Arterial stiffness and pulse pressure in CKD and ESRD

We recognize that increased systolic pressure is the most challenging form of hypertension today and that pulse pressure as an independent cardiovascular risk factor has focused attention on arterial stiffness and wave reflections as the most important factors determining these pressures. In recent years, many studies emphasized the role of arterial rigidity in the development of cardiovascular diseases, and it was shown that stiffening of arteries is associated with increased cardiovascular mortality and morbidity. Moreover,arterial stiffening is linked to decreased glomerular filtration rate, and is predictive of kidney disease progression and the patient’s cardiovascular outcome. Premature vascular aging and arterial stiffening are observed with progression of chronic kidney disease (CKD) and in end-stage renal disease(ESRD). This accelerated aging is associated with outward remodeling of large vessels, characterized by increased arterial radius not totally compensated for by artery wall hypertrophy. Arterial stiffening in CKD and ESRD patients is of multifactorial origin with extensive arterial calcifications representing a major covariate. With aging, the rigidity is more pronounced in the aorta than in peripheral conduit arteries, leading to the disappearance or inversion of the arterial stiffness gradient and less protection of the microcirculation from high-pressure transmission. Various non-pharmacological or pharmacological interventions can modestly slow the progression of arterial stiffness,but arterial stiffness is, in part, pressure dependent and treatments able to stop the process mainly include antihypertensive drugs.     

Cardiovascular disease in chronic renal failure: pathophysiologic aspects

Cardiovascular complications are the leading cause of mortality in patients with end-stage renal disease (ESRD). The excess cardiovascular risk and mortality is already demonstrable in early renal disease and in patients with chronic renal failure (CRF), with the highest relative risk of mortality in the youngest patients. The high risk for cardiovascular disease (CVD) results from the additive effect of multiple factors, including hemodynamic overload and several metabolic and endocrine abnormalities more or less specific to uremia. CVD includes disorders of the heart (left ventricular hypertrophy [LVH], cardiomyopathy) and disorders of the vascular system (atherosclerosis, arteriosclerosis), these two disorders being usually associated and interrelated. LVH is the most frequent cardiac alteration in ESRD, resulting from a combined pressure and volume overload. LVH in general is an ominous prognostic sign and an independent risk factor for arrhythmias, sudden death, heart failure, and myocardial ischemia. Regression of LVH needs a combined intervention to reduce hemodynamic overload and is associated with improved prognosis and survival. Clinical studies have shown that damage of large conduit arteries is a major contributing factor for the high incidence of congestive heart failure (CHF), LVH, ischemic heart disease (IHD), sudden death, cerebrovascular accidents, and peripheral artery diseases. Damage to large conduit arteries is principally related to highly calcified occlusive atherosclerotic lesions and to stiffening of large capacitive arteries. These two complications are independent risk factors for survival, and improvement of arterial stiffness is associated with better prognosis and survival. The present review summarizes the most recent works dealing with the pathophysiology of CVD and some aspects of the therapeutic approach.     

Mineral metabolism and arterial functions in end-stage renal disease: potential role of 25-hydroxyvitamin D deficiency

In ESRD, arterial function is abnormal, characterized by decreased capacitive function (arterial stiffening) and reduced conduit function, shown by diminished flow-mediated dilation (FMD). The pathophysiology of these abnormalities is not clear, and this cross-sectional study analyzed possible relationships among arterial alterations and cardiovascular risk factors, including mineral metabolism parameters, such as serum parathormone, and vitamin D "nutritional" and "hormonal" status by measuring serum 25-hydroxyvitamin D [25(OH)D(3)] and 1,25-dihydroxyvitamin D(3) [1,25(OH)(2)D(3)] levels. Aortic stiffness (pulse wave velocity), brachial artery (BA) distensibility (echotracking; n = 42), BA FMD (hand-warming; n = 37), and arterial calcification scores (echography and plain x-rays) were measured in 52 stable and uncomplicated patients who were on hemodialysis. 25(OH)D(3) and 1,25(OH)(2)D(3) serum levels were low and weakly correlated (r = 0.365, P < 0.05). After adjustment for BP and age, multivariate analyses indicated that 25(OH)D(3) and 1,25(OH)(2)D(3) were negatively correlated with aortic pulse wave velocity (P < 0.001) and positively correlated with BA distensibility (P < 0.01) and FMD (P < 0.001). Arterial calcification scores were not independently associated with 25(OH)D(3) and 1,25(OH)(2)D(3) serum concentrations. These results suggest that nutritional vitamin D deficiency and low 1,25(OH)(2)D(3) could be associated with arteriosclerosis and endothelial dysfunction in patients who have ESRD and are on hemodialysis.     

