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Full-Text Articles in Life Sciences
Dietary Polyphenols And Their Perceived Health Benefits, Stephanie Russell
Dietary Polyphenols And Their Perceived Health Benefits, Stephanie Russell
Honors Theses
This paper will consist of a compilation of information on polyphenol classes, dietary sources, and potential health benefits. Polyphenols can be classified as flavonoids, phenolic acids, lignans, or stilbenes. These molecules consist of over 500 plant metabolites that come from numerous food sources including various fruits, vegetables, grains, and beverages such as coffee, tea, and wine. The quantity of polyphenols in food vary greatly, as does their bioavailability for use in the body after consumption. Due to antioxidant and anti-inflammatory properties, polyphenols are being studied for effects on reducing the risk of cardiovascular disease. This paper will focus on structural …
Micrornas In Bovine Milk Exosomes Are Bioavailable In Humans But Do Not Elicit A Robust Pro-Inflammatory Cytokine Response, Ezra Mutai, Amanda E. Ramer-Tait, Janos Zempleni
Micrornas In Bovine Milk Exosomes Are Bioavailable In Humans But Do Not Elicit A Robust Pro-Inflammatory Cytokine Response, Ezra Mutai, Amanda E. Ramer-Tait, Janos Zempleni
Department of Nutrition and Health Sciences: Faculty Publications
Background: Bovine milk exosomes are studied for their roles as bioactive food compounds and as vehicles for drug delivery. Both lines of investigation converge on immune function, e.g., immune regulation by absorption of microRNAs encapsulated in milk exosomes across species boundaries, and the possibility of exosomes and their cargos triggering an immune response if used in drug delivery. This study assessed the bioavailability of immune-related microRNAs from bovine milk and changes in plasma cytokine concentrations after milk consumption in humans, and the secretion of cytokines by human peripheral blood mononuclear cells (PBMCs) cultured with milk exosomes transfected with immune-relevant microRNAs. …
In Vitro Bioaccessibility Of Novel Low-Crystallinity Phytosterol Nanoparticles In Non-Fat And Regular-Fat Foods, Ali Ubeyitogullari, Ozan Ciftci
In Vitro Bioaccessibility Of Novel Low-Crystallinity Phytosterol Nanoparticles In Non-Fat And Regular-Fat Foods, Ali Ubeyitogullari, Ozan Ciftci
Department of Food Science and Technology: Faculty Publications
Crystalline structure of phytosterols leads to poor bioavailability and makes their incorporation into foods challenging. Bioaccessibility of first-of-their-kind low-crystallinity phytosterol nanoparticles impregnated in nanoporous starch aerogels (PS-NSA) was evaluated in non-, low-, and regular-fat solid and aqueous food formulations, namely, granola bars and puddings for the first time. Bioaccessibility of the phytosterol nanoparticles was significantly higher than that of crude phytosterols in all food formulations (p < .05); it was 88.2 and 91.8% for low- or regular-fat granola bars, respectively, whereas bioaccessibility of crude phytosterols was ca. 30% in those formulations. However, decreasing the lipid content to zero resulted in lower phytosterols' bioaccessibilities from both PS-NSA (53%) and crude phytosterols (ca. 16%) in non-fat granola bars. Bioaccessibility of crude phytosterols (2%) was significantly enhanced with PS-NSA (19%) in the pudding formulation. PS-NSA allows preparation of low- and non-fat foods enriched with phytosterols while enhancing the health benefits of phytosterols with smaller doses.