Global ETD Search

71	Structural Characterization of Freshwater Dissolved Organic Matter from Arctic and Temperate Climates Using Novel Analytical Approaches Woods, Gwen 19 March 2013 (has links) Dissolved organic matter (DOM) is comprised of a complex array of molecular constituents that are linked to many globally-relevant processes and yet this material is still largely molecularly uncharacterized. Research presented here attempted to probe the molecular complexity of this material from both Arctic and temperate climates via multifaceted and novel approaches. DOM collected from remote Arctic watersheds provided evidence to suggest that permafrost-disturbed systems contain more photochemically- and biologically-labile material than undisturbed systems. These results have large implications for predicted increasing temperatures where widespread permafrost melt would significantly impact stores of organic carbon in polar environments. In attempting to address the complexities and reactivity of DOM within global environments, more information at the molecular-level is necessary. Further research sought to unravel the molecularly uncharacterized fraction via use of nuclear magnetic resonance (NMR) spectroscopy in conjunction with hyphenated and varied analytical techniques. Directly hyphenated high performance size exclusion chromatography (HPSEC) with NMR was explored. This hyphenation was found to separate DOM into structurally distinct fractions but proved limited at reducing DOM heterogeneity. Of the many high performance liquid chromatography (HPLC) techniques tested, hydrophilic interaction chromatography (HILIC) was found the most effective at simplifying DOM. HILIC separations utilizing a sample from Florida resulted in fractions with highly resolved NMR signals and substantial reduction in heterogeneity. Further development with a 2D-HILIC/HILIC system to achieve additional fractionation was employed. This method produced fractions of DOM that were homogenous enough to produce excellent resolution and spectral dispersion, permitting 2D and 3D NMR experiments to be performed. Extensive NMR analyses of these fractions demonstrated strong evidence for the presence of highly oxidized sterols. All fractions, however, provided 2D NMR spectra consistent with oxidized polycyclic structures and support emerging data and hypotheses suggesting that cyclic structures, likely derived from terpenoids, are an abundant, refractory and major component of DOM. Research presented within this thesis demonstrates that HILIC and NMR are excellent co-techniques for the analysis of DOM as well as that oxidized sterols and other cyclic components with significant hydroxyl and carboxyl substituents are major constituents in DOM. dissolved organic matter nuclear magnetic resonance Arctic terpenoid-derived sterols high performance liquid chromatography 0425 0485
72	Sterol requirements in Drosophila melanogaster Almeida de Carvalho, Maria Joao 14 October 2009 (has links) (PDF) Sterol is an abundant component of eukaryotic cell membranes and is thought to influence membrane properties such as permeability, fluidity and microdomain formation. Drosophila is an excellent model system in which to study functional requirements for membrane sterol because, although it does not synthesize sterol, it nevertheless requires sterols to complete development. Moreover, Drosophila normally incorporates sterols into cell membranes. Thus, dietary sterol depletion can be used to specifically reduce membrane sterol levels. In contrast, vertebrates do synthesize cholesterol. In this way, sterol depletion in vertebrates demand the use of approaches such as chemical extractions, drug treatments or genetic manipulation which are prone to have side effects. We have controlled the level and type of dietary sterol available to developing Drosophila larvae in order to investigate the requirement for sterol in cell membranes, and to distinguish it from the function of sterol as a precursor for signaling molecules. Strikingly, we show that membrane sterol levels can be reduced 6-fold in most tissues without affecting cell or larval viability. Larvae respond to sterol depletion by arresting their growth and development, and by increasing the level of specific sphingolipid variants that promote survival when sterol is scarce. Thus, non-sterol lipids are able to substitute for sterols in the maintenance of basic membrane biophysical properties required for life. Despite this, Drosophila larvae regulate their growth to maintain membrane sterol levels within tight limits. The existence of this novel membrane sterol-dependent growth control mechanism indicates an important role for bulk membrane sterol in the tissue specific functions of differentiated cells. Sterols Drosophila membranes growth Drosophila Sterol Membranen Wachstum ddc:570 rvk:WG 2100
