Salt loading initiates hypertension through a subnormal decrease in total peripheral and renal vascular resistance, rather than abnormally large increases in sodium retention and cardiac output.
Does vasodysfunction rather than abnormal sodium retention account for the initiation of salt-induced hypertension in salt-sensitive subjects?
This review proposes that salt-induced hypertension is initiated by a failure to normally decrease vascular resistance (vasodysfunction) rather than by abnormal renal sodium retention.
Prevailing theory holds that abnormally large increases in renal salt retention and cardiac output are early pathophysiologic events mediating initiation of most instances of salt-induced hypertension. This theory has come under increasing scrutiny because it is based on studies that lack measurements of sodium balance and cardiac output obtained during initiation of salt-loading in proper normal controls, i.e., salt-resistant subjects with normal blood pressure. Here we make the case for a “vasodysfunction” theory for initiation of salt-induced hypertension: In response to an increase in salt intake, a subnormal decrease in total peripheral resistance that involves a subnormal decrease in renal vascular resistance, in the absence of abnormally large increases in sodium retention and cardiac output, is the hemodynamic abnormality that usually mediates initiation of salt-induced increases in blood pressure (BP). It is the failure to normally decrease vascular resistance in response to salt loading that enables a normal increase of cardiac output to initiate the salt-induced increase in blood pressure. This theory is based on the results of properly controlled studies which consistently demonstrate that in salt-sensitive subjects, salt-loading initiates increased BP through a hemodynamic mechanism that: 1) does not usually involve early increases in sodium retention and cardiac output greater than those which occur with salt-loading in normal controls, and 2) usually involves an early failure to decrease vascular resistance to the same extent as that observed during salt-loading in normal controls. Multiple mechanisms including disturbances in nitric oxide and sympathetic nervous system activity likely underlie this subnormal vasodilatory response to salt that usually precedes and initiates salt-induced hypertension.
Morris et al. (Mon,) conducted a review in Salt-induced hypertension. Salt loading vs. Salt-resistant subjects with normal blood pressure was evaluated on Initiation of salt-induced increases in blood pressure. Salt loading initiates hypertension through a subnormal decrease in total peripheral and renal vascular resistance, rather than abnormally large increases in sodium retention and cardiac output.