Fakülteler / Faculties
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Item Post-Transplant C-Reactive Protein Predicts Arterial Stiffness and Graft Function in Renal Transplant Recipients(2015) Demirci, B. Gurlek; Sezer, S.; Colak, T.; Sayin, C. B.; Tutal, E.; Haberal, M.; 0000-0002-8372-7840; 0000-0002-3462-7632; 26036547; AAJ-8554-2021; AAJ-8097-2021Background. The aim of this study was to evaluate the renal and cardiovascular outcomes of post-transplant c-reactive protein (CRP) levels. Methods. One hundred fifty renal transplant recipients (113 men; median age, 38.9 10.8 years) were cross-sectionally analyzed. Mean pre-transplant and post-transplant CRP levels were analyzed by the 1st, 3rd, 6th, 12th, and 24th months of transplantation. Patients were divided into 3 groups according to mean post-transplantation CRP levels: group 1 (CRP >20 mg/L and fluctuating levels; n = 34), group 2 (CRP, 6-20 mg/L; n = 40), and group 3 (CRP <6 mg/L; n = 76). Arterial stiffness was measured by means of carotid femoral pulse-wave velocity (PWv) by use of the SphygmoCor system. Results. Patients in group 1 had significantly lower estimated glomerular filtration rate (eGFR) (P = .000) and left ventricular systolic function and higher duration of dialysis before transplantation, pulse-wave velocity (PWv), proteinuria, and left ventricular mass index when compared with the other two groups. In regression analysis, eGFR and PWv were detected as the predictors of post-transplantation CRP levels. Conclusions. Fluctuating and high stable (>20 mg/L) post-transplant CRP levels predict eGFR, proteinuria, left ventricular mass index, and PWv after transplantation. Thus, CRP levels may be a useful marker to anticipate graft survival and cardiovascular morbidity in renal transplant recipients.Item Hyperviscosity in Renal Transplant Recipients(2015) Tutal, E.; Uyar, M. Erkmen; Uyanik, S.; Bal, Z.; Guliyev, O.; Toprak, S. K.; Ilhan, O.; Sezer, S.; Haberal, M.; 0000-0002-3462-7632; 0000-0001-7717-5827; 26036545; AAJ-8097-2021; H-9131-2012; IAO-2608-2023; AAZ-5795-2021; ABC-8182-2021Objective. The resistance of blood to flow is called plasma viscosity. Increased blood viscosity has been described in patients with coronary and peripheral arterial disease. In this study, we evaluated the influence of clinical and laboratory findings on plasma viscosity in renal transplant recipients. Methods. Eighty-one kidney transplant recipients (37.8 +/- 11.3 years old, 50.38 +/- 16.8 months post-transplantation period, 27 female) with normal graft functions were enrolled. The biochemical and clinical parameters in the 1st year after transplantation were retrospectively recorded, and graft function was evaluated by means of the yearly decline in eGFR. Plasma viscosity was measured and searched for the association with cross-sectionally analyzed cardiovascular parameters including body composition analyses, ambulatory blood pressure monitoring (ABPM) data, and pulse-wave velocity. Results. Patients were divided into 2 groups according to the median value of serum viscosity. Patients with high viscosity had higher serum low-density lipoprotein (P = .042) and C-reactive protein (P = .046) levels than lower viscosity group. In ABPM, daytime (P = .047) and office systolic (P = .046) blood pressure levels and left ventricular mass index (LVMI; P = .012) were significantly higher in patients with hyperviscosity. Patients with high viscosity had higher hip circumference (P = .038) and fat mass (P = .048). Estimated glomerular filtration rate decline was significantly higher in high-viscosity patients than in patients with low viscosity levels (12.9% vs 17.2%; P = .001) at 2 years' follow-up. Conclusions. We suggest that the hyperviscous state of the renal transplant recipients may arise from the inflammatory state, hypertension, and increased fat mass and increased LVMI. Hyperviscosity is also closely related to renal allograft dysfunction.