Breads Made With Triticum Heritage Varieties: effect on Post-prandial Glycemia and Insulinemia

Cereal grain based products constitute a major part of the daily diet, and wheat is the most important crop for humans representing a source of multiple nutrients, dietary fiber and bioactive compounds, especially if consumed as wholegrain. Depending on its physical and chemicals properties, such as structure of grains, granular size of semolina, quantity and quality of fiber and phytochemicals, amylose/amylopectin ratio, wheat may vehicle protective effects on human health. After the Green Revolution, most of wheat species grown are hybrids, which derive from ancient wheat over the last 100 to 150 years. The main results of this revolution were the development of modern varieties characterized by higher yield, a reduced susceptibility to disease and insects, an increase tolerance to environmental stresses, a homogeneous maturation and a better gluten quality, compared to ancient wheat. At the same time, a decrease in genetic variability as well as a gradual depletion of the nutritional and nutraceutical properties of the wheat occurred. However, over the last years, the increase of diet‐related chronic disease led to the nutritional improvement of wheat for ameliorating its health potential. Nowadays, the higher value of whole grains than refined grains is recognized, while the nutritional effects of ancient versus modern grains is still controversial. Generally, ancient species are higher in vitamins, such as folate, niacin and vitamin B6, as well as in minerals such as calcium, iron, magnesium and phosphor compared to modern species, however evidence linked to their real health in vivo effects is still lacking. Therefore, the aim of the present study is to evaluate the nutritional profile of eight breads made with ancient (Triticum heritage varieties) or modern grains on the plasma response of glucose and insulin.