Robinson Joannides

Brachial Pressure–Independent Reduction in Carotid Stiffness After Long-Term Angiotensin-Converting Enzyme Inhibition in Diabetic Hypertensives

Hypertension and diabetes are associated with an increased arterial stiffness. A direct blood pressure–independent effect of angiotensin-converting enzyme inhibitors on arterial stiffness has never been unequivocally demonstrated. In this mechanistic study, we used an experimental design in which patients responding to 1 month treatment with 4 mg perindopril were randomized double-blind to either 4 mg perindopril or 8 mg perindopril for 6 months. We determined carotid distensibility with echotracking and applanation tonometry at baseline and after the 7-month treatment period in 57 essential hypertensive patients with type 2 diabetes (age 63±7 years). We monitored ambulatory blood pressure at baseline and after treatment. After 7 months treatment, 24-hour ambulatory blood pressure significantly decreased, with no significant difference between 4 mg and 8 mg perindopril. Carotid distensibility increased more after 8 mg perindopril compared with 4 mg perindopril (8 mg: from 13.1±5.9 to 16.0±6.7 kPa−1×10−3; 4 mg: from 13.2±5.2 to 12.7±5.9 kPa−1×10−3; ANOVA, dose-period interaction, P<0.05). Carotid internal diameter and elastic modulus were significantly lower after 8 mg perindopril compared with 4 mg perindopril, independent of blood pressure reduction. These results indicate a dose-dependent and blood pressure–independent reduction in carotid stiffness under chronic treatment with an angiotensin-converting enzyme inhibitor. They suggest that arterial distensibility was increased through an inward remodeling, leading to a reduction in wall stress, thus reducing elastic modulus. They also suggest that long-term administration of high doses (8 mg) of perindopril is required to improve carotid structure and function in hypertensive patients with type 2 diabetes.

Role of Nitric Oxide in the Regulation of the Mechanical Properties of Peripheral Conduit Arteries in Humans

Whether nitric oxide (NO) contributes to the regulation of the mechanical properties of large arteries in humans is not known. We measured the effect of local administration of the inhibitor of NO synthesis N(G)-monomethyl-L-arginine (L-NMMA; 1 and 4 micromol x L[-1] x min[-1] for 5 minutes) and acetylcholine (3 and 30 nmol x L[-1] x min[-1] for 3 minutes) on radial artery diameter and wall thickness in 11 healthy volunteers using an echo-tracking system coupled to a measurement of radial blood flow (Doppler) and arterial pressure. At the highest dose, L-NMMA reduced radial blood flow but surprisingly decreased incremental elastic modulus (from 1.36+/-0.22 to 1.00+/-0.22 kPa x 10[3]; P<.05) and increased arterial compliance (from 3.20+/-0.46 to 4.07+/-0.45 m2 x kPa x 10(-8), P<.05), without affecting radial artery internal diameter, wall thickness or midwall stress, thus reflecting a decrease in vascular tone. Acetylcholine decreased incremental elastic modulus (from 1.27+/-0.08 to 0.88+/-0.07 kPa x 10[3]; P<.05) and increased arterial diameter, radial blood flow, and compliance (from 2.82+/-0.16 to 5.30+/-0.62m2 x kPa x 10[-8]; P<.05). These results demonstrate in vivo that NO is involved in the regulation of the mechanical properties of large arteries in humans. However, the effects of L-NMMA, ie, a decrease in arterial wall rigidity and an increase in arterial compliance, which occur in the absence of any changes in blood pressure or arterial geometry, suggest that inhibition of NO synthesis is associated in humans with a paradoxical isometric smooth muscle relaxation. This effect could be due to the development of compensatory vasodilating mechanisms after NO synthesis inhibition.

