1 resultado para Thermal and photochemical transformations

em Universita di Parma


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In the last decades, increasing scientific evidence has correlated the regular consumption of (poly)phenol-rich foods to a potential reduction of chronic disease incidence and mortality. However, epidemiological evidence on the role of (poly)phenol intake against the risk of some chronic diseases is promising, but not conclusive. In this framework a proper approach to (poly)phenol research is requested, using a step by step strategy. The plant kingdom produces an overwhelming array of structurally diverse secondary metabolites, among which flavonoids and related phenolic and (poly)phenolic compounds constitute one of the most numerous and widely distributed group of natural products. To date, more than 8000 structures have been classified as members of the phytochemical class of (poly)phenol, and among them over 4000 flavonoids have been identified. For this reason, a detailed food (poly)phenolic characterization is essential to identify the compounds that will likely enter the human body upon consumption, to predict the metabolites that will be generated and to unravel the potential effects of phenolic rich food sources on human health. In the first part of this work the attention was focused on the phenolic characterization of fruit and vegetable supplements, considering the increasing attention recently addressed to the so called "nutraceuticals", and on the main coffee industry by-product, namely coffee silverskin. The interest oriented toward (poly)phenols is then extended to their metabolism within the human body, paramount in the framework of their putative health promoting effects. Like all nutrients and non-nutrients, once introduced through the diet, (poly)phenols are subjected to an intense metabolism, able to convert the native compounds into similar conjugated, as well as smaller and deeply modified molecules, which in turn could be further conjugated. Although great strides have been made in the last decades, some steps of the (poly)phenol metabolism remain unclear and are interesting points of research. In the second part of this work the research was focused on a specific bran fraction, namely aleurone, added in feed pellets and in bread to investigate the absorption, metabolism and bioavailability of its phenolic compounds in animal and humans, with a preliminary in vitro step to determine their potential bioaccesibility. This part outlines the best approaches to assess the bioavailability of specific phenolics in several experimental models. The physiological mechanisms explaining the epidemiological and observational data on phenolics and health, are still far from being unraveled or understood in full. Many published results on phenolic actions at cell levels are biased by the fact that aglycones or native compounds have been used, not considering the previously mentioned chemical and biological transformations. In the last part of this thesis work, a new approach in (poly)phenol bioactivity investigation is proposed, consisting of a medium-long term treatment of animals with a (poly)phenol source, in this specific case resveratrol, the detection of its metabolites to determine their possible specific tissue accumulation, and the evaluation of specific parameters and/or mechanism of action at target tissue level. To conclude, this PhD work has contributed to advancing the field, as novel sources of (poly)phenols have been described, the bioavailability of (poly)phenols contained in a novel specific bran fraction used as ingredient has been evaluated in animal and in humans, and, finally, the tissue accumulation of specific (poly)phenol metabolites and the evaluation of specific parameters and/or mechanism of action has been carried out. For these reasons, this PhD work should be considered an example of adequate approach to the investigation of (poly)phenols and of their bioactivity, unavoidable in the process of unequivocally defining their effects on human health.