Arterial stiffening and vascular calcifications in end-stage renal disease.

BACKGROUND: Epidemiological studies have identified aortic stiffness as an independent predictor of cardiovascular mortality in end-stage renal disease (ESRD) patients. In these patients, aortic pulse wave velocity (PWV) was associated with mediacalcosis, but the influence of arterial calcifications on the viscoelastic properties of large arteries was not well characterized. The purpose of the present study was to analyse the influence of arterial calcifications on arterial stiffness in stable haemodialysed patients. METHODS: We studied 120 stable ESRD patients on haemodialysis. All patients underwent B-mode ultrasonography of common carotid artery (CCA), aorta, and femoral arteries to determine CCA distensibility, the elastic incremental modulus (Einc), and the presence of vascular calcifications. All patients underwent measurement of aortic PWV and echocardiogram. The presence of calcifications was analysed semiquantitatively as a score (0 to 4) according to the number of arterial sites with calcifications. RESULTS: Our observations indicate that arterial and aortic stiffness is significantly influenced by the presence and extent of arterial calcifications. The extent of arterial calcifications is in part responsible for increased left ventricular afterload, and is inversely correlated with stroke volume. The influence of calcifications is independent of the role of ageing and blood pressure. Arterial calcifications density increases with age, duration of haemodialysis, the fibrinogen level, and the prescribed dose of calcium-based phosphate binders. CONCLUSIONS: The results of this study showed that the presence of vascular calcifications in ESRD patients was associated with increased stiffness of large capacity, elastic-type arteries, like the aorta and CCA. The extent of arterial calcifications increased with the use of calcium-based phosphate-binders.     

Arterial stiffness and function in end-stage renal disease

Cardiovascular disease is a major cause of mortality in patients with end-stage renal disease, with damage to arteries as a major contributing factor. Arterial stiffness is a factor associated with high systolic and pulse pressure in these patients and is a strong independent factor associated with morbidity and mortality. Arterial stiffness is one of the principal factors opposing left ventricular ejection. The appropriate term to define the arterial factor(s) opposing left ventricular ejection is aortic input impedance. Aortic input impedance depends on TPR, arterial distensibility, and wave reflections. Distensibility defines the capacitive properties of arterial stiffness, whose role it is to dampen pressure and flow oscillations and to transform pulsatile flow and pressure in arteries into a steady flow and pressure in peripheral tissues. Stiffness is the reciprocal value of distensibility. These parameters are blood pressure dependent; arteries become stiffer at high pressure. While distensibility provides information about the elasticity of the artery as a hollow structure, the elastic incremental modulus characterizes the properties of the arterial wall biomaterials independent of vessel geometry. Alternatively, arterial distensibility can be evaluated by measuring pulse wave velocity, which increases with the stiffening of arteries. Arterial stiffening increases left ventricular afterload and alters the coronary perfusion. With increased pulse wave velocity, the wave reflections affects the aorta during systole, which increases systolic pressures and myocardial oxygen consumption and decreases diastolic blood pressure and coronary flow. The arterial stiffness is altered primarily in association with increased collagen content and alterations of extracellular matrix and calcification of the arterial wall. The arterial stiffening estimated by changes in aortic pulse wave velocity and intensity of wave reflections are independent predictors of survival in end-stage renal disease and in the general population. Improvement of arterial stiffening could be obtained by antihypertensive treatments as observed with calcium-channel blockers and angiotensin-converting enzyme inhibitors. Angiotensin-converting enzymes inhibitors increase AC and reduce wave reflections. It has been shown that reversibility of aortic stiffening and use of angiotensin-converting enzyme inhibitors had a favorable independent effect on survival in hypertensive patients with advanced renal disease.     

Which Parameter Is More Influential on the Development of Arteriosclerosis in Hemodialysis Patients?