73	Assessment of sterol metabolism in sitosterolemia Othman, Rgia Ali 11 1900 (has links) Sitosterolemia (STSL) is a sterol storage disorder characterized by very high plasma plant sterol (PS) and 5α-stanol levels, and leads to premature atherosclerosis, xanthomas, macrothrombocytopenia and endocrine disruption. Ezetimibe (EZE), a sterol absorption inhibitor, reduces plasma PS levels in STSL but its effect on tissue pool of sterols has not been investigated yet. The research objectives were to assess if EZE reduces whole body sitosterol and cholesterol pool sizes, improves cholesterol homeostasis, enhance hematologic profile and reduce endocrine disruption in STSL. EZE effects on circulating levels of cholestanol and its precursors (cholesterol and bile acid derivative 7α-hydroxy-4-cholesten-3-one, 7α-H-C4) relative to exogenous stanols (sitostanol) were also studied. Eight STSL patients were taken off EZE for 14 wks. After 4 wks off EZE they received intravenous doses of D7-sitosterol and 18O-cholesterol for sterol pool sizes assessments, and oral doses of 13C-cholesterol and deuterium oxide to measure fractional cholesterol absorption and synthesis rates. EZE (10 mg/d) was resumed and stable isotopes testing repeated. Measurement parameters included isotopic sterol enrichments, blood cell count, plasma and red blood cell (RBC) PS, cholesterol and its precursor (lathosterol), 5α-stanols and plasma 7α-H-C4, and thyroid hormones levels. EZE reduced plasma levels of sitosterol and total cholesterol, whole body sitosterol and cholesterol pool sizes and fractional cholesterol absorption rate while increasing cholesterol synthesis, production and clearance rates. EZE increased platelet count and decreased platelet size without affecting RBC indices of size or mass. A substantial decrease in circulating sitostanol but moderate decrease of cholestanol was noted with EZE. EZE increased lathosterol but not 7α-H-C4, suggesting increases in cholesterol biosynthesis and thus precursor availability for synthesis of cholestanol. In summary, EZE reduces body stores of PS and cholesterol, and increases cholesterol turnover by reducing cholesterol absorption and enhancing its synthesis and clearance. EZE reduces circulating PS and 5α-stanol levels, and improves macrothrombocytopenia and thyroid disruption. Endogenous cholestanol in STSL is mainly derived from cholesterol but not bile acid synthesis pathway. These data suggest that EZE may reduce the risks of developing premature atherosclerosis, bleeding and hormone disruption, thereby reinforcing the rationale for the use of EZE in treatment of STSL. / February 2015 Plant sterols Sitosterol pool size Cholesterol pool size Cholesterol turnover Macrothrombocytopenia Endocrine disruption Ezetimibe
74	Effects of plant sterols on plasma lipid profiles, glycemic control of hypercholesterolemic individuals with and without type 2 diabetes Lau, Vivian Wai Yan, 1977- January 2003 (has links) Plant sterols (PS) are effective in reducing plasma lipid concentrations, however, few studies have examined their cholesterol lowering effects in type 2 diabetics. The objective was to assess whether PS consumption alters blood lipid profile in hypercholesterolemic subjects with and without type 2 diabetes. Fifteen control subjects (age = 55.1 +/- 8.5 yr and BMI = 26.9 +/- 3.0kg/m2) and fourteen diabetic subjects (age = 54.5 +/- 6.7 yr and BMI = 30.2 +/- 3.0kg/m2) participated in a double-blinded, randomized, crossover, placebo-controlled feeding trial. The Western diet included either 1.8g/d of PS or cornstarch placebo each provided over 21 d separated by a 28 d washout period. Subjects consumed only foods prepared in Mary Emily Clinical Nutrition Research Unit of McGill University. Total cholesterol (TC) decreased (p < 0.05) from baseline with PS for control and diabetic subjects by 9.7% and 13.6%, respectively. TC decreased (P < 0.05) from baseline with placebo for control and diabetic subjects by 10.9% and 11.6%, respectively. Non high density lipoprotein cholesterol (non-HDL-C) decreased (p < 0.05) from baseline with PS for diabetic subjects by 18.5%. Low density lipoprotein cholesterol (LDL-C) levels were reduced (p < 0.05) from baseline with PS for control and diabetic subjects by 14.9% and 29.8%, respectively. The reduction of LDL-C due to PS alone is greater with type 2 diabetics. There were no significant changes in HDL-C and TG across diets or treatments. It is thus concluded that PS consumption with diet enhances non-HDL-C and LDL-C reduction compared with diet alone in hypercholesterolemic individuals with and without type 2 diabetes. Demonstration for the first time that PS alone are more efficacious in lowering LDL-C and non-HDL-C in diabetic individuals compared to non-diabetics confirm the beneficial effects of PS to help prevent cardiovascular disease (CVD) for this high risk population. Hypercholesteremia -- Treatment. Anticholesteremic agents. Hypoglycemic agents. Non-insulin-dependent diabetes. Sterols -- Physiological effect. Phytosterols.
