Mhairi K. Sigrist

Progressive Vascular Calcification over 2 Years Is Associated with Arterial Stiffening and Increased Mortality in Patients with Stages 4 and 5 Chronic Kidney Disease

BACKGROUND AND OBJECTIVES Vascular calcification is increasingly recognized as an important component of cardiovascular disease in chronic kidney disease. The objective of this study was to investigate prospectively the determinants, cardiovascular functional consequences, and survival associated with vascular calcification over 24 mo. DESIGN, SETTING, PARTICIPANTS, & MEASUREMENTS A total of 134 patients (60 on hemodialysis, 28 on peritoneal dialysis, and 46 with stage 4 chronic kidney disease) were studied. Vascular calcification of the superficial femoral artery was assessed using multislice spiral computed tomography; pulse wave velocity; all medications and time-averaged biochemical parameters were recorded at baseline and 12 and 24 mo. RESULTS A total of 101 patients remained at 24 mo. Progressive calcification was seen in 58 of 101 patients. Most (31 of 46) patients with an initial calcification score of zero did not develop calcification. The hemodialysis group demonstrated a greater degree of progression than patients who were on peritoneal dialysis or had stage 4 chronic kidney disease. Progressive calcification was associated with age, male gender, serum alkaline phosphatase, beta blockers, and lipid-lowering agents. Increases in vascular calcification correlated with increased arterial stiffness. Vascular calcification was present in 20 of 21 patients who died. Cox proportional hazard analysis identified change in calcification score, calcium intake from phosphate binders, and low albumin as risk factors for death. CONCLUSIONS Patients with stages 4 and 5 chronic kidney disease and preexisting vascular calcification exhibit significantly increased calcification over 24 mo. Rapid progression of calcification is associated with arterial stiffness and mortality.

Markers of arterial stiffness are risk factors for progression to end-stage renal disease among patients with chronic kidney disease stages 4 and 5.

Background: Factors associated with chronic kidney disease (CKD) contribute to an increased risk of cardiovascular disease and death. The impact of vascular disease on CKD progression is, however, less well studied. Methods: We examined the effect of markers of vascular disease on the risk of progression to end-stage renal disease (ESRD) in 35 patients with CKD stages 4–5. Superficial femoral artery calcification was assessed by CT scan. Augmentation index (AI) and pulse wave velocity (PWV) were measured by applanation tonometry. Results: After 12.4 (5.5–28.4) months, 22/35 patients (63%) had commenced dialysis. Cox regression analysis identified baseline estimated glomerular filtration rate (hazard ratio, HR, 0.54; 95% CI 0.41–0.70; p < 0.0001), urinary protein (HR 1.84; 95% CI 1.32–2.58; p = 0.0005), PWV (HR 1.30; 95% CI 1.07–1.60; p = 0.01), AI (HR 1.08; 95% CI 1.04–1.14; p = 0.0001) and pack years of smoking (HR 1.01; 95% CI 1.00–1.03; p = 0.02) as independent risk factors for time to ESRD (–2 log likelihood = 86.7; χ2 = 30.9; p < 0.0001). Repeat analysis using AI as a categorical variable revealed an HR of 17.5 (95% CI 4.43–68.9; p < 0.0001) for time to ESRD in those with AI above versus below the median. Conclusions: We have identified two markers of arterial stiffness as independent risk factors for progression to ESRD suggesting that vascular disease may contribute to CKD progression.

Elevated osteoprotegerin is associated with all-cause mortality in CKD stage 4 and 5 patients in addition to vascular calcification

BACKGROUND Cardiovascular disease is the leading cause of death in the chronic kidney disease (CKD) population. The mechanisms of vascular damage are not fully understood. The objective of this study was to prospectively investigate the importance of novel mediators of vascular damage, in conjunction with vascular calcification (VC), on survival. METHODS A total of 134 subjects [60 haemodialysis (HD), 28 peritoneal dialysis (PD) and 46 CKD stage 4] were studied. All survivors completed 40 months of follow-up. VC was measured using multi-slice spiral CT of the superficial femoral artery. Circulating osteoprotegerin (OPG), Fetuin-A and high sensitivity C-reactive protein (hs-CRP) were measured in addition to standard clinical biochemical analysis. RESULTS After a 40-month follow-up, 31 patients had died (27 men and 4 women). Of 31 subjects, 31 had evidence of significant VC. The majority of deaths were in the HD group (48%), 36% were PD subjects and 16% were CKD subjects. The outcome of interest was survival at the end of follow-up. Multivariate logistical regression analysis revealed male gender [OR 8.06 (1.34-48.450) P = 0.02], OPG >25 pmol/L [OR 5.31(1.35-20.88) P = 0.02] and hypoalbuminaemia [OR 0.26 (0.12-0.56) P < 0.01], were associated with increased odds of death. CONCLUSION We have previously reported that VC and low albumin predict death in CKD stages 4 and 5 over a 2-year follow-up period. These data show that OPG, independent of CRP, is also associated with a negative outcome. The mechanisms remain to be elucidated; however, it is likely that they are associated with vascular damage through mechanisms in addition to VC.

