12–15% (fasting and post-meal), and blood glucose levels went from diabetic to pre-diabetes levels. The HbA1c (blood glucose bound to hemoglobin) levels lowered on average 17% for pre-diabetic individuals, and the levels went from pre-diabetic to normal status. These findings affirm that eating millets can lead to a better glycemic response.

The authors reviewed 80 published studies on humans of which 65 were eligible for a meta-analysis involving about 1,000 human subjects, making this analysis the largest systematic review on the topic to date.

Dr. S. Anitha, the study's lead author and a Senior Nutrition Scientist at ICRISAT said:

"No one knew there were so many scientific studies undertaken on millets' effect on diabetes and these benefits were often contested. This systematic review of the studies published in scientific journals has proven that millets can keep blood glucose levels in check and reduce the risk of diabetes. It has also shown just how well these smart foods do it."

Millets, including sorghum, were consumed as staple cereals in many parts of the world until half a century ago. Investments in a few crops such as rice, wheat and maize, have edged nutritious and climate-smart crops like millets out of the plate.

Professor Ian Givens, a co-author of the study and Director at University of Reading's Institute of Food, Nutrition and Health (IFNH) said:

"Awareness of this ancient grain is just starting to spread globally, and our review shows millets having a promising role in managing and preventing type 2 diabetes. In the largest review and analysis of research into different types of millet compared to other grains such as refined rice, maize and wheat we found that millets outperform their comparison crops with lower GI and lower blood glucose levels in participants."

According to the International Diabetes Association, diabetes is increasing in all regions of the world. India, China and the U.S. have the highest numbers of people with diabetes. Africa has the largest forecasted increase of 143% from 2019 to 2045, the Middle East and North Africa 96% and South East Asia 74%. The authors urge the diversification of staples with millets to keep diabetes in check, especially across Asia and Africa.

Strengthening the case for reintroducing millets as staples, the study found that millets have a low average glycemic index (GI) of 52.7, about 36% lower GI than milled rice and refined wheat, and about 14-37 GI points lower compared to maize. All 11 types of millets studied could be defined as either low (<55)>

Dr. Jacqueline Hughes, Director General, ICRISAT said:

"The global health crisis of undernutrition and over-nutrition coexisting is a sign that our food systems need fixing. Greater diversity both on-farm and on-plate is the key to transforming food systems. On-farm diversity is a risk mitigating strategy for farmers in the face of climate change while on-plate diversity helps counter lifestyle diseases such as diabetes. Millets are part of the solution to mitigate the challenges associated with malnutrition, human health, natural resource degradation, and climate change. Trans-disciplinary research involving multiple stakeholders is required to create resilient, sustainable and nutritious food systems."

Professor Paul Inman, pro-vice-chancellor (international) of the University of Reading, said:

"The rapidly accelerating threats of climate change and global health crises, including obesity and diabetes, require everyone to pull together in action. The partnership between ICRISAT and the University of Reading is doing exactly this, bringing together our world leading expertise in human nutrition with ICRISAT's long established role as a leader in agricultural research for rural development."

The study also identified information gaps and highlighted a need for collaborations to have one major diabetes study covering all types of millets and all major ways of processing with consistent testing methodologies. Structured comprehensive information will be highly valuable globally, taking the scientific knowledge in this area to the highest level.

Ms. Joanna Kane-Potaka, a co-author from ICRISAT and executive director of the Smart Food initiative said:

"This study is first in a series of studies that has been worked on for the last four years as a part of the Smart Food initiative led by ICRISAT that will be progressively released in 2021. Included are systematic reviews with meta-analyses of the impacts of millets on: diabetes, anemia and iron requirements, cholesterol and cardiovascular diseases and calcium deficiencies as well as a review on zinc levels. As part of this, ICRISAT and the Institute for Food Nutrition and Health at the University of Reading have formed a strategic partnership to research and promote the Smart Food vision of making our diets healthier, more sustainable on the environment and good for those who produce it."

More information: Seetha Anitha et al, A Systematic Review and Meta-Analysis of the Potential of Millets for Managing and Reducing the Risk of Developing Diabetes Mellitus, Frontiers in Nutrition (2021). DOI: 10.3389/fnut.2021.687428
Citation: Millet-based diet can lower risk of type 2 diabetes and help manage blood glucose levels (2021, July 29) retrieved 30 July 2021 from https://medicalxpress.com/news/2021-07-millet-based-diet-diabetes-blood-glucose.html
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