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Enriched flour is flour with specific nutrients returned to it that have been lost while being prepared. These restored nutrients include iron and B vitamins (folic acid, riboflavin, niacin, and thiamine). Calcium may also be supplemented. The purpose of enriching flour is to replenish the nutrients in the flour to match the nutritional status of the unrefined product. This differentiates enrichment from fortification, which is the process of introducing new nutrients to a food.
White flour became adopted in many cultures because it was recognized as being healthier than dark flours during the late Middle Ages. The unknown factor for its benefit at that time was that mold and fungus in the grains, which led to several diseases, were eliminated in the processing that resulted in white flour.
In the 1920s, Benjamin R. Jacobs began to document the loss of essential nutrients, however, through this processing of cereals and grains and to demonstrate a method by which the end products could be enriched with the lost nutrients. These nutrients promote good health and help to prevent some diseases. It is because of these benefits that enriched flour is so prevalent today,[original research?] despite there being no Food and Drug Administration (FDA) regulations requiring their use.
The international effort to start enriching flour was launched during the 1940s as a means to improve the health of the wartime populations of the British and United States while food was being rationed and alternative sources of the nutrients were scarce.[clarification needed] The decision to choose flour for enrichment was based on its commonality in the diets of those wartime populations, ranging from the rich to the poor. A major factor in the switch to enriched flour in the United States was the U.S. Army's restriction in 1942, that it would purchase only enriched flour.
The conversion of grains to flour involves several steps that vary with the type of grain used. The initial stages of processing remove the bran and the germ of the seed. The bran is the outermost layer of grains that contains fiber (primarily insoluble), some protein, and trace minerals. The germ is the embryo of the seed that contains B vitamins and trace minerals. Because the germ has a fat content of 10%, it may reduce shelf-life. Thus, it is separated to ensure longer shelf life of the flour. In contrast to enriched flour, whole wheat flour contains both the bran and the germ. The remaining and largest portion of the seed is the endosperm. It acts as a nutrient reservoir for the developing embryo. The endosperm contains a large amount of carbohydrates, protein, iron, B vitamins (niacin and riboflavin), and soluble fiber.
Once the endosperm is isolated, it is ground into a fine powder and sifted to remove any remaining fragments of bran or germ. The final flour product contains a smaller portion of the original nutrients that were present in the seed prior to processing. Enrichment ensures that these important nutrients are restored to improve the quality of the flour.
According to the FDA, a pound of enriched flour must have the following quantities of nutrients to qualify: 2.9 milligrams of thiamin, 1.8 milligrams of riboflavin, 24 milligrams of niacin, 0.7 milligrams of folic acid, and 20 milligrams of iron. The first four nutrients are B vitamins. Calcium also may be added at a minimum of 960 milligrams per pound.
There has been a lot of controversy regarding the benefits of enriched flour in relation to those of whole-wheat flour. Although enriched flour does contain the similar amounts of vitamins as the unrefined flour products, it does not have the same nutritional benefits of whole-wheat flour. One of the most significant differences is the amount of fiber. During the production of white enriched flour, a lot of the fiber-containing components (the bran and germ) are reduced or removed. Thus, products made from this type of flour contain smaller amounts of fiber than those made with whole-wheat flour. Another concern is the effect on blood sugar levels. Enriched flour products tend to be higher on the Glycemic Index, quickly raising blood sugar levels. In contrast, foods made from whole grains tend to be lower on the Glycemic Index. Because they contain higher amounts of fiber and other complex carbohydrates, they take longer to digest; therefore, sugars enter the bloodstream in a slow and more controlled manner. A diet containing primarily low Glycemic Index foods has been related to many health benefits: reduced cholesterol levels, reduced risk of heart disease, and healthy weight loss.
Low Glycemic Index is not due to fibre but more likely starch structure. Grinding wheat to a fine powder(flour) breaks structure creating a higher GI. Wholemeal bread differs little from white bread. Grainy breads containing fragments of bread have a lower GI due to the fragments. Semolina is lower GI than flour. Rolled Oats higher GI than steel cut higher than Oat groats.