Angiopoietin-2 levels predict mortality in CKD patients

BACKGROUND The pathophysiology of aggravated atherosclerosis in chronic kidney disease (CKD) is still incompletely understood. However, there is an increasing focus on non-traditional risk factors, including endothelial dysfunction. Angiopoietin-2 (Ang-2) impairs endothelial function by inhibiting the binding of Angiopoietin-1 (Ang-1) to their shared receptor Tie2 and is increased in diabetes, hypertension, coronary heart disease and CKD. Furthermore, Ang-2 levels are associated with the prevalent vascular burden of CKD patients. Thus, we aimed to investigate its impact on outcome in CKD, the population most likely to die of cardiovascular events. METHODS We prospectively studied 128 CKD patients [43 CKD Stage 4, 85 CKD Stage 5 (57 haemodialysis, 28 peritoneal dialysis)] over a follow-up period of 4 years. Biochemical and clinical parameters, including objective scoring of vascular calcification (VC) by computed tomography (CT) and arterial stiffness by applanation tonometry (including radial-dorsalis pedis pulse wave velocity (PWVrd)) were recorded. Baseline Ang-1 [enzyme-linked immunosorbent assay (ELISA)], Ang-2 [immunoluminometric assay (ILMA)] and soluble Tie2 (sTie2) (ELISA) levels were measured in this group as well as in 20 healthy controls. RESULTS Ang-2 values were significantly higher in CKD patients than in controls (2.01 ± 0.94 versus 1.00 ± 0.47 ng/mL, P < 0.0001). Furthermore, Ang-2 was significantly higher in dialysis than in Stage 4 CKD patients and correlated with markers of vascular disease [cholesterol, hsCRP, osteoprotegerin (OPG)]. However, elevated Ang-2 was not associated with the degree of VC or with arterial stiffness. Cox-regression analysis detected Ang-2 as an independent predictor of mortality in both unadjusted [hazard ratio (HR) 1.15; P = 0.002] and models adjusted for age and VC (HR 1.14; P = 0.003). CONCLUSIONS Ang-2 levels are associated with systemic markers/mediators of micro-inflammation in CKD patients. Furthermore, elevated Ang-2 levels are strong predictors of long-term mortality, independent of conduit arterial stiffness or VC.

Myocardial contractile function and intradialytic hypotension

Dialysis‐induced hypotension remains a significant problem in hemodialysis (HD) patients. Numerous factors result in dysregulation of blood pressure control and impaired myocardial reserve in response to HD‐induced cardiovascular stress. Episodic intradialytic hypotension may be involved in the pathogenesis of evolving myocardial injury. We performed an initial pilot investigation of cardiovascular functional response to pharmacological cardiovascular stress in hypotension‐resistant (HR) and hypotension‐prone (HP) HD patients. We studied 10 matched chronic HD patients (5 HP, 5 HR). Dobutamine‐atropine stress (DAS) was performed on a nondialysis short interval day, with noninvasive pulse‐wave analysis using the Finometer® to continuously measure hemodynamic variables. Baroreflex sensitivity was assessed at rest and during DAS. Baseline hemodynamic variables were not significantly different. The groups had differing hemodynamic responses to DAS. The Mean arterial pressure was unchanged in the HR group but decreased in HP patients (−13.6 ± 3.5 mmHg; P<0.001). This was associated with failure to significantly increase cardiac output in the HP group (cf. increase in cardiac output in the HR group of +33.4 ± 6%; P<0.05), and a reduced response in total peripheral resistance (HP −10.3 ± 6.8%, HR −22.7 ± 2.9%, P=NS). Baroreflex sensitivity was not significantly different between groups at baseline or within groups with increasing levels of DAS; however, the mean baroreflex sensitivity was higher in HR cf. HP subjects throughout pharmacological stress (P<0.05). Hypotension‐prone patients appear to have an impaired cardiovascular response to DAS. The most significant abnormality is an impaired myocardial contractile reserve. Early identification of these patients would allow utilization of therapeutic strategies to improve intradialytic tolerability, potentially abrogating aggravation of myocardial injury.

Natural history of skeletal muscle mass changes in chronic kidney disease stage 4 and 5 patients: an observational study.