Arteriosclerosis is characterized by stiffening of arteries. The incremental elastic modulus (Einc) measurement is a good marker of arterial wall stiffness. Metabolic, inflammatory and hemodynamic alterations cause structural changes and vascular complications in end stage renal disease. The aim of the present study was to evaluate the factors that may affect the development of arteriosclerosis by measurement of Einc in hemodialysis (HD) patients. Thirty-two patients (16 men; 16 female) on chronic HD with a mean age of 42.2 ± 19.3 (range: 15–80) were included in the study. The carotid Einc was measured to determine arteriosclerosis by high-resolution echo-tracking system (Acuson Aspen, Acuson Corp., Mountain View, California, USA). Einc measurement was calculated from transcutaneous measurements of common carotid arterial (CCA) internal diameter and wall thickness and carotid pulse pressure. Common carotid compliance and distensibility were determined from changes in carotid artery diameter during systole and simultaneously measured carotid pulse pressure. Common carotid artery stuffiness (Einc) was influenced by age, systolic blood pressure (SBP), pulse pressure (PP), calcium (Ca) and alkaline phosphatase (ALP). The distensibility of CCA was correlated with age, SBP, diastolic blood pressure (DBP), PP, Ca, ALP, and parathormone (PTH). The inflammatory parameter, hs-CRP, was increased with Einc. The mean Einc measurement was found significantly increased in patient receiving vitamin D. In conclusion, the stiffening of carotid artery in HD patients is related not only to hemodynamic changes (increased SBP, PP) but also to metabolic (increased Ca) and to inflammation (increased hs-CRP). Carotid Einc is accepted independent risk factor for cardiovascular mortality. Because of the positive correlation between Einc and serum Ca, vitamin D and Ca containing phosphorus (P) binders should be used carefully.     

Which parameter is more influential on the development of arteriosclerosis in hemodialysis patients?

Arteriosclerosis is characterized by stiffening of arteries. The incremental elastic modulus (Einc) measurement is a good marker of arterial wall stiffness. Metabolic, inflammatory and hemodynamic alterations cause structural changes and vascular complications in end stage renal disease. The aim of the present study was to evaluate the factors that may affect the development of arteriosclerosis by measurement of Einc in hemodialysis (HD) patients. Thirty-two patients (16 men; 16 female) on chronic HD with a mean age of 42.2 +/- 19.3 (range: 15-80) were included in the study. The carotid Einc was measured to determine arteriosclerosis by high-resolution echo-tracking system (Acuson Aspen, Acuson Corp., Mountain View, California, USA). Einc measurement was calculated from transcutaneous measurements of common carotid arterial (CCA) internal diameter and wall thickness and carotid pulse pressure. Common carotid compliance and distensibility were determined from changes in carotid artery diameter during systole and simultaneously measured carotid pulse pressure. Common carotid artery stuffiness (Einc) was influenced by age, systolic blood pressure (SBP), pulse pressure (PP), calcium (Ca) and alkaline phosphatase (ALP). The distensibility of CCA was correlated with age, SBP, diastolic blood pressure (DBP), PP, Ca, ALP, and parathormone (PTH). The inflammatory parameter, hs-CRP, was increased with Einc. The mean Einc measurement was found significantly increased in patient receiving vitamin D. In conclusion, the stiffening of carotid artery in HD patients is related not only to hemodynamic changes (increased SBP, PP) but also to metabolic (increased Ca) and to inflammation (increased hs-CRP). Carotid Einc is accepted independent risk factor for cardiovascular mortality. Because of the positive correlation between Einc and serum Ca, vitamin D and Ca containing phosphorus (P) binders should be used carefully.     

