Salt-Sensitivity of Blood Pressure Clinical Trial
Official title:
Forebrain Electroneutral Transporters in Salt-sensitive Hypertension: an MRI Study
The overall objective of this project is to identify the key salt-sensing regions of the brain and determine the underlying mechanism of sodium sensing. The investigators will assess how the brain responds to an acute increase of salt in the blood using MRI. This will be done during a 30-minute infusion of a saline solution containing 3% salt. One trial will be conducted with a salt sensing channel blocker and one trial without the salt sensing channel blocker. This will help to assess the role of a specific salt sensing channel in the brain. Salt sensitivity of BP will be assessed using 7-day dietary feeding where participants will be given food to consume for 7-days. Comparisons will be made between salt resistant (no change in blood pressure going from low to high salt diets) and salt sensitive adults (a change in blood pressure going from low to high salt diets). The investigators think the changes in MRI will be greater in salt sensitive compared to salt resistant subjects.
The ability of the brain to sense changing sodium levels in the blood is critical in mediating the neurohumoral responses to hypernatremia, however, the mechanisms underlying sodium sensing in humans is poorly understood. The purpose of this study is to identify key sodium-sensing regions of the human brain in middle-aged men and women with high blood pressure and determine if the Na-K-2Cl co-transporter (NKCC2) mediates the neurohumoral response to acute hypernatremia. The investigators plan on comparing these central sodium responses to acute hypernatremia between salt-sensitive and salt-resistant adults. In this randomized double-blinded crossover study subjects will have a 3% NaCl (hypertonic saline) infusion with or without NKCC2 antagonism (furosemide). Completion of this project will increase the understanding of blood pressure regulation, which has major public health implications. ;