Cross-sectional studies in dialysis demonstrate muscle wasting associated with loss of function, increased morbidity and mortality. The relative drivers are poorly understood. There is a paucity of data regarding interval change in muscle in pre-dialysis and dialysis-dependant patients. This study aimed to examine muscle and fat mass change and elucidate associations with muscle wasting in advanced CKD. 134 patients were studied (60 HD, 28 PD, 46 CKD 4–5) and followed up for two years. Groups were similar in age, sex and diabetes prevalence. Soft tissue cross-sectional area (CSA) was measured annually on 3 occasions by a standardised multi-slice CT thigh. Potential determinants of muscle and fat CSA were assessed. Functional ability was assessed by sit-to-stand testing. 88 patients completed follow-up (40 HD, 16 PD, 32 CKD). There was a significant difference in percentage change in muscle CSA (MCSA) over year 1, dependant on treatment modality (χ2 = 6.46; p = 0.039). Muscle loss was most pronounced in pre-dialysis patients. Muscle loss during year 1 was partially reversed in year 2 in 39%. Incident dialysis patients significantly lost MCSA during the year which they commenced dialysis, but not the subsequent year. Baseline MCSA, change in MCSA during year 1 and dialysis modality predicted year 2 change in MCSA (adjusted R2 = 0.77, p<0.001). There was no correlation between muscle or fat CSA change and any other factors. MCSA correlated with functional testing, although MCSA change correlated poorly with change in functional ability. These data demonstrate marked variability in MCSA over 2 years. Loss of MCSA in both pre-dialysis and established dialysis patients is reversible. Factors previously cross-sectionally shown to correlate with MCSA did not correlate with wasting progression. The higher rate of muscle loss in undialysed CKD patients, and its reversal after dialysis commencement, suggests that conventional indicators may not result in optimal timing of dialysis initiation.

Differential Microvasculature Dysfunction in Living Kidney Donor Transplant Recipients: Nondialyzed versus Dialyzed Chronic Kidney Disease Patients

We hypothesized that there was differential vasomotor dysfunction in the microcirculation between nondialyzed and dialyzed chronic kidney disease (CKD) patients. During live donor kidney transplantation procedures, skin arterioles (SkA; internal diameter = 120 ± 5 µm) from donors (n = 27) and recipients (nondialysis = 15; dialysis = 20) were dissected from the abdominal wall at the incision site. In vivo aortic pulse wave velocity (PWV) was also measured. In the in vitro isometric force measurement, nondialyzed SkA exhibited comparable contraction to donor SkA, whereas dialyzed SkA had 60 and 40–50% increase in contraction in response to depolarization and agonist (that is, phenylephrine, serotonin and endothelin-1) stimulation, respectively. The acetylcholine-induced relaxation in the nondialyzed SkA was decreased by 50% compared with dialyzed SkA. However, pre-incubation with superoxide dismutase greatly enhanced the relaxation response in the nondialyzed, but not in the dialyzed SkA and donor SkA. Pre-incubation with NG-nitro-L-arginine methyl ester (L-NAME) elevated the resting tension and left-shifted the concentration response curve of phenylephrine-stimulated contraction in the donor-SkA. L-NAME only increased the resting tension in the nondialyzed vessel. In vitro stiffness positively correlated with PWV (R2 = 0.302, p = 0.001), and dialyzed SkA was 60% stiffer than nondialyzed and donor SkA. The acetylcholine relaxation was negatively correlated with PWV in donors and recipients (R2 = 0.282, p = 0.01). In conclusion, we have uniquely demonstrated differential microvasculature dysfunction between nondialyzed and dialyzed CKD patients.

Exploring the Relationships between Hemoglobin, the Endothelium and Vascular Health in Patients with Chronic Kidney Disease

Background/Aims: The ideal hemoglobin target in chronic kidney disease remains unknown. Ultimately, individualized targets may depend upon the properties of the patient’s endothelial and vascular milieu, and thus the complex relationships between these factors need to be further explored. Methods: Forty-six patients with a glomerular filtration rate (GFR) <30 ml/min/1.73 m2 or on renal replacement therapy underwent measurement of hemoglobin, endothelial microparticles (EMPs) and aortic pulse wave velocity (PWV) at 0, 3 and 6 months. In addition, a number of inflammatory, cardiac and vascular biomarkers were measured at baseline. Results: No correlation was observed between baseline values of PWV and EMPs, PWV and hemoglobin, or hemoglobin and EMPs in the overall cohort. When stratified by CKD status, a positive correlation was observed between PWV and EMP CD41–/CD144+ in patients with GFR <30 ml/min/1.73 m2 only (r = 0.54, p = 0.01). Asymmetric dimethylarginine correlated with baseline PWV (r = 0.27, p = 0.07), and remained significantly correlated with the 3- and 6-month PWV measurement. Conclusions: In this small heterogeneous cohort of dialysis and non-dialysis patients, we were unable to describe a physiologic link between anemia, endothelial dysfunction and arterial stiffness.