View clinical trials related to Uncoupling Protein 1.
Filter by:This study aims to determine the effect of an acute maximal exercise on serum uncoupling protein-1, irisin, interleukin 6 levels, and on blood lipid and lipoprotein concentrations. This study also evaluates the role of uncoupling protein-1-3826 A/G polymorphism on this eventual effect. Therefore, this study hypothesizes that: H01: Sedentary people and athletes' serum uncoupling protein 1, irisin, and interleukine 6 levels are different before and after an acute maximal exercise. H02: Sedentary people and athletes' basal serum uncoupling protein 1 levels are associated with uncoupling protein 1-3826 A/G polymorphism. H03: Uncoupling protein 1-3826 A/G polymorphism has a modifying role in the effect of maximal exercise on serum uncoupling protein 1 levels. H04: Sedentary people and athletes' basal serum lipid and lipoprotein levels are associated with uncoupling protein 1-3826 A/G polymorphism. H05: Uncoupling protein 1-3826 A / G polymorphism has a modifying role in the effect of maximal exercise on serum lipid and lipoprotein levels.
This study investigates cold-induced brown fat activation assessed using PET/MR scans. Subjects will participate in an acute cooling intervention day and a thermoneutral intervention day with PET/MR scans on both days. A secondary purpose is to make a validation of an infrared thermography camera by comparison of skin temperatures and SUV of the supraclavicular brown adipose tissue.
This study investigates cold-induced brown fat activation in winter swimmers and not-winter swimmers by skin temperature measures assessed with infra red thermography imaging and skin temperatures. Winter swimmers and not-winter swimmers will participate in an acute cooling intervention and thermoneutral intervention for comparison of energy expenditure and skin temperatures at the supraclavicular area.