Role of Sympathetic Activity and Splanchnic Capacitance in Hypertension

The purpose of this study is to better understand the role of the abdominal veins (splanchnic capacitance) and the sympathetic nervous system in human hypertension. The investigators will test the hypothesis that constriction of abdominal veins due to sympathetic activation contributes to human hypertension. Splanchnic capacitance will be assessed in normotensive and hypertensive subjects at baseline and during acute blockade of the autonomic nervous system.

The splanchnic circulation contains a highly compliant venous bed which normally stores \~25% of the blood volume, and receives up to 25% of the resting cardiac output. It is highly innervated by the sympathetic nervous system, and this neural regulation results in large volume shifts that modulate blood pressure (BP). The splanchnic circulation may play a role in hypertension as suggested by studies showing that surgical splanchnic denervation effectively lowered BP in hypertensive subjects without affecting renal function. Recently, studies in animal models have shown that splanchnic sympathetic activation, particularly to capacitance vessels, was critical to the development of hypertension. The clinical translation of these findings to human hypertension has lagged behind because of limitations in previously available experimental approaches. The investigators propose to use splanchnic radionuclide plethysmography and sympathetic withdrawal with the ganglionic blocker trimethaphan to overcome these limitations. Several studies have shown that sympathetic activity contributes to hypertension. Accordingly, our previous studies showed that sympathetic withdrawal with the ganglionic blocker trimethaphan resulted in normalization of BP in hypertensive subjects. Interestingly, this was caused mainly by a fall in stroke volume, rather than a decrease in arterial vascular resistance suggesting that decreased venous return may play a major role, and that a sympathetically mediated contraction of splanchnic capacitance contributes to the maintenance of hypertension. The investigators hypothesize that the decrease in BP induced by autonomic blockade with trimethaphan results from an increase in splanchnic capacitance leading to a reduction in venous return. To test this hypothesis, the investigators will compare the effect of sympathetic withdrawal on splanchnic capacitance between hypertensive and normotensive subjects. Splanchnic venous capacitance will be measured by radionuclide plethysmography. Abdominal blood volumes will be measured using labeled red cells with technetium-99 while applying different levels of continuous positive airway pressure. In addition, the investigators will assess whether changes in splanchnic capacitance measured by bioimpedance are similar to those measured by radionuclide imaging. For this purpose, the investigators will compare the effects of nitroglycerin on splanchnic capacitance measured by the two techniques.