Regular Millet consumption may improve iron deficiency Anemia, finds study
The prevalence of iron deficiency anemia is highest among low and middle-income countries where Millets, including sorghum, rich in iron are a traditional staple diet. A wide variation in the iron composition of millets has been reported, which needs to be understood in consonance with its bioavailability and roles in reducing anemia.Regular consumption of millets can improve hemoglobin and...
The prevalence of iron deficiency anemia is highest among low and middle-income countries where Millets, including sorghum, rich in iron are a traditional staple diet. A wide variation in the iron composition of millets has been reported, which needs to be understood in consonance with its bioavailability and roles in reducing anemia.
Regular consumption of millets can improve hemoglobin and serum ferritin levels to reduce iron deficiency anemia, finds a new study.
The researchers found that millets increased hemoglobin levels by as much as 13.2%. Four studies in the review also showed serum ferritin increasing by an average of 54.7%. Ferritin is an iron containing protein in the blood and is a clinical marker for iron deficiency.
The meta-analysis has been published in Frontiers in Nutrition.
A meta-analysis of 22 studies on humans and eight laboratory studies on millets consumption and anemia, was undertaken by seven organizations across four countries and was led by the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT).
"The study concluded that millets can provide all or most of the daily dietary iron requirements of an average person. Although the amount of iron provided depends on the millet variety and its form of processing, the research clearly shows that millets can play a promising role in preventing and reducing high levels of iron deficiency anemia," highlighted Dr S Anitha, the study's lead author and Senior Nutritionist at ICRISAT.
The studies in the analysis involved nearly 1,000 children, adolescents and adults, and six different millet types – finger millet, pearl millet, sorghum and a mixture of kodo, foxtail and little millets. The participants in the studies were found to have consumed millets for anywhere between 21 days and 4.5 years. The findings were published on 14 October in Frontiers in Nutrition.
"1.74 billion people were anemic in 2019. That number is rising," said Dr Jacqueline Hughes, Director General, ICRISAT. "It has been proven that iron deficiency anemia affects cognitive and physical development in children and reduces productivity in adults. The need for a solution is critical, and therefore bringing millets into mainstream and government programs is highly recommended."
"Now that there is strong evidence of the value of millets in reducing or preventing iron deficiency anemia, it is recommended that one major research study be undertaken on anemia covering all the different types of millet, common varieties and all major forms of processing and cooking, using a uniform testing methodology. This will provide the detail required for designing interventions needed to have a major impact on reducing anemia globally," said Professor Ian Givens, a co-author of the study and Director at University of Reading's Institute of Food, Nutrition and Health (IFNH) in the UK.
"It has often been claimed that iron in millets is not highly bioavailable due to the supposed high levels of antinutrients. Our analysis proves this is a myth. Instead, millets were found to be comparable to typical iron bioavailability percentages for plants. Also, the levels of antinutrients in millets were identified to be similar or lower than common staples," said Ms. Joanna Kane-Potaka, former Assistant Director General, ICRISAT, and Executive Director of the Smart Food initiative who is a co-author of the study.
The research also showed that processing can significantly increase the amount of iron bioavailable. For example, millet snacks made by expansion (extrusion) increased bioavailable iron 5.4 times, while fermentation, popping and malting more than tripled the iron bioavailable. Germination (sprouting) and decortication (dehulling) more than doubled the bioavailable iron.
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Dr Kartikeya Kohli is an Internal Medicine Consultant at Sitaram Bhartia Hospital in Delhi with super speciality training in Nephrology. He has worked with various eminent hospitals like Indraprastha Apollo Hospital, Sir Gangaram Hospital. He holds an MBBS from Kasturba Medical College Manipal, DNB Internal Medicine, Post Graduate Diploma in Clinical Research and Business Development, Fellow DNB Nephrology, MRCP and ECFMG Certification. He has been closely associated with India Medical Association South Delhi Branch and Delhi Medical Association and has been organising continuing medical education programs on their behalf from time to time. Further he has been contributing medical articles for their newsletters as well. He is also associated with electronic media and TV for conduction and presentation of health programs. He has been associated with Medical Dialogues for last 3 years and contributing articles on regular basis.