Cardiovascular disease as a late complication of end-stage renal disease in children

As in older adults, cardiovascular disease is the most important cause of death in adolescents and young adult patients with end-stage renal disease (ESRD) since childhood. This concerns patients on dialysis as well as transplant patients, despite the fact that a long duration of dialysis during childhood is an extra mortality risk factor. Left ventricular hypertrophy (LVH), aortic valve calcification, and increased arterial stiffness, but not increased arterial intima media thickening, are the most frequently observed alterations in young adult survivors with childhood ESRD. In transplanted patients a concentric LVH as a result of chronic hypertension is mostly observed; in dialysis patients a more asymmetric septal LVH is found as a result of chronic volume overload. These results suggest that in children and young adults with ESRD chronic pressure and volume overload, a high calcium-phosphate product, and chronic inflammation, but not dyslipidemia, play a role in the development of cardiovascular disease.This work was presented in part at the IPNA Seventh Symposium on Growth and Development in Children with Chronic Kidney Disease: The Molecular Basis of Skeletal Growth, 1–3 April 2004, Heidelberg, Germany     

Morphology of the heart and arteries in renal failure

In patients with renal failure, cardiovascular complications are a major clinical problem; cardiac death is the main cause of death in these patients. Cardiac risk is increased by a factor of 20 in uremic patients, compared with matched segments of the general population. It has been known for a long time that atherosclerosis, particularly plaque in the epicardiac coronary conduit arteries, are more frequent in patients with chronic renal failure. Recently, however, clinical studies showed that myocardial infarction is responsible for only 30% to 50% of all cardiac deaths. In contrast, 30% to 40% of patients with renal failure and ischemic heart disease show patent coronary arteries on coronary angiogram. Thus, it is very likely that in uremic patients myocardial ischemia tolerance is markedly reduced even in the absence of classical atherosclerosis (i.e., relevant stenosis of coronary arteries). This finding in uremic patients can be at least partially explained by structural and metabolic abnormalities of the myocardium, and in part by alterations of the extracardiac vasculature. The present paper focuses on structural changes of the heart and the vasculature, in particular on atherosclerosis of cardiac and extracardiac arteries, and its potential repercussions for cardiovascular function. In 1827 Richard Bright already pointed to the common presence of left ventricular hypertrophy (LVH) and thickening of the aorta in patients with end-stage renal failure (ESRF). At present, cardiovascular complications account for 45% of all deaths in uremic patients [1]. The recent report of Herzog, Ma, and Colins [2] documented a 59.3% 1-year mortality rate in dialyzed patients who survived myocardial infarction (i.e., mortality was significantly higher than in the general population). It is widely acknowledged that several specific structural and nonstructural alterations of the heart and the extracardiac vasculature are present in patients with renal failure, which presumably contribute to the markedly increased cardiovascular risk in these patients [3].     

THE CLINICAL EPIDEMIOLOGY OF CARDIOVASCULAR DISEASES IN CHRONIC KIDNEY DISEASE: Hemodynamic Cardiovascular Risk Factors in Chronic Kidney Disease: What are the Effects of Intervention?

Left ventricular (LV) volume and pressure overload occur frequently in chronic kidney disease (CKD). Anemia is a risk factor for left ventricular hypertrophy (LVH) and dilatation, heart failure, and death. Normalization of hemoglobin with erythropoietin may prevent LVH and dilatation in CKD, but in patients in later phases of their cardiac disease, this intervention is not of benefit. Increased vascular volume causes hypertension, which in turn causes LVH, cardiac failure, and ischemic heart disease (IHD). Manifestations of arteriosclerosis are associated with adverse cardiac outcomes, and angiotensin converting enzyme (ACE) inhibitors may improve LVH and markers of arteriosclerosis. Aortic stenosis in dialysis patients occurs infrequently, but may deteriorate rapidly. The hemodialysis milieu is the quintessential model of LV overload cardiomyopathy.     

Arterial and cardiac disease in young adults with childhood-onset end-stage renal disease-impact of calcium and vitamin D therapy.

