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The Effects of Red Meat Consumption Within a Healthy Dietary Pattern on Cardiovascular Risk: the Importance of Gut MicrobiotaYu Wang (13162944) 27 July 2022 (has links)
<p>Accumulating evidence from randomized-controlled, full-feeding trials suggests neutral to beneficial effects of consuming lean and unprocessed red meat within a healthy dietary pattern on cardiovascular health. It is unclear how red meat interacts with the dietary pattern and the host in mediating its health effects. The gut microbiome provides a novel perspective in understanding the diet-host relationship for its abilities to metabolize dietary components including those within red meat and influence cardiovascular health. Prior to starting our study, we identified a lack of evidence in the English literature for the effects of consuming lean red meat, in unprocessed or processed forms, on gut microbiota in the context of a controlled healthy dietary pattern. Our findings presented in this dissertation demonstrate differential effects of consuming unprocessed versus processed red meat on gut microbiota. Consistent with previous research, we observed cardiovascular improvements induced by the healthy dietary pattern independent of lean red meat intakes among young adults with apparently healthy cardiovascular profiles. Importantly, with three intervention periods, we found consistent and reproducible changes in both gut microbiota and cardiovascular risk factors when repeatedly adopting and abandoning a healthy dietary pattern. Collectively, findings in this dissertation highlight the importance of gut microbiota in potentially mediating or responding to diet-induced cardiovascular improvements. Future research should investigate the changes in the function of gut microbiota induced by healthy dietary patterns containing red meat. Studies assessing the unique food matrix of processed versus unprocessed animal- or plant-based protein-rich foods are also warranted. Additionally, dietary strategies should focus on promoting healthy dietary modifications and enhancing dietary adherence for long-term cardiovascular benefits. </p>
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栄養によるニワトリのインスリン様成長因子結合蛋白質遺伝子発現の制御喜多, 一美 03 1900 (has links)
科学研究費補助金 研究種目:基盤研究(C)(2) 課題番号:11660282 研究代表者:喜多 一美 研究期間:1999-2000年度
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Sustainable alternatives to fish meal and fish oil in fish nutrition : effects on growth, tissue fatty acid composition and lipid metabolismKaralazos, Vasileios January 2007 (has links)
Traditionally, fish meal (FM) and fish oil (FO) have been used extensively in aquafeeds, mainly due to their excellent nutritional properties. However, various reasons dictate the use of sustainable alternatives and the reduction of the dependence on these commodities in fish feeds. Hence, the aim of the present thesis was to investigate the effects of the replacement of FM and FO with two vegetable oils (VO) and an oilseed meal on the growth performance, feed utilization, nutrient and fatty acids (FA) digestibility and tissue FA composition and metabolism in three commercially important European fish species. Specifically, in Experiment I crude palm oil (PO) was used to replace FO in diets for rainbow trout. In Experiments II and III FO was replaced with rapeseed oil (RO) in diets for Atlantic salmon at various dietary protein/lipid levels aiming also at further reductions of FM by using low protein (high lipid) diet formulations. In Experiments II and III the fish were reared at low and high water temperatures, respectively, in order to elucidate, also, the potential effects of temperature. Lastly, the effects of the replacement of FM with full fat soya meal (FFS) in Atlantic cod were investigated in Experiment IV. The results of the present thesis showed no negative effects on growth performance and feed utilization in rainbow trout when FO was replaced with PO. The dietary inclusion of RO improved the growth of Atlantic salmon, possibly, due to changes in the nutrient and FA digestibilities and FA catabolism while, the growth and feed utilization were unaffected by the dietary protein/lipid level. However, the growth of Atlantic cod was affected negatively by the replacement of FM with FFS. The proximate composition of the fish whole body was in most cases unaffected by dietary treatments. The changes in dietary formulations affected the dietary FA compositions and resulted in significant changes in the fish tissue FA compositions. It was clearly shown that the fish tissue total lipid FA composition reflects the FA composition of the diet, although specific FA were selectively utilized or retained in the tissues by the fish. These may have serious implications not only for fish metabolism and growth but also for the quality of the final product, especially in terms of possible reductions of n-3 HUFA.
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