75	Plant sterols and glucomannan as hypocholesterolemic and hypoglycemic agents in subjects with and without type 2 diabetes Yoshida, Makiko January 2003 (has links) The objective of this research was to examine the effects of plant sterols and glucomannan on lipid profiles, plasma plant sterol levels and glycemic control in mildly hypercholesterolemic subjects. Thirteen type 2 diabetic and sixteen non-diabetic individuals participated in a randomized crossover trial consisting of 4 phases, of 21 days each. During the study period, subjects were supplemented with plant sterols and/or glucomannan. Overall reductions of total cholesterol and low-density lipoprotein (LDL) cholesterol concentrations were greater after consumption of plant sterols and glucomannan compared to plant sterol or glucomannan supplementation alone. Plasma lathosterol levels, indicators of cholesterol biosynthesis, were decreased after combination treatment. The results suggest that a combination of glucomannan and plant sterols substantially improve plasma lipids by reducing cholesterol absorption and synthesis simultaneously. Supplementation of plant sterols and glucomannan can thus be used as an effective treatment for management of circulating cholesterol levels and prevention of cardiovascular disease. Hypercholesteremia -- Treatment. Anticholesteremic agents. Hypoglycemic agents. Non-insulin-dependent diabetes. Sterols -- Physiological effect. Amorphophallus -- Physiological effect. Phytosterols.
76	Effects of a functional oil rich in medium chain triglycerides and phytosterols on plasma lipid profiles and body composition in hypercholesterolemic, overweight men Roynette, Catherine E. January 2005 (has links) Localised accumulation of body fat significantly influences the development of obesity related co-morbidities and cardiovascular disease (CVD) risk. Medium chain triglycerides (MCT) have been suggested to modulate body fat distribution. Phytosterols (PS) have demonstrated unequivocal cholesterol-lowering effects. A healthy dietary solution combining MCT and PS could thus become first-line obesity and CVD prevention. The aim of this study was therefore to investigate the effects of a functional oil (FctO) rich in MCT and PS on blood lipid levels and body adiposity, compared to olive oil. Twenty-three hypercholesterolemic, overweight men, were randomly assigned, in a single-blind crossover study, to consume a FctO, or olive oil, incorporated into a 40% fat diet for 6 wks. Blood lipid levels were measured and body composition was assessed. Total and LDL cholesterol were significantly reduced in subjects consuming the FctO versus the control oil. No significant differences for weight or adiposity loss of subjects were observed between the two oils. Results support the cardio-protective role of this FctO. Hypercholesteremia -- Diet therapy. Functional foods. Triglycerides -- Health aspects. Sterols -- Physiological effect. Blood lipids. Overweight men. Phytosterols.
77	Efficacy of plant sterols in novel matrices on blood lipids profiles : medium chain triglycerides and low-fat products consumed with or without a meal Rudkowska, Iwona. January 2007 (has links) Cardiovascular disease (CVD) risk can be lowered by introduction of plant sterols (PS) in the diet, since PS have been shown to reduce low-density lipoprotein cholesterol (LDL-C). Given that the efficacy of PS as cholesterol-lowering agents depends on their appropriate solubilization, the cholesterol-lowering efficacy of PS in non-traditional matrices needs to be determined. The primary aim of this thesis was to examine the consumption of PS (a) in an oil rich in medium chain triglycerides (MCT) or (b) low-fat yogurt with or without a meal, on changes in lipid parameters. Additional objectives were: (1) to assess the effects of MCT with PS on body composition and energetics, (2) to compare the effects of PS in low-fat matrix consumed with or without a meal on cholesterol synthesis, (3) to evaluate the risks of PS in low-fat matrix on blood levels of carotenoids and fat-soluble vitamin, and (4) to investigate the relationship between the response to PS, cholesterol kinetics and genotyping. For this purpose two randomized, controlled, crossover-feeding trials were conducted. First, 23 overweight, hyperlipidemic men consumed PS in MCT or olive oil control for six weeks each. In the second trial, 26 hyperlipidemic subjects consumed a placebo yogurt, a PS-enriched yogurt consumed with a meal, or afternoon PS-enriched yogurt as a snack for four weeks each. PS, mixed within a MCT matrix, lower plasma total cholesterol (TC) and LDL-C without changing the high-density-lipoprotein cholesterol concentrations. However, no changes in body composition or energetics were observed. Secondly, a PS-enriched low-fat yogurt as snack lowered TC, along with a lowering trend in LDL-C, to greater extent compared to when consumed with a meal without any risk of deficiency in fat-soluble antioxidants. An increase in cholesterol biosynthesis was also observed in both PS phases compared to control phase. In addition, three non-responsive subjects to PS intervention who had higher cholesterol absorption rates were observed; however, no recognizable pattern of genetic polymorphisms was detected. Overall, these novel matrices for PS incorporation consumed with or between meals may be an effective way of decreasing the risk of CVD; however, some individuals respond better to PS intervention. Sterols -- Physiological effect. Blood lipids. Triglycerides. Low-fat foods. Hyperlipidemia -- Nutritional aspects. Phytosterols.