BACKGROUND: Studies in patients with childhood-onset end-stage renal disease (ESRD) provide a diagnostic window to the evolution of cardiovascular disease (CVD) in this population. Hyperphosphataemia and renal osteodystrophy are particularly difficult to treat in paediatric patients, but there is only limited information regarding the effect of calcium-containing phosphate binders and vitamin D preparations on the development of CVD in the young. METHODS: We studied 40 adult patients (mean age 23.6 years) who developed ESRD at the age of 11.5 +/- 4 years and 40 matched healthy control subjects. Nine patients were on dialysis and 31 had a functioning kidney transplant. Measurements included intima-media thickness (IMT) of the common carotid artery, electron beam computed tomography (EBCT) for the detection of coronary artery calcifications (CAC), echocardiography and post-ischaemic arterial blood flow by venous occlusion plethysmography. Patient characteristics, atherosclerotic risk factors and a complete account of prescribed medications were analysed for correlations with arterial and cardiac changes. RESULTS: The IMT was not significantly different in patients and controls; four patients (10%) had coronary calcifications on EBCT. Twenty-five patients (62.5%) had left ventricular hypertrophy. Patients had a 40% reduction of post-ischaemic arterial flow. Morphological alterations of the heart and arteries were significantly correlated with the duration of ESRD and dialysis time, and with the cumulative intake of calcium-containing phosphate binders and active vitamin D preparations. Functional changes (vascular reactivity) were correlated with duration of ESRD and non-traditional risk factors. CONCLUSIONS: Young adults with ESRD since childhood have systemic CVD characterized by a decrease in arterial elasticity, the occurrence of CAC and changes in left ventricular morphology. Treatment with calcium-containing phosphate binders and active vitamin D preparations is independently associated in a dose-dependent manner with surrogate markers for CVD.     

Arterial remodeling associates with CKD progression

In CKD, large arteries remodel and become increasingly stiff. The greater pulsatile pressure reaching the glomerulus as a result of increased aortic stiffness could induce renal damage, suggesting that the stiffening and remodeling of large arteries could affect the progression of CKD. We measured carotid-femoral pulse wave velocity, aortic pressure and carotid remodeling and stiffness parameters in 180 patients with CKD (mean measured GFR, 32 ml/min per 1.73 m(2)) and followed them prospectively for a mean of 3.1 years. During follow-up, carotid stiffness significantly increased (+0.28 ± 0.05 m/s; P<0.0001) but aortic stiffness did not. Carotid intima-media thickness decreased significantly during follow-up and the internal diameter of the carotid increased, producing increased circumferential wall stress (+2.08 ± 0.43 kPa/yr; P<0.0001). In a linear mixed model, circumferential wall stress significantly associated with faster GFR decline after adjustment for risk factors of cardiovascular disease and progression of CKD. In a multivariable Cox model, carotid circumferential wall stress and pulse pressure independently associated with higher risk for ESRD. None of the arterial stiffness parameters associated with progression of CKD. In conclusion, maladaptive remodeling of the carotid artery and increased pulse pressure independently associate with faster decline of renal function and progression to ESRD.     

Left ventricular remodeling and arterial remodeling in patients with chronic kidney disease stage 1–3

Abstract

Introduction: Chronic kidney disease (CKD) is an independent factor for cardiovascular system complications, such as arterial hypertension, left ventricular hypertrophy (LVH), heart failure or accelerated atherosclerosis progression. The aim of the paper was to analyze left ventricular and arterial remodeling in patients with CKD stages 1–3 to identify the subclinical marker of cardiovascular system damage which changes first in the course of CKD. Methods: The examined group consisted of 90 patients with CKD stage 1–3 and 30 subjects constituting the control group. Left ventricular mass index (LVMI), left ventricular relative wall thickness (RWT) and ejection fraction (EF) were determined by echocardiographic examination. Pulse wave velocity (PWV) between the carotid and femoral arteries as well as common carotid artery intima–media thickness (IMT) was measured. 24-h ambulatory blood pressure monitoring was performed in all subjects. Results: No differences were found between blood pressure values in the examined groups of patients with CKD1, CKD2 and CKD3. Concentric remodeling was found in 20.0%, concentric hypertrophy in 22.2% and eccentric hypertrophy in 18.9% of patients. LVMI values in patients with CKD2 and 3 were higher than in the control group. IMT values in patients with CKD3 were higher than in patients with CKD2. PWV in patients with stage 3 CKD was significantly higher than in the control group (p?<?0.05). Conclusions: In the course of CKD, the left ventricle undergoes remodeling earlier than large arterial vessels. Echocardiographic assessment of LVH in early stages of CKD may identify patients at increased cardiovascular risk.     

