Initially considered as a semipermeable barrier separating lumen from vessel wall, the endothelium is now recognised as a complex endocrine organ responsible for a variety of physiological processes vital for vascular homeostasis. These include the regulation of vascular tone, luminal diameter, and blood flow; hemostasis and thrombolysis; platelet and leucocyte vessel-wall interactions; the regulation of vascular permeability; and tissue growth and remodelling. The endothelium modulates arterial stiffness, which precedes overt atherosclerosis and is an independent predictor of cardiovascular events. Unsurprisingly, dysfunction of the endothelium may be considered as an early and potentially reversible step in the process of atherogenesis and numerous methods have been developed to assess endothelial status and large artery stiffness. Methodology includes flow-mediated dilatation of the brachial artery, assessment of coronary flow reserve, carotid intimamedia thickness, pulse wave analysis, pulse wave velocity, and plethysmography. This review outlines the various modalities, indications, and limitations of available methods to assess arterial dysfunction and vascular risk.
Previous studies described a decline in vascular reactivity occurring in bodybuilding subjects which is independent of anabolic steroid use and may result from smooth muscle hypertrophy with increased vascular stiffness. This study revealed impaired vascular reactivity associated with anabolic agents and that improvement in vascular function may occur following their discontinuation.
Acromegaly is associated with increased cardiovascular risk. Although conventional risk factors such as glucose intolerance, hypertension, and dyslipidemia probably contribute, there may also be direct effects of GH/IGF-I excess on the vasculature. To study the effects of GH excess on the vasculature, we have assessed arterial stiffness in acromegalic subjects with and without active disease and have investigated the effects of Sandostatin LAR (OCT-LAR) on vascular function. Sixteen normotensive subjects with acromegaly (10 males and 6 females) and 8 healthy controls were studied. Of the acromegalic subjects, eight had active disease (group A), and eight were cured (GH < 2.5 mU/liter; group B). The three groups were age, sex, and blood pressure matched. Group A subjects were restudied after 3 and 6 months of OCT-LAR therapy. Arterial stiffness was assessed by analyzing central arterial pressure waveforms derived from measured radial artery waveforms. This allowed determination of the augmentation of central pressure and the augmentation index. Lipids, glucose, and IGF-I were also measured. Comparing the three groups (ANOVA; mean +/- SD), the augmentation index was higher in group A (28 +/- 12 vs. 12 +/- 13%; P < 0.01) but not in group B (22 +/- 7 vs. 12 +/- 13%; P = 0.60), compared with controls. IGF-I was higher in group A (50.3 +/- 21.2 nmol/liter; P < 0.01), compared with group B (22.5 +/- 8.9 nmol/liter) and controls (19.5 +/- 5.3 nmol/liter). On regression analysis, IGF-I concentration was identified as a strong independent predictor of the augmentation index (beta = 0.50; P = 0.007). There were no significant differences in aortic systolic pressure, aortic diastolic pressure, lipids, or glucose. Compared with baseline, OCT-LAR treatment resulted in a lowering of augmentation index at 3 months (20 +/- 15 vs. 28 +/- 12%; P < 0.05), but at 6 months (24 +/- 16%; P = 0.21) there was no significant change. IGF-I was reduced from 50.3 +/- 21.2 nmol/liter at baseline to 31.4 +/- 13.2 nmol/liter at 3 months (P < 0.05) and 26.6 +/- 15.8 nmol/liter at 6 months (P < 0.05). In conclusion, acromegaly is associated with changes in the central arterial pressure waveform, suggesting large artery stiffening. This may have important implications for cardiac morphology and performance in acromegaly as well as increasing the susceptibility to atheromatous disease. Large artery stiffness is reduced in cured acromegaly and partially reversed after pharmacological treatment of active disease.
Although GH deficiency may underlie the increased cardiovascular risk in adult hypopituitarism, other coexisting hormonal deficiencies and/or unphysiological hormone replacement may contribute. L-Deamino-8-D-arginine (DDAVP), when administered parenterally, potentiates hemostasis by increasing plasma procoagulant factors. We investigated whether chronic intranasal DDAVP therapy influences clotting factors (plasma fibrinogen, factor VIII, and von Willebrand factor antigen) and endothelial function (flow-mediated dilation of the brachial artery) in 30 GH-treated hypopituitary subjects, including both DDAVP-treated subjects (group A) (mean age, 46 +/- 11 yr) and vasopressin-sufficient subjects (group B) (mean age, 47 +/- 16 yr). Fifteen healthy controls (group C) (mean age, 48 +/- 12 yr) were also studied. All hypopituitary patients were receiving stable GH replacement (median duration, 19 months). Comparing the three groups, concentrations of fibrinogen (mean +/- SD) (A, 3.3 +/- 1.0 g/liter vs. B, 3.5 +/- 0.9 vs. C, 2.6 +/- 0.8, P < 0.05), factor VIII (A, 130% +/- 30% vs. B, 128% +/- 30% vs. C, 104% +/- 35%, P < 0.05) and von Willebrand factor antigen (A, 124% +/- 35% vs. B, 134% +/- 45% vs. C, 93% +/- 36%, P < 0.05) were higher in hypopituitary subjects, compared with controls. However, there were no differences in clotting factors between groups A and B. Flow-mediated dilation did not differ significantly between the two hypopituitary groups (A, 5.9% +/- 2.0% vs. B, 4.7% +/- 1.6%) and was similar to that in the control group (C, 5.7% +/- 2.1%). In conclusion, although endothelium-dependent vasodilation is intact in GH-treated hypopituitary adults, elevated concentrations of hemostatic markers suggest the persistence of a prothrombotic tendency and endothelial dysfunction. Intranasal DDAVP does not appear to influence this proatherogenic profile in hypopituitary adults with vasopressin deficiency.
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