The calcineurin inhibitors (CNIs) ciclosporin (CsA) and tacrolimus are currently an important par... more The calcineurin inhibitors (CNIs) ciclosporin (CsA) and tacrolimus are currently an important part of immunosuppressive regimens, but are associated with increased cardiovascular risk factors, including hyperlipidaemia, hypertension and diabetes mellitus. Conversion from CNI-based regimens to proliferation signal inhibitors or mammalian target of rapamycin inhibitors, such as everolimus and sirolimus, has been associated with an improvement in cardiovascular risk. This case
In an open, prospective, multicenter study, stable renal graft recipients were converted to tacro... more In an open, prospective, multicenter study, stable renal graft recipients were converted to tacrolimus because of cyclosporine-related side effects. Seventy-five patients were switched primarily because of hyperlipidemia. After the switch to tacrolimus, mean total cholesterol was reduced by 15% at month 6. One hundred seventy-seven additional patients were switched primarily for other indications: hypertrichosis, gingival hyperplasia, and arterial hypertension, and these symptoms also improved after the switch. In this analysis, serum lipid levels were categorized according to a modified standard classification of lipid parameters for renal transplant patients (published by the NKF Work Group). The aim was to estimate the proportion of patients reaching normal lipid levels after the conversion to tacrolimus therapy. In patients with primary indication hyperlipidemia, the proportion with normal cholesterol levels increased significantly from 5.6% at baseline to 37.5% at month 6 (P &l...
Target organs express antigens directly recognized by antigen-specific T cells, thereby precipita... more Target organs express antigens directly recognized by antigen-specific T cells, thereby precipitating rejection. When early T-cell activation is inhibited, there is a low risk of rejection. We sought to determine the predictive values of serial posttransplant blood cyclosporine trough (C0) concentrations to minimize the risk for a first rejection episode compared with 2-hour postdose (C2) drug concentrations. The final aim
Since the high rate of cardiovascular disease in renal transplant recipients, alterations of lipo... more Since the high rate of cardiovascular disease in renal transplant recipients, alterations of lipoprotein profile in such patients were extensively evaluated, but the HDL subclass profile was not completely clarified. Renal transplant recipients usually show normal to high plasma levels of HDL cholesterol, even if some investigations suggested a persistence of low HDL2 levels: this was not useful in terms of cardiovascular protection. We designed this study in order to evaluate HDL subfractions distribution in renal transplant recipients. We studied 55 renal transplant recipients, treated with prednisone, azathioprine and/or cyclosporine, and 34 healthy normolipidemics as controls. In all subjects cholesterol, triglycerides, LDL cholesterol, HDL cholesterol, apolipoproteins A-I and B levels and HDL subfractions, as determined by nondenaturing polyacrylamide gradient gel electrophoresis, were assayed. Renal transplant recipients had cholesterol, triglycerides, LDL cholesterol and apolipoproteins A-I and B levels significantly higher than controls; HDL cholesterol levels were slightly, but not significantly, increased in comparison with controls (respectively 51.1 +/- 15.5 and 46.1 +/- 10.8 mg/dl). Multivariate analysis showed that only the time since transplantation was significantly associated with HDL cholesterol levels. When HDL subfractions were analyzed, renal transplant recipients presented significantly lower levels of HDL3a and HDL3b and, in males, higher levels of HDL2b than controls. HDL cholesterol levels were positively correlated with HDL2b levels in both renal transplant recipients and controls, and negatively correlated with HDL3b in controls. In conclusion, in renal transplant recipients, we failed to demonstrate any decrease of HDL2 particles. On the basis of a nonatherogenic HDL profile, we suggest that the increased cardiovascular risk in renal transplant recipients might be accounted for by other risk factors.
Some previous studies have documented an increase in lipoprotein (a) [Lp(a)] levels in renal dise... more Some previous studies have documented an increase in lipoprotein (a) [Lp(a)] levels in renal diseases. Here, we report data in subjects with end-stage renal failure treated with hemodialysis (HD) or with continuous ambulatory peritoneal dialysis (CAPD) and in renal transplant recipients (RTR), compared with a group of normolipidemic controls (C). Lp(a) levels were significantly increased in HD and CAPD patients in comparison with C, while they were only slightly increased in RTR. Both HD and CAPD patients showed Lp(a) levels higher than in RTR, but no difference was found between the subjects of the two dialysis procedures. The prevalence of Lp(a) levels > 25 mg/dl was significantly higher in HD and CAPD patients, but not in RTR, in comparison with C. Moreover, Lp(a) levels did not change after HD. When patients were divided according to their fasting lipid levels in normolipidemics and hyperlipoproteinemics, no difference was found for Lp(a) levels in any group. Mechanisms underlying the increase in Lp(a) levels in these patients are not known. It is possible to suggest an active role of the kidney in the Lp(a) metabolism or that uremic plasma contains some factors affecting Lp(a) metabolism.