Brachial arterial pressure to assess cardiovascular structural damage: an overview and lessons from clinical trials

Epidemiological studies have emphasized the relationship between blood pressure (BP) and the incidence of cardiovascular diseases. Severity of hypertension was in the past judged on the basis of diastolic BP. More recent epidemiological studies have directed attention to systolic pressure as a better guide to cardiovascular and all-cause mortality. Traditionally, hypertension was appreciated by measures of BP recorded in peripheral arteries, usually brachial artery which was assumed to reflect pressures in all parts of arterial system. All these studies neglected that peripheral systolic BP differs from pressure recorded in the aorta and central arteries. While mean and diastolic pressures are almost constant along the arterial tree, due to the stiffness and geometric heterogeneity of large arteries and the timing and magnitude of wave reflections systolic BP and pulse pressure are amplified from the aorta to peripheral arteries, and brachial systolic BP only indirectly reflects the systolic BP in the aorta and central arteries. Several recent studies have shown that the effects of antihypertensive drugs are not the same in peripheral and central arteries, fact which could account for different effects of various drugs on end-organ damage, such as regression of left ventricular hypertrophy. Moreover, it has been shown that aortic and central artery pressure (or their determinants) are stronger predictors of end-organ damage and cardiovascular outcome than conventionally measured brachial pressure. These studies have focused the attention on the physical properties of large arteries and on the way they influence the level of systolic and pulse pressures along the arterial tree.     

Arteriosclerosis, vascular calcifications and cardiovascular disease in uremia

PURPOSE OF REVIEW: Arterial calcification in chronic kidney disease (CKD) is associated with increased cardiovascular risk. The mechanisms responsible for arterial calcification include alterations of mineral metabolism and expression of mineral-regulating proteins. RECENT FINDINGS: Arterial calcification is similar to bone formation, involving differentiation of vascular smooth muscle cells (VSMCs) into phenotypically distinct osteoblast-like cells. Elevated phosphate and/or calcium trigger a concentration-dependent increase of calcium precipitates in VSMC in vitro. The calcification is initiated by VSMC release of membrane-bound matrix vesicles and formation of apoptotic bodies. The presence of serum prevents these changes, indicating the presence of calcification inhibitors. Arterial calcification occurs in two sites: the tunica intima and tunica media. Intimal calcification is a marker of atherosclerotic disease and is associated with arterial stenotic lesions. Medial calcification influences outcome by promoting arterial stiffening whose principal consequences are left-ventricular hypertrophy and altered coronary perfusion. Aortic stiffness is an independent predictor of all-cause and cardiovascular mortality in CKD patients. Age, duration of dialysis, smoking and diabetes are risk factors for the development of arterial calcification in end-stage renal disease. Oversuppression of parathyroid hormone and low bone turnover potentiate the development of arterial calcification. SUMMARY: Arterial disease in CKD patients is characterized by extensive calcification. Evidence has accumulated pointing to the active and regulated nature of the calcification process. Elevated phosphate and calcium may stimulate sodium-dependent phosphate cotransport involving osteoblast-like changes in cellular gene expression. Arterial calcification is responsible for stiffening of the arteries with increased left-ventricular afterload and abnormal coronary perfusion as the principal clinical consequences.     

Arterial hypertension, chronic renal insufficiency and dialysis

The principal characteristic of hypertension in chronic kidney disease (CKD), especially at CKD stage 5. Is an increased systolic pressure, with normal or even low diastolic pressure. This isolated systolic hypertension is also characterized by ab abnormal increase in pulse pressure which is by itself an independent cardiovascular risk factor. The principal reason for these abnormalities is accelerated ageing of arterial system, principally the aorta and large central arteries. This ageing is characterized by stiffening of arteritis whose natural history is not clearly understood. One of the principal pathogenic factor associated with stiffening is extensive calcification of arterial walls, mainly the medial layer (media-calcinosis). Mineral metabolism disorders such as hyperphosphatemia, play a major role in pathophysiology of calcifications. Arterial stiffness is characterized by very steep volume-pressure relationship and for this reason is associated with hemodynamic instability. Small blood volume increase producing abnormally high pressure while small decrease in blood volume could be associated with deep hypotension.     