Role of Basal and Stimulated Release of Nitric Oxide in the Regulation of Radial Artery Caliber in Humans

Although it is well established that nitric oxide contributes to the regulation of resistance arterial tone in humans, its role at the level of large arteries is less clear. Therefore, we assessed in healthy volunteers the effect of local administration of the inhibitor of nitric oxide synthesis NG-monomethyl-L-arginine (L-NMMA) on basal radial artery diameter (transcutaneous A-mode echotracking) and radial blood flow (Doppler) as well as on the radial response to acetylcholine and the nitric oxide donor sodium nitroprusside. A catheter was inserted into the brachial artery for measurement of arterial pressure and infusion of L-NMMA (2, 4 and 8 mumol/min for 5 minutes, n = 11), acetylcholine (3, 30, 300 and 900 nmol/min for 3 minutes, n = 8), and nitroprusside (2.5, 5, 10, and 20 nmol/min for 3 minutes, n = 6). None of the treatments affected arterial blood pressure or heart rate. L-NMMA dose-dependently decreased radial blood flow (from 31 +/- 6 to 17 +/- 3 10(-3) L/min after 8 mumol/min, P < .01) but did not affect radial artery diameter (from 2.93 +/- 0.11 to 2.90 +/- 0.14 mm). Acetylcholine dose-dependently increased radial blood flow (154 +/- 43% after 900 nmol/min) and radial artery diameter (16 +/- 4%), and both effects were markedly reduced after L-NMMA (increase in radial blood flow and radial artery diameter: 22 +/- 20% and 3 +/- 2%, respectively; both P < .01 versus controls). Nitroprusside also dose-dependently increased radial artery diameter (14 +/- 4% after 20 nmol/min) but only moderately affected radial blood flow (47 +/- 21%).(ABSTRACT TRUNCATED AT 250 WORDS)

Epoxyeicosatrienoic acid pathway in human health and diseases.

Abstract: In response to endothelial cell activation, arachidonic acid can be converted by cytochrome P450 (CYP) epoxygenases to epoxyeicosatrienoic acids (EETs), which have potent vasodilator and anti-inflammatory properties. EETs are rapidly degraded in vivo to the less active dihydroxyeicosatrienoic acids (DHETs) by soluble epoxide hydrolase (sEH). Since the beginning of the 2000s, the role of EET pathway in human health and its alteration in diseases has been shown by measuring EETs/DHET levels in blood, by evaluating the relationship between CYP/sEH gene polymorphisms, which modify enzyme activity and thus EETs/DHET level, and by assessing the inhibitory effect of the local administration of CYP epoxygenase inhibitor on endothelium-dependent dilatation. By combining these functional and biological approaches, we demonstrated that EETs are the endothelial factors released by CYP epoxygenases involved in the flow-mediated dilatation of conduit arteries in healthy subjects, together with the impairment of EET availability in essential hypertensive patients at this level. The modulation of EET pathway now emerges as a new promising pharmacological target that may improve the clinical management of patients at high cardiovascular risk. In this respect, the restoration of EET availability using a new class of agents, the inhibitors of sEH, gave promising results in various animal models of cardiovascular diseases, reducing blood pressure and target organ damage, and a first product has entered clinical evaluation.

Immunosuppressant Regimen Based on Sirolimus Decreases Aortic Stiffness in Renal Transplant Recipients in Comparison to Cyclosporine

Whether or not a cyclosporine A (CsA)‐free immunosuppressant regimen based on sirolimus (SRL) prevents aortic stiffening and improves central hemodynamics in renal recipients remains unknown. Forty‐four patients (48 ± 2 years) enrolled in the CONCEPT trial were randomized at week 12 (W12) to continue CsA or switch to SRL, both associated with mycophenolate mofetil. Carotid systolic blood pressure (cSBP), pulse pressure (cPP), central pressure wave reflection (augmentation index, AIx) and carotid‐to‐femoral pulse‐wave velocity (PWV: aortic stiffness) were blindly assessed at W12, W26 and W52 together with plasma endothelin‐1 (ET‐1), thiobarbituric acid‐reactive substances (TBARS) and superoxide dismutase (SOD) and catalase erythrocyte activities. At W12, there was no difference between groups. At follow‐up, PWV, cSBP, cPP and AIx were lower in the SRL group. The difference in PWV remained significant after adjustment for blood pressure and eGFR. In parallel, ET‐1 decreased in the SRL group, while TBARS, SOD and catalase erythrocyte activities increased in both groups but to a lesser extent in the SRL group. Our results demonstrate that a CsA‐free regimen based on SRL reduces aortic stiffness, plasma endothelin‐1 and oxidative stress in renal recipients suggesting a protective effect on the arterial wall that may be translated into cardiovascular risk reduction.

