View clinical trials related to Oxidative Stress.
Filter by:This one-year randomized crossover study is proposed to compare the changes of postprandial oxidative stress (POS) after consumption of meals from different cultures in healthy Chinese adults, using a 'real-life, cultural meal' approach. It is hypothesized that the changes of POS differ with meals from different cultures. Four cultural meals are chosen, namely Southern Chinese, Northern Chinese, American, and South Indian, based on the known prevalence of chronic diseases between Caucasians, Chinese and Indians, and within the Southern and Northern Chinese population.
The purpose this research is to check the effect of Brazil Nuts consumption in oxidative stress, metabolic abnormalities and microvascular endothelial function dyslipidemic and hypertensive patients.
Administration of vitamin D will have a beneficial effect on postprandial leukocyte activation, oxidative stress and arterial stiffness in vitamin D deficient females. High doses of vitamin D may have a more pronounced effect than low doses.
The goal of this study is to determine if n-acetylcysteine, given as PharmaNAC, reduces oxidative stress and improves vascular function in HIV-infected older adults already on HIV treatment.
In the present study, we evaluate the effect of the mother suplementación with DHA during the gestation and lactation on diverse aspects of the development of newborn. The effect on the oxidative stress, inflammatory signaling, bone turnover and piscomotor and visual development was studied. Women will in the sixth month of pregnancy, consume a diet balanced during last 3 months of pregnancy and the whole lactation. In addition the women will divide in two groups: one will receive a supplement of docosahexaenoic acid (DHA) to evaluate the effects on the development of the newborn child; whereas another group will receive a placebo. Different samples of blood of the mother and of mother milk will be taken and we will correlating her lipidic profile with the brain development of the newborn child, evaluated by different tests.
The purpose of this study is to investigate the efficacy of ferumoxytol for the repletion of iron stores and correction of iron deficiency anaemia in patients with severe chronic kidney disease or end-stage chronic kidney disease on peritoneal dialysis, and to assess the impact of the administration of a ferumoxytol dose on various markers for iron stores, as well as on various markers for inflammation and oxidative stress.
To date, the investigations in the field of the supplementation with DHA in premature babies have been focused on the study of neuronal and visual development, giving place to contradictory and ambiguous results, because they did not consider in many cases important aspects of this supplementation, such as the mother´s diet, dose, duration, etc., and precise studies have not been performed in the field of the oxidative damage, inflammation and bone development in this population. Hypothesis: If the composition of the mother´s milk is modified on the basis of her diet, a mother supplementation with high doses of DHA will increase proportionally the levels of this fatty acid in her milk, fact that will allows the premature newborn child receive a major dose of this fatty acid, and therefore this way, we will manage to improve the neuronal and visual development and to take part on the inflammatory process, oxidative damage and its evolution, together with the development or bone mass increase in the premature baby. Aims: Overall we aim to evaluate in a multidisciplinary way the effect of a mother supplementation during the lactation with high doses of DHA on the development and wellness of the premature newborn children. We try to deepen into the effect on the neuronal and visual development and to study, for the first time, the effect on the oxidative damage, pro- and antiinflammatory citoquines activity and bone metabolism in this group of newborn babies.
The General Aim of this study is to verify if a short term supplementation can modulate diverse aspects related to the physical regular high intensity activity. To get this general aim and following the criteria established by the EFSA Guides, this general aim will be divided in specific or concrete aims, and will be studied by its specific analytical. First Specific Aim: To study how the supplementation with 200 mg of ubiquinol in a short term (2 weeks) study can influence the physical performance, resitance , muscle function and weakening: maintenance of normal muscle function, maintenance of endurance performance, increase in endurance performance/capacity, reduction in the rated perceived exertion/effort during exercise, increase in physical performance and maintenance of muscle mass and piscological variables that the sportsman suffers before and after the high intensity exercise. Second Specific Aim: To study how the supplementation with 200 mg of ubiquinol in a short term (2 weeks) study can influence the biochemical and haematological parameters in sportsman. Third Specific Aim: To study how the supplementation with 200 mg of ubiquinol in a short term (2 weeks) study can influence the oxidative stress asociated to a high intensity exercise. Fourth Specific Aim: To study how the supplementation with 200 mg of ubiquinol in a short term (2 weeks) study can influence the inflammatory signaling, the activity of diverse pro - and anti-inflammatory citokines associated to high intensity exercise.
The purpose of this study is to evaluate the effect of especial diet therapy "Anti-inflammatory Diet" on inflammatory, oxidative stress, and nutritional markers in the context of protein-energy wasting syndrome(PEW) in hemodialysis patients.
The investigators are investigating whether the flax lignan, secoisolariciresinol diglucoside, decreases oxidative stress and inflammation. The flax seed lignan is believed to be broken down in the body to produce the health benefits of flax. Flax lignan is separated from the whole flax seed as this compound is believed to have health effects. Decreasing oxidative stress and inflammation should improve a number of the problems associated with aging. This intervention consists of 600 milligrams of the flax lignan SDG daily or an equivalent amount of whey protein. The investigators are comparing lignan to a placebo (whey powder) to examine whether a dietary intervention (i.e. flax seed containing lignan) might decrease oxidative stress and inflammation.