Coronary artery calcification and aortic pulse wave velocity in chronic kidney disease patients

BACKGROUND: Patients with end-stage renal disease (ESRD) are at increased risk of cardiovascular mortality and morbidity. Many complications arise in ESRD patients as a result of the twin arterial pathologies of atherosclerosis and arteriosclerosis. Part of this latter process is calcification of the arterial media, which is thought significantly to increase vascular stiffness. The aim of our study was to explore the relationship between measures of arterial stiffness-pulse wave velocity (PWV)-and the extent of calcification in the coronary arteries (CAC). METHODS: Over a period of 2 years 82 patients from our renal unit were invited to participate in our study. Sixty-two patients agreed to undergo electron beam computerized tomography (EBCT), and in 55 (38 males and 17 females), PWV measurements were made. EBCT and PWV measurements were done according to previously described protocols. RESULTS: The mean age of the 55 patients was 56.4 years. The mean duration of dialysis was 65.4 months, and the mean CAC score was 2551. The mean PWV was 9.13 m/s. PWV strongly correlated with total CAC even after correction for age, dialysis duration, and time averaged C-reactive protein (CRP) (P= 0.0001). CAC scores were significantly different when compared according to PWV tertiles (P= 0.0001). CONCLUSION: We have demonstrated that PWV is strongly related to the degree of EBCT-derived coronary artery calcium score in chronic kidney disease patients.     

Morphofunctional criteria for the selection of patients with ischemic heart disease and associated arterial hypertension for surgical treatment

After examination of 255 patients with ischemic heart disease (IHD) and concomitant arterial hypertension (AH) two groups were distinguished according the level of arterial pressure. Group 1 was formed of 89 patients (arterial pressure below 180/80 mm Hg), group 2--of 166 patients (arterial pressure above 180/100 mm Hg). Survival was determined according to certain morphofunctional indices (total affection of coronary arteries, left ventricular output fraction, left ventricular end diastolic pressure, tolerance to physical effort) in nonoperated on and operated on patients suffering from IHD and concomitant AH. It was found that the operation affects positively the "quality" of life more than the survival.     

Cardiovascular disease in the dialysis population: prognostic significance of arterial disorders

PURPOSE OF REVIEW: Cardiovascular disease is a major factor in the high mortality of patients with end-stage renal disease, and this population is particularly appropriate to analyse the impact of cardiovascular risk markers on outcome. RECENT FINDINGS: Cardiovascular risk markers in end-stage renal disease include age, left ventricular mass, carotid intima-media thickness, blood pressure and aortic stiffness (pulse wave velocity). Aortic pulse wave velocity has been shown to be an independent predictor of cardiovascular mortality in patients with end-stage renal disease and the general population. Aortic pulse wave velocity has the highest sensitivity and specificity as a predictor of cardiovascular death in end-stage renal disease patients. Pulse wave velocity is an integrated index of vascular function and structure, and is a major determinant of systolic hypertension, thereby increasing left ventricular afterload, left ventricular hypertrophy and left ventricular oxygen consumption. Decreased diastolic blood pressure, another consequence of arterial stiffening, is associated with decreased coronary perfusion contributing to ischaemic heart disease and evolution of adaptive into maladaptive left ventricular hypertrophy. SUMMARY: Aortic stiffness measurements could serve as an important tool in identifying end-stage renal disease patients at higher risk of cardiovascular disease. The ability to identify these patients would lead to better risk stratification and earlier and more cost-effective preventive therapy.     

Cardiac consequences of hypertension in hemodialysis patients

Hypertension in end-stage renal disease (ESRD) is an important risk factor for left ventricular hypertrophy (LVH), cardiac failure, coronary artery disease (CAD), and arrhythmia. LVH is generally considered an integrator of the long-term effects of hypertension and other cardiovascular (CV) risk factors and represents the strongest predictor of adverse CV outcomes in ESRD patients. The risk of heart failure is higher in patients with a history of hypertensive renal disease than in those with other diagnoses. Both coronary heart disease (CHD) and LVH predict congestive heart failure, which is often the ultimate cause of death in patients with cardiac ischemia or LVH. A history of long-standing hypertension is associated with ischemic heart disease both in cross-sectional and prospective studies in ESRD. Atrial fibrillation and ventricular arrhythmias are highly prevalent in dialysis patients and are implicated in mortality and sudden death in this population. Despite the lack of evidence from randomized controlled trials, it appears reasonable that interventions aimed at curbing the high CV mortality of ESRD should be targeted to both hypertension and LVH.