Epoxyeicosatrienoic Acids Contribute With Altered Nitric Oxide and Endothelin-1 Pathways to Conduit Artery Endothelial Dysfunction in Essential Hypertension

Background— We sought to clarify, using functional and biological approaches, the role of epoxyeicosatrienoic acids, nitric oxide (NO)/reactive oxygen species balance, and endothelin-1 in conduit artery endothelial dysfunction during essential hypertension. Methods and Results— Radial artery diameter and mean wall shear stress were determined in 28 untreated patients with essential hypertension and 30 normotensive control subjects during endothelium-dependent flow-mediated dilatation induced by hand skin heating. The role of epoxyeicosatrienoic acids and NO was assessed with the brachial infusion of inhibitors of cytochrome P450 epoxygenases (fluconazole) and NO synthase (NG-monomethyl-L-arginine [L-NMMA]). Compared with controls, hypertensive patients exhibited a decreased flow-mediated dilatation in response to postischemic hyperemia as well as to heating, as shown by the lesser slope of their diameter–shear stress relationship. In controls, heating-induced flow-mediated dilatation was reduced by fluconazole, L-NMMA, and, to a larger extent, by L-NMMA+fluconazole. In patients, flow-mediated dilatation was not affected by fluconazole and was reduced by L-NMMA and L-NMMA+fluconazole to a lesser extent than in controls. Furthermore, local plasma epoxyeicosatrienoic acids increased during heating in controls (an effect diminished by fluconazole) but not in patients. Plasma nitrite, an indicator of NO availability, increased during heating in controls (an effect abolished by L-NMMA) and, to a lesser extent, in patients, whereas, inversely, reactive oxygen species increased more in patients (an effect diminished by L-NMMA). Plasma endothelin-1 decreased during heating in controls but not in patients. Conclusions— These results show that an impaired role of epoxyeicosatrienoic acids contributes, together with an alteration in NO/reactive oxygen species balance and endothelin-1 pathway, to conduit artery endothelial dysfunction in essential hypertension. Clinical Trial Registration— https://www.eudract.ema.europa.eu. Unique identifier: RCB2007-A001–10-53.

Fixed-dose combination of perindopril with indapamide in spontaneously hypertensive rats: haemodynamic, biological and structural effects.

Objective The present study was designed to test the effects of chronic combined treatment with low doses of an angiotensin converting enzyme inhibitor (perindopril) and of the diuretic indapamide in spontaneously hypertensive rats (SHR). Methods Adult SHR were treated with placebo or increasing doses of the combination of the drugs (0.3, 1 and 3 mg/kg per day; ratio of doses 0.32). In a separate set of experiments, the effect of the drugs combined (1 mg/kg per day) was compared with those induced by each drug alone. Results The drug combination dose-dependently decreased systolic blood pressure and its hypotensive effect was more marked than those induced by each treatment administered alone (untreated 208 ± 5 mmHg, indapamide 185+ 5 mmHg, perindopril 150 ± 3 and the combination 123 ± 7 mmHg). A 12-week treatment with the drug combination (1 mg/kg per day) was not accompanied by any change in diuresis or urinary excretion of Na+ or K+. The same treatment decreased cardiac hypertrophy and collagen. At the vascular level, the drug combination decreased aortic, carotid and femoral media cross-sectional areas, as well as aortic and carotid collagen density. This latter effect was accompanied by a significant increase in carotid artery compliance assessed in vivo at constant pressure. Finally, in isolated aortae, chronic combined drug treatment was associated with an increased basal release of nitric oxide and a decrease in the hypertension-induced endothelium-dependent contractions in response to acetylcholine. Conclusion These experiments suggest that chronic combined treatment with low doses of an angiotensin converting enzyme inhibitor and a diuretic such as indapamide may be of value in the treatment of hypertension.

Evaluation of the determinants of flow-mediated radial artery vasodilatation in humans.