78	The effect of plant sterols on lipid profiles and cholesterol kinetics of hypercholesterolemic individuals with type 2 diabetes compared with non-diabetic controls / Journoud, Mélanie January 2004 (has links) The objective of this study was to compare the effect of phytosterols (PS) on lipid profiles and cholesterol kinetics of hypercholesterolemic individuals with or without type 2 diabetes. It was hypothesised that the response to PS would differ between both groups due to different lipid metabolism. During this randomised, double blind, crossover trial, participants consumed a controlled diet with placebo or PS for 21 days. / Plasma total cholesterol (TC) decreased with placebo and PS (10.9% and 9.7% in non-diabetic versus 11.6% and 13.6% in diabetic participants, p < 0.05). Plasma low-density lipoprotein cholesterol (LDL) significantly decreased with PS in both groups. The reduction in LDL with PS was greater in diabetic compared to non-diabetic individuals (29.8% versus 14.9%, p < 0.05). Cholesterol absorption decreased on average (p = 0.06) by 26.5% with PS compared with placebo in the diabetic group only. Therefore, a controlled heart healthy diet reduced TC and LDL concentrations in non-diabetic and diabetic individuals. Adding PS as adjuncts to a hypocholesterolemic dietary treatment was associated with lower LDL concentrations and cholesterol absorption in hypercholesterolemic participants with type 2 diabetes. Hypercholesteremia -- Treatment. Anticholesteremic agents. Non-insulin-dependent diabetes. Sterols -- Physiological effect. Phytosterols.
79	Efficiency and mechanisms of different phytosterol analogs on lipid profiles and colonic mucosal cell proliferation in hamsters Jia, Xiaoming, 1978- January 2005 (has links) The current study examined the impact of plant sterols, stanols, sterol esters, and stanol esters on (i) cholesterol-lowering efficiency, (ii) gene expression of ABCG5 and ABCG8 sterol transporters in the liver and small intestine, and (iii) colon mucosal cell proliferation in hamsters. After 5 weeks on experimental diets, plasma total cholesterol levels were reduced ( P<0.05) by stanols, sterol esters and stanol esters compared to cholesterol-control diet. Different PS analogs did not alter ABCG5 and ABCG8 mRNA levels in small intestine and liver as compared to cholesterol control. In addition, colon mucosal cell proliferation was 21.4% lower (P<0.01) in group fed 0.7% stanol esters relative to cholesterol control. Results suggest that hypocholesterolemic effects of PS analogs are not associated with changes of liver and small intestine ABCG5 and ABCG8 sterol transporters. Data also indicated that plant stanol ester may possess anticarcinogenic properties. Sterols -- Physiological effect. Blood lipids. Hypercholesteremia -- Treatment. Colon (Anatomy) -- Cancer -- Prevention Golden hamster. Phytosterols.
80	Effects of plant sterols and glucomannan on parameters of cholesterol kinetics in hyperlipidemic individuals with and without type 2 diabetes Barake, Roula January 2005 (has links) The objective of this study was to examine the effects of plant sterols and/or glucomannan on lipid profiles and cholesterol kinetics in hyperlipidemic individuals with or without type 2 diabetes. It was hypothesized that plant sterols and glucomannan reduce circulating cholesterol levels and may have an additive or synergistic effect when combined by reducing cholesterol absorption. Thirteen type 2 diabetics and sixteen non-diabetics all mildly hypercholesterolemic free living subjects participated in a randomized crossover trial consisting of 4 phases, 21 days each. Subjects consumed plant sterols and glucomannan during the trial. Overall reductions in total and LDL-cholesterol levels were greater (P<0.05) after consumption of the combination supplement. Effects of supplements were not different between diabetics and non-diabetics. No significant changes were observed in cholesterol absorption or synthesis in both diabetics and non-diabetics. The intake of plant sterols and glucomannan together may be an alternative approach in reducing blood cholesterol levels. Hypercholesteremia -- Treatment. Anticholesteremic agents. Non-insulin-dependent diabetes. Sterols -- Physiological effect. Amorphophallus -- Physiological effect. Phytosterols.

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