BACKGROUND: Although it is known that plasma leptin concentrations correlate with the amount of adipose tissue in the body, little information is available on the long-term effects on leptin concentrations of changes in diet and exercise. OBJECTIVE: We wanted to examine whether changes in dietary energy sources and exercise-mediated energy expenditure, alone or in combination, affect plasma leptin concentrations. DESIGN: In a randomized, 2 x 2 factorial trial, 186 men with metabolic syndrome were divided into 4 groups: diet, exercise, a combination of diet and exercise, and control. Data on dietary intake, physical fitness, and demographics were collected and plasma leptin concentrations were measured before and after a 1-y intervention period. RESULTS:Plasma leptin concentrations, body mass index, and fat mass decreased in association with long-term reductions in food intake as well as increased physical activity. By adjusting for either body mass index or fat mass, we observed a highly significant reduction in plasma leptin concentration after both the diet and the exercise interventions. There was no interaction between the interventions, suggesting a direct and additive effect of changes in diet and physical activity on plasma leptin concentrations. CONCLUSION: Long-term changes in lifestyle consisting of decreased intake of dietary fat and increased physical activity reduced plasma leptin concentrations in humans beyond the reduction expected as a result of changes in fat mass.
RCT Entities:
BACKGROUND: Although it is known that plasma leptin concentrations correlate with the amount of adipose tissue in the body, little information is available on the long-term effects on leptin concentrations of changes in diet and exercise. OBJECTIVE: We wanted to examine whether changes in dietary energy sources and exercise-mediated energy expenditure, alone or in combination, affect plasma leptin concentrations. DESIGN: In a randomized, 2 x 2 factorial trial, 186 men with metabolic syndrome were divided into 4 groups: diet, exercise, a combination of diet and exercise, and control. Data on dietary intake, physical fitness, and demographics were collected and plasma leptin concentrations were measured before and after a 1-y intervention period. RESULTS: Plasma leptin concentrations, body mass index, and fat mass decreased in association with long-term reductions in food intake as well as increased physical activity. By adjusting for either body mass index or fat mass, we observed a highly significant reduction in plasma leptin concentration after both the diet and the exercise interventions. There was no interaction between the interventions, suggesting a direct and additive effect of changes in diet and physical activity on plasma leptin concentrations. CONCLUSION: Long-term changes in lifestyle consisting of decreased intake of dietary fat and increased physical activity reduced plasma leptin concentrations in humans beyond the reduction expected as a result of changes in fat mass.
Authors: Joseph E Donnelly; Stephen D Herrmann; Kate Lambourne; Amanda N Szabo; Jeffery J Honas; Richard A Washburn Journal: PLoS One Date: 2014-01-15 Impact factor: 3.240
Authors: Adana A M Llanos; Jessica L Krok; Juan Peng; Michael L Pennell; Mara Z Vitolins; Cecilia R Degraffinreid; Electra D Paskett Journal: Horm Cancer Date: 2014-01-17 Impact factor: 3.869
Authors: Nora E Straznicky; Elisabeth A Lambert; Paul J Nestel; Mariee T McGrane; Tye Dawood; Markus P Schlaich; Kazuko Masuo; Nina Eikelis; Barbora de Courten; Justin A Mariani; Murray D Esler; Florentia Socratous; Reena Chopra; Carolina I Sari; Eldho Paul; Gavin W Lambert Journal: Diabetes Date: 2009-10-15 Impact factor: 9.461