Jean-Pascal Ouellet scite author profile

Background-Elevated pulse pressure (PP) is associated with increased cardiovascular risk and is thought to be secondary to elastin fragmentation with secondary collagen deposition and stiffening of the aortic wall, leading to a dilated, noncompliant vasculature. Methods and Results-By use of calibrated tonometry and pulsed Doppler, arterial stiffness and pulsatile hemodynamics were assessed in 128 subjects with uncomplicated systolic hypertension (supine systolic pressure Ն140 mm Hg off medication) and 30 normotensive control subjects of comparable age and gender. Pulse-wave velocity was assessed from tonometry and body surface measurements. Characteristic impedance (Z c ) was calculated from the ratio of change in carotid pressure and aortic flow in early systole. Effective aortic diameter was assessed by use of the water hammer equation. Hypertensives were heavier (PϽ0.001) and had higher PP (PϽ0.001), which was attributable primarily to higher Z c (PϽ0.001), especially in women. Pulse-wave velocity was higher in hypertensives (Pϭ0.001); however, this difference was not significant after adjustment for differences in mean arterial pressure (MAP) (PϾ0.153), whereas increased Z c remained highly significant (PϽ0.001). Increased Z c in women and in hypertensive men was attributable to decreased effective aortic diameter, with no difference in wall stiffness at comparable MAP and body weight. Conclusions-Elevated PP in systolic hypertension was independent of MAP and was attributable primarily to elevated Z c and reduced effective diameter of the proximal aorta. These findings are not consistent with the hypothesis of secondary aortic degeneration, dilation, and wall stiffening but rather suggest that aortic function may play an active role in the pathophysiology of systolic hypertension.

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Omapatrilat Reduces Pulse Pressure and Proximal Aortic Stiffness in Patients With Systolic Hypertension

Mitchell

et al. 2002

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Background-Increased pulse pressure, an indicator of conduit vessel stiffness, is a strong independent predictor of cardiovascular events in hypertensive cohorts, which suggests that reduction of conduit vessel stiffness may be desirable in hypertension. Methods and Results-We assessed changes in pulse pressure and conduit vessel stiffness in a 12-week double-blind, randomized clinical trial that compared monotherapy with the ACE inhibitor enalapril 40 mg daily (nϭ87) versus the vasopeptidase (dual ACE and neutral endopeptidase) inhibitor omapatrilat 80 mg daily (nϭ80) in patients with systolic hypertension. Patients were withdrawn from antihypertensive medications 1 to 2 weeks before enrollment, and systolic pressure was confirmed to be Ն160 mm Hg. With the use of calibrated tonometry and pulsed Doppler, pulsatile hemodynamics were assessed before randomization and at 12 weeks. Characteristic impedance (Z c ), a direct measure of the stiffness of the central aorta, was calculated from the ratio of changes in carotid pressure and aortic flow in early systole. Omapatrilat compared with enalapril produced greater reductions in peripheral (Ϫ8.2Ϯ12.2 versus Ϫ4.0Ϯ12.2 mm Hg, PϽ0.05) and central (Ϫ10.2Ϯ16.2 versus Ϫ3.2Ϯ16.9 mm Hg, PϽ0.01) pulse pressures and Z c (237Ϯ83 to 208Ϯ70 versus 225Ϯ87 to 231Ϯ94 dyne · s/cm 5 , PϽ0.001); the latter remained significant (PϽ0.05) after adjusting for change in mean pressure. Conclusions-Greater reductions in pulse pressure and Z c in hypertensive subjects treated with omapatrilat compared with enalapril suggest that aortic stiffness is maintained by specific, partially reversible mechanisms and underscore a potential role for pharmacological modulation of natriuretic peptides in the treatment of hypertension.

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Omapatrilat reduces pulse pressure and proximal aortic stiffness in patients with systolic hypertension. results of the conduit hemodynamics of omapatrilat international research (CHOIR) study

Mitchell¹,

Lacourcière²,

Ouellet³

et al. 2002

American Journal of Hypertension

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