Objective-Increased risk of cardiovascular disease in patients with chronic renal failure (CRF) has been explained by accelerated atherosclerosis and impaired angiogenesis, in which endothelial progenitor cells (EPCs) may play key roles. We hypothesized that altered EPC biology may contribute to the pathophysiology of CRF. Methods and Results-EPCs were isolated from CRF patients on maintenance hemodialysis (nϭ44) and from a normal control group (nϭ30). CRF patients showed markedly decreased numbers of EPC (44.6%) and colonies (75.3%) when compared with the controls (PϽ0.001). These findings were corroborated by 30.5% decrease in EPC migratory function in response to vascular endothelial growth factor (VEGF) (Pϭ0. T he lifespan of patients with chronic renal failure (CRF) is reduced, and coronary artery disease is the most important cause of morbidity and mortality in these patients. 1,2 Even the results of therapeutic strategies such as percutaneous coronary intervention and bypass surgery have shown poor procedural success rates and dismal long-term eventfree survival in CRF patients. 3,4 Most of the increased cardiovascular morbidity and mortality in CRF has been accounted for by the rapid progression of atherosclerosis, which is clinically shown to be accelerated in CRF. 5,6 Experimental studies have also shown that even mild renal dysfunction causes a dramatic acceleration of atherosclerosis. 7 Angiogenesis, which is an essential compensation for myocardial ischemia, is also impaired in CRF. 8 However the mechanism underlying the acceleration of atherosclerosis and impaired angiogenesis by CRF has not been examined closely. Although the phenomenon has been partially explained by the higher prevalence of established risk factors in CRF, such as hypertension, abnormal carbohydrate metabolism, and increased low density lipoprotein (LDL) cholesterol, the extent and severity of cardiovascular disease is clearly disproportionately high relative to the underlying risk factor profile. 9,10 Recent studies have identified that normal adults have a small amount of circulating endothelial progenitor cell (EPC) in the peripheral blood. In response to cytokine stimulation and ischemic insult, these cells are mobilized from bone marrow, home to the ischemic tissue, and contribute to neovascularization and angiogenesis. 11-14 Moreover, EPC is regarded to have a key role in the maintenance of vascular integrity and to act as "repair" cells in response to the endothelial injury, 15,16 which has been regarded as an initial step in atherosclerosis and a result of the actions of various cardiovascular risk factors. 17 Current data suggest that decrease in circulating EPC contributes not only to impaired angiogenesis but also to the progression of atherosclerosis, 18 and patients at risk for coronary artery disease have a decreased number of circulating EPC with impaired activity. 19 -22 Therefore, we reasoned that EPC, which is critical for neovascularization and the maintenance of vascular integrity, Methods Study SubjectsWe...
Using immunoelectron microscopy, we observed that the expression of nephrin in GN was lower in regions where the foot processes were effaced, and comparable with that of normal controls where the foot process interspaces were preserved. The significance of our observation in the context of proteinuria in acquired GN needs further clarification.
Objective To evaluate the peritoneal clearance of middle molecules in comparison with the peritoneal clearance of small molecules in incremental peritoneal dialysis (PD). Study Design Peritoneal clearances of creatinine and b2-microgloblulin (B2M) were compared in 57 continuous ambulatory PD patients on full dose of 4 exchanges, and 54 incremental PD patients with 2 or 3 exchanges over 24 hours. Clearances were also compared when there were changes in the PD regimen, such as in the number of exchanges and the duration of the dwell time. Setting Tertiary-care university hospital. Results Peritoneal creatinine clearance increased almost linearly with the increase in the number of exchanges. In contrast, peritoneal clearance of B2M was 9.1 ± 3.6 L/week, 8.8 ± 4.4 L/week, and 7.9 ± 2.5 L/week with 2, 3, and 4 exchanges, respectively, per day, amounts that were not different from each other. Peritoneal clearance of B2M did not change when there was an increase in the number of dialysate exchanges from 2 to 3 and from 3 to 4 over a period of 24 hours; whereas the peritoneal clearance of creatinine increased. Peritoneal clearance of B2M almost doubled, from 5.4 ± 2.7 L/week with 2 exchanges over 12 hours per day, to 9.5 ± 4.4 L/week with the same 2 exchanges over 24 hours. The creatinine clearance did not change. Conclusion In contrast to peritoneal clearance of small molecules, such as creatinine, which was dependent on the number of dialysate exchanges, peritoneal clearance of middle molecules, such as B2M, depended mainly on the total dwell hours of PD and not on the number of exchanges of peritoneal dialysate in incremental PD. This might be another advantage of incremental PD, since peritoneal clearance of middle molecules in incremental PD over 24 hours can be comparable to that in full dose PD.