The relative importance of the early peak response during hyperaemia and of the duration of the hyperaemic phase (t1/2: blood flow velocity half time and AUCt1/2: area under the curve of flow velocity at t1/2) in the magnitude of the flow-dependent vasodilatation of the radial artery was determined in humans. Radial artery diameter was measured continuously in 18 healthy volunteers using an echo-tracking system coupled to a Doppler device for the measurement of the radial blood flow. In 9 subjects, arterial parameters were measured at baseline and during 3 hyperaemic tests performed after 2, 5 or 10 minutes of ischaemia. Reproducibility of the measured parameters was studied in 9 other subjects. Radial artery diameter, AUCt1/2 and t1/2 increased proportionally with the duration of ischaemia. In contrast, the peak flow response was already maximal after 5 minutes of ischaemia. The regression analysis showed that the best fit model after stepwise analysis only included t1/2 (r = 0.85, p < 0.001). There was no correlation between the peak flow values and the duration of hyperaemia (r = 0.29, p = 0.14). These results demonstrate that conduit arteries postischaemic flow-dependent vasodilatation in humans is both determined by the peak value and by the duration of the hyperaemic phase and suggest that these two components must be considered when comparing this index of NO release between different groups of subjects.

Early stage detection of conduit artery endothelial dysfunction in patients with type 1 diabetes

Flow-mediated dilatation evaluation using hand skin heating may possibly be more accurate than post-ischaemic hyperaemia to detect conduit artery endothelial dysfunction in type 1 diabetes. We measured in 24 type 1 diabetic patients (n=16 without microangiopathy) and 24 healthy matched subjects radial artery diameter (echotracking), blood flow and mean wall shear stress during heating and post-ischaemic hyperaemia. Compared with controls, flow-mediated dilatation was lower in diabetic patients during post-ischaemic hyperaemia and heating. However, in the subgroup of uncomplicated patients, a decreased flow-mediated dilatation was only apparent during heating (17.1±1.6% vs. 24.3±0.7%, p<0.05) but not during post-ischaemic hyperaemia (10.1±1.1% vs. 10.5±0.6%, NS). This was confirmed by the lower slope of the diameter—mean wall shear stress relationship in these patients in the absence of modification in endothelium-independent dilatation. We conclude that hand skin heating permits the early detection of conduit artery endothelial dysfunction in type 1 diabetic patients with normal response to post-ischaemic hyperaemia. This procedure could be useful to investigate the prognostic role of vascular dysfunction and the impact of vasculoprotective treatments in this patient population.

High-efficiency on-line haemodiafiltration improves conduit artery endothelial function compared with high-flux haemodialysis in end-stage renal disease patients

BACKGROUND Middle molecular weight uraemic toxins are considered to play an important role in vascular dysfunction and cardiovascular outcomes in end-stage renal disease (ESRD) patients. Recent dialysis techniques based on convection, specifically high-efficiency on-line haemodiafiltration (HDF), enhance the removal of middle molecular weight toxins and reduce all-cause mortality in haemodialysis (HD) patients. However, the mechanisms of these improved outcomes remain to be established. METHODS This prospective study randomly assigned 42 ESRD patients to switch from high-flux HD to high-efficiency on-line HDF (n=22) or to continue HD (n=20). Brachial artery endothelium-dependent flow-mediated dilatation, central pulse pressure, carotid artery intima-media thickness (IMT), internal diastolic diameter and distensibility and circulating markers of uraemia, inflammation and oxidative stress were blindly assessed before and after a 4-month follow-up. RESULTS Brachial flow-mediated dilatation and carotid artery distensibility increased significantly in the HDF group compared with HD, while carotid IMT and diameter remained similar. HDF decreased predialysis levels of the uraemic toxins β2-microglobulin, phosphate and blood TNFα mRNA expression. Oxidative stress markers were not different between the HD and HDF groups. Blood mRNA expression of protein kinase C β2, an endothelial NO-synthase (eNOS) inhibitor, decreased significantly with HDF. CONCLUSIONS High-efficiency on-line HDF prevents the endothelial dysfunction and stiffening of the conduit arteries in ESRD patients compared with high-flux HD. HDF decreases uraemic toxins, vascular inflammation, and is associated with subsequent improvement in eNOS functionality. These results suggest that reduced endothelial dysfunction may be an intermediate mechanism explaining the beneficial outcomes associated with HDF.