The purpose of this study is to determine whether add-on of intensive vasodilator therapy can improve the coronary perfusion and reduce the total peripheral resistance in patients with ongoing treatment for essential hypertension.
Morphological changes are observed in the microvasculature of patients with essential hypertension. The lumen diameter is reduced in resistance arteries, but with no change in vessel cross-sectional area or wall mass. These structural changes are termed inward eutrophic remodelling and results in an increased wall:lumen ratio, caused by rearrangement of cell matrix and not by hypertrophy of smooth muscle cells in the vascular wall as observed in secondary forms of hypertension. The morphological changes also occur in the coronary arteries and cause a reduction in the ability to increase coronary perfusion as response to increased cardiac work. This is observed as a reduced coronary flow reserve in patients with sustained hypertension. Two recently published clinical studies associates an increase in media:lumen ratio with an increased risk of cardiovascular events, and it therefore seems beneficial to normalize the vascular structure in patients with essential hypertension. It has previously been demonstrated that reversion of vascular remodelling and thereby normalization of the vascular structure, requires vasodilatation and not just blood pressure reduction, suggesting that patients with essential hypertension can benefit from antihypertensive treatment aimed to induce vasodilatation. The purpose of this study is to determine whether add-on of intensive vasodilator therapy can improve the coronary perfusion (coronary flow reserve) and reduce the total peripheral resistance in patients with ongoing treatment for essential hypertension. We also aim to investigate whether changes in coronary flow reserve correlates better to changes in total peripheral resistance than changes in blood pressure. Particularly we aim to study if patients with high total peripheral resistance, despite blood pressure control, can benefit from intensive vasodilating therapy.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
48
5 mg per day for 6 months as add-on to original ongoing antihypertensive treatment
5 mg per day for the first to weeks as add-on to original ongoing antihypertensive treatment. Then upward adjustment to 10 mg per day for 6 months if no intolerable side effects are experienced.
Up to 20 mg per day for 6 months as add-on to original ongoing antihypertensive treatment
Aarhus University Hospital - dept. cardiology (A)
Aarhus, Denmark
Coronary Flow Reserve
Determined by echocardiography
Time frame: 6 months
Puls Wave Velocity
Time frame: 6 months
Left ventricular mass
Determined with echocardiography
Time frame: 6 months
Blood Pressure
Ambulatory Blood Pressure
Time frame: 6 months
Peripheral Vascular Resistance
By Innocor
Time frame: 6 months
Minimal forearm vascular resistance
By pletysmography
Time frame: 6 months
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Up to 100 mg per day for 6 months as add-on to original ongoing antihypertensive treatment