There were different risk factors affecting RCAVF primary maturation and primary patency. A CV with a small-diameter of ≤2 mm combined with diabetes was an independent risk factor of failure not only of primary maturation but also of primary patency in RCAVF.
Several predictive factors associated with adverse pregnancy outcomes in female renal recipients have been suggested. Our study aimed to determine the most important factor for prediction of adverse pregnancy outcomes in female renal recipients. We studied 41 pregnancies in 29 female renal recipients retrospectively. We reviewed pregnancy outcomes and possible predictive factors including pre-pregnancy serum creatinine (SCr), pre-pregnancy glomerular filtration rate (GFR), pre-pregnancy hypertension, pre-pregnancy proteinuria, transplantation-pregnancy interval and type of immunosuppressants. We defined an adverse pregnancy-related outcomes index (APOI) that included the following conditions: (i) preeclampsia; (ii) fetal growth restriction (FGR); (iii) prematurity before 34 wk of gestation; (iv) fetal loss (v) graft dysfunction during pregnancy or within three months from delivery. The cutoff of pre-pregnancy serum creatinine and GFR was determined by receiver operating characteristics curves for the prediction of each adverse outcome and APOI. Only pre-pregnancy serum creatinine was associated with adverse pregnancy outcome, and 1 mg/dL was determined to be a useful cutoff for the prediction of each adverse outcomes. Pre-pregnancy SCr ≥ 1 mg/dL was associated with 7.7 times increased risk of preeclampsia and 6.9 times increased risk of APOI. Pre-pregnancy serum creatinine is the most powerful predictive factor for adverse pregnancy outcomes, and <1 mg/dL may be used as a screen for successful pregnancy outcome.
The prevalence of occult HBV in the setting of renal transplantation was higher than that in the general population of Korea, and no reactivation of hepatitis B was observed in patients with OBI in the post-renal transplantation period.
Background/Aims: Since heparin can bind to Hemophan, hemodialysis using heparin-bound Hemophan (HBH-HD) could be a useful modality in patients at risk of bleeding. We designed a simplified heparin binding technique and assessed the safety and efficiency of HBH-HD. Methods: To bind heparin to Hemophan, heparin solution (1 liter, 20 IU/ml saline) was recirculated through Hemophan (GFS plus 11, Gambro) for 1 h while the saline solution (700 ml/h) was removed. In 28 maintenance dialysis patients at risk of bleeding, we evaluated the heparin concentration (HC) and activated partial thromboplastin time (aPTT) during HBH-HD to assess the increased risk of bleeding. We compared the safety and efficiency of HBH-HD with that of routine hemodialysis with low-dose heparinization (R-HD) in a prospective cross-over study, and then analyzed the outcomes of 1,057 HBH-HD in 159 patients. Results: During HBH-HD, there was a slight increase in both HC (0.15 ± 0.03 IU/ml, p < 0.01) and aPTT (43.7 ± 5.7 s, p < 0.01) at 15 min after the initiation of dialysis compared to predialysis levels (0.11 ± 0.03 IU/ml and 37.5 ± 6.3 s). However, there was no increase in HC and aPTT at 60 min, 120 min and at the end of dialysis. In a cross-over study, aPTT during dialysis was markedly lower in HBH-HD than in R-HD (p < 0.01). The Kt/V (1.22 ± 0.31, p > 0.05) and urea clearance (136 ± 17 ml/min, p > 0.05) of HBH-HD did not significantly differ from those of R-HD (1.29 ± 0.57 and 136 ± 13 ml/min). However, the loss of total blood compartment volume of the dialyzer was greater in HBH-HD (17.5 ± 9.2%, p < 0.01) than in R-HD (2.9 ± 1.2%). Out of 1,057 HBH-HD, 982 HBH-HD (93%) were successfully completed while 75 HBH-HD (7%) resulted in severe clotting. Conclusion: We conclude that the HBH-HD could minimize the bleeding risk and be an efficient HD technique in patients at high risk of bleeding. Careful observation for extracorporeal clotting is, however, required during HBH-HD.
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