The calcineurin inhibitors (CNIs) ciclosporin (CsA) and tacrolimus are currently an important par... more The calcineurin inhibitors (CNIs) ciclosporin (CsA) and tacrolimus are currently an important part of immunosuppressive regimens, but are associated with increased cardiovascular risk factors, including hyperlipidaemia, hypertension and diabetes mellitus. Conversion from CNI-based regimens to proliferation signal inhibitors or mammalian target of rapamycin inhibitors, such as everolimus and sirolimus, has been associated with an improvement in cardiovascular risk. This case
In an open, prospective, multicenter study, stable renal graft recipients were converted to tacro... more In an open, prospective, multicenter study, stable renal graft recipients were converted to tacrolimus because of cyclosporine-related side effects. Seventy-five patients were switched primarily because of hyperlipidemia. After the switch to tacrolimus, mean total cholesterol was reduced by 15% at month 6. One hundred seventy-seven additional patients were switched primarily for other indications: hypertrichosis, gingival hyperplasia, and arterial hypertension, and these symptoms also improved after the switch. In this analysis, serum lipid levels were categorized according to a modified standard classification of lipid parameters for renal transplant patients (published by the NKF Work Group). The aim was to estimate the proportion of patients reaching normal lipid levels after the conversion to tacrolimus therapy. In patients with primary indication hyperlipidemia, the proportion with normal cholesterol levels increased significantly from 5.6% at baseline to 37.5% at month 6 (P &l...
Target organs express antigens directly recognized by antigen-specific T cells, thereby precipita... more Target organs express antigens directly recognized by antigen-specific T cells, thereby precipitating rejection. When early T-cell activation is inhibited, there is a low risk of rejection. We sought to determine the predictive values of serial posttransplant blood cyclosporine trough (C0) concentrations to minimize the risk for a first rejection episode compared with 2-hour postdose (C2) drug concentrations. The final aim
Since the high rate of cardiovascular disease in renal transplant recipients, alterations of lipo... more Since the high rate of cardiovascular disease in renal transplant recipients, alterations of lipoprotein profile in such patients were extensively evaluated, but the HDL subclass profile was not completely clarified. Renal transplant recipients usually show normal to high plasma levels of HDL cholesterol, even if some investigations suggested a persistence of low HDL2 levels: this was not useful in terms of cardiovascular protection. We designed this study in order to evaluate HDL subfractions distribution in renal transplant recipients. We studied 55 renal transplant recipients, treated with prednisone, azathioprine and/or cyclosporine, and 34 healthy normolipidemics as controls. In all subjects cholesterol, triglycerides, LDL cholesterol, HDL cholesterol, apolipoproteins A-I and B levels and HDL subfractions, as determined by nondenaturing polyacrylamide gradient gel electrophoresis, were assayed. Renal transplant recipients had cholesterol, triglycerides, LDL cholesterol and apolipoproteins A-I and B levels significantly higher than controls; HDL cholesterol levels were slightly, but not significantly, increased in comparison with controls (respectively 51.1 +/- 15.5 and 46.1 +/- 10.8 mg/dl). Multivariate analysis showed that only the time since transplantation was significantly associated with HDL cholesterol levels. When HDL subfractions were analyzed, renal transplant recipients presented significantly lower levels of HDL3a and HDL3b and, in males, higher levels of HDL2b than controls. HDL cholesterol levels were positively correlated with HDL2b levels in both renal transplant recipients and controls, and negatively correlated with HDL3b in controls. In conclusion, in renal transplant recipients, we failed to demonstrate any decrease of HDL2 particles. On the basis of a nonatherogenic HDL profile, we suggest that the increased cardiovascular risk in renal transplant recipients might be accounted for by other risk factors.
Some previous studies have documented an increase in lipoprotein (a) [Lp(a)] levels in renal dise... more Some previous studies have documented an increase in lipoprotein (a) [Lp(a)] levels in renal diseases. Here, we report data in subjects with end-stage renal failure treated with hemodialysis (HD) or with continuous ambulatory peritoneal dialysis (CAPD) and in renal transplant recipients (RTR), compared with a group of normolipidemic controls (C). Lp(a) levels were significantly increased in HD and CAPD patients in comparison with C, while they were only slightly increased in RTR. Both HD and CAPD patients showed Lp(a) levels higher than in RTR, but no difference was found between the subjects of the two dialysis procedures. The prevalence of Lp(a) levels > 25 mg/dl was significantly higher in HD and CAPD patients, but not in RTR, in comparison with C. Moreover, Lp(a) levels did not change after HD. When patients were divided according to their fasting lipid levels in normolipidemics and hyperlipoproteinemics, no difference was found for Lp(a) levels in any group. Mechanisms underlying the increase in Lp(a) levels in these patients are not known. It is possible to suggest an active role of the kidney in the Lp(a) metabolism or that uremic plasma contains some factors affecting Lp(a) metabolism.
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