Long‐Term High Salt Consumption Decreases Body Weight and Fat Accumulation in Mice in Association with Increased Energy Expenditure and Whole‐body Fat Oxidation

Abstract: High salt diet is associated with increased risk of adverse cardiovascular events due to its effects on blood pressure, vascular stiffening, and fibrosis. The kidney maintains Na+ homeostasis in times of dietary excess by excreting it in urine. Additionally, the brain’s thirst centers sense excess Na+ and increase water intake. Recent work showed mice given high Na+ loads, provided in chow and water, have changes in glucocorticoid, mineralocorticoid, and urea production that lead to increased free water absorp… Show more

“…This could be that the high dietary sodium suppressed digestive efficiency via RAS as observed in the study conducted by Weidemann et al ., 39 on mice. A similar finding was reported by Mutchler et al ., 40 that associated reduced BW with higher metabolic demand and increased in fatty acid oxidation.…”

Effects of a high-salt diet on MAP and expression levels of renal ENaCs and aquaporins in SHR

“…This could be that the high dietary sodium suppressed digestive efficiency via RAS as observed in the study conducted by Weidemann et al ., 39 on mice. A similar finding was reported by Mutchler et al ., 40 that associated reduced BW with higher metabolic demand and increased in fatty acid oxidation.…”

Effects of a high-salt diet on MAP and expression levels of renal ENaCs and aquaporins in SHR