IMPACT OF BLOOD PRESSURE COMPONENTS ON LEFT VENTRICULAR HYPERTROPHY REMODELING

SUMMARY – According to present findings, the impact of particular arterial pressure components on the occurrence of left ventricular hypertrophy (LVH) differs. We sought to determine which individual component of arterial pressure has the greatest impact on the LVH geometric pattern/degree. The study included 192 patients (87 men), aged 43-80 (median 68) years with hypertension and LVH. Patients were classified into three groups according to type of hypertrophy (concentric, eccentric and asymmetric) and into three subgroups according to the degree of hypertrophy (mild, moderate and severe). All patients had their blood pressure measured, and they underwent electrocardiography and echocardiography. Antihypertensive drugs and the duration of previous treatments were taken into consideration. Pulse pressure was significantly higher in patients with concentric LVH than in those with eccentric and asymmetric LVH (p=0.029), the values of which did not differ statistically. It rose with LVH degree (not significantly, p=0.217). There were no significant differences in systolic pressure among study groups (p=0.177). We concluded that pulse pressure had the greatest impact on the left ventricular geometry, particularly of the concentric type.

Markers of inflammation, endothelial activation, and arterial stiffness in hypertensive heart disease and the effects of treatment: results from the SILVHIA study

We assessed the contribution of blood pressure (BP), inflammation, and endothelial activation to the development of structural vascular and cardiac changes in hypertension. Furthermore, the effects of antihypertensive therapy were studied. We studied 114 patients with hypertension and left ventricular hypertrophy and 38 matched hypertensive subjects without cardiac hypertrophy and 38 normotensive subjects. The group with hypertension and cardiac hypertrophy were randomized to treatment with an angiotensin receptor blocker (irbesartan) or a beta-adrenergic receptor blocker (atenolol) for 48 weeks. Markers of inflammation (high-sensitive C-reactive protein, interleukin-6, leukocyte counts), vascular function (ambulatory aortic stiffness index, arterial compliance, and pulse pressure), and endothelial activation (E-selectin, intracellular adhesion molecule-1, vascular adhesion molecule-1) were assessed. Markers of inflammation and arterial stiffness were lowest in the normotensive group and highest in patients with hypertensive heart disease; endothelial markers were similar between groups. Inflammation was independently related to BP. Markers of arterial stiffness were independently related to BP and to a lesser extent to left ventricular mass. Antihypertensive treatment improved arterial compliance; inflammatory and endothelial markers remained unchanged. In conclusion, markers of inflammation and arterial stiffness are independently related to BP. Antihypertensive therapy seems to improve arterial stiffness, but effects on markers of inflammation and endothelial activation are small.

Fibulin-5 null mice with decreased arterial compliance maintain normal systolic left ventricular function, but not diastolic function during maturation

Abstract The large arteries serve as compliant vessels that store energy during systole and return it during diastole. This function is made possible by the elastic fibers in the arterial wall that are assembled during late embryonic and early postnatal development from various proteins, including fibulin-5. Mice and humans with insufficient amounts of fibulin-5 have reduced arterial compliance as adults. Reduced compliance of the large arteries is correlated with hypertension, reduced cardiac function, and an increased risk of death from cardiac and cardiovascular disease. The goal of this study was to quantify arterial compliance, blood pressure, and left ventricular (LV) function from early postnatal development to young adulthood in fibulin-5 null (Fbln5-/-) mice to determine the effects of reduced arterial compliance during this critical period of elastic fiber assembly. We find that ascending aorta compliance is reduced as early as postnatal day (P) 7 and carotid artery compliance is reduced by P21 in Fbln5-/- mice. We did not find significant increases in systolic blood pressure by P60, but pulse pressures are increased by P21 in Fbln5-/- mice. LV systolic function, as measured by ejection fraction and fractional shortening, is unaffected in Fbln5-/- mice. However, LV diastolic function, as measured by tissue Doppler imaging, is compromised at all ages in Fbln5-/- mice. We propose that Fbln5-/- mice represent a suitable model for further studies to determine mechanistic relationships between arterial compliance and LV diastolic function.