Anemia and iron deficiencies among long-term renal transplant recipients

Iron deficiency anemia after renal transplantation has not been systematically investigated. The prevalence of anemia and the indicators of iron deficiency among 438 renal transplant recipients were examined. Anemia was present in 39.7% of the patients. The prevalence of iron deficiencies, as indicated by a percentage of hypochromic red blood cells (HRBC) of >or=2.5%, was 20.1%. The majority of severely anemic patients exhibited HRBC values in the upper quartile. Positive associations of hemoglobin levels with creatinine clearance, serum transferrin levels, male gender, transferrin saturation (TSAT), polycystic kidney disease, and age were observed. Negative associations with erythropoietin therapy, use of azathioprine, serum ferritin levels, and body mass index were observed. The risk for anemia was closely related to the highest quartile of HRBC percentages (odds ratio, 2.35; 95% confidence interval, 1.48 to 3.75; P = 0.00029), whereas ferritin levels and TSAT conferred no risk for anemia. Therefore, assessment of the HRBC proportion is superior to decreased ferritin and decreased TSAT measurements for the diagnosis of iron deficiencies among renal transplant recipients.     

Serum Hepcidin Level Correlates With Hyperlipidemia Status in Patients Following Allograft Renal Transplantation

Hepcidin is synthesized and secreted by liver cells and has been reported as one of the hormone molecules that regulates iron homeostasis. To determine whether serum level of hepcidin can be used as a biomarker for the evaluation of chronic inflammatory status, iron level and renal function in patients following allograft renal transplantation, serum levels of hepcidin, interleukin (IL)-6, ferritin, serum iron, and renal functions were measured. Sixty patients were included in the current study and were further separated into groups with or without hyperlipidemia. We found that allogeneic kidney transplant recipients with hyperlipidemia have significantly increased serum levels of hepcidin, IL-6, and ferritin. The increased serum hepcidin is positively correlated with serum IL-6 and ferritin as analyzed by single-factor correlation analysis. Multivariant correlation analysis in all specimens further demonstrated that serum hepcidin negatively correlated with glomerular filtration rate, and positively correlated with serum total cholesterol, triglycerides, serum ferritin, and IL-6. Our study demonstrated that serum level of hepcidin after allogeneic kidney transplantation not only reflects the status of chronic inflammation but can also indicate changes in renal function. Thus, hepcidin has the potential to be used as a promising marker for the detection and monitoring of the status of chronic inflammation, hyperlipidemia, and renal function in patients following allograft renal transplantation.     

Total dose infusion iron dextran therapy in predialysis chronic renal failure patients

BACKGROUND: Intravenous iron therapy is now the standard modality of iron supplementation in hemodialysis patients, but its role in predialysis chronic renal failure patients is less well established. The efficacy and safety of intravenous iron dextran as a total dose infusion in predialysis chronic renal failure patients, not receiving erythropoietin was assessed in this study. METHODS: Fifty-six predialysis chronic renal failure patients with anemia, not receiving erythropoietin were included in the study, after obtaining informed consent. Hemoglobin, serum creatinine, creatinine clearance rate and serum ferritin were assessed in all the patients at baseline. Iron dextran in a dose of 1 g dissolved in 500 mL normal saline was administered to all patients as a total dose infusion over 6 h after a prior test dose. Patients were kept in hospital under observation for at least 24 h. All the parameters were repeated in all the patients at 12 weeks and in 21 patients at 1 year. RESULTS: The mean hemoglobin (g/dL) in the patients at baseline and at 12 weeks was 8.28 +/- 0.57 and 9.22 +/- 0.44 respectively (p < 0.001). The mean serum ferritin (ng/mL) increased from 29.73 +/- 9.38 at baseline to 218.43 +/- 15.66 at 12 weeks (p < 0.00001). The mean ferritin value in the 21 patients at 1 year was 136.5 +/- 23.4 (p < 0.01). There were no major adverse events and only minor side effects were observed in 4.9% patients. CONCLUSION: Iron dextran as a total dose infusion corrects anemia in predialysis patients and is an effective method to replenish iron stores. The effect on serum ferritin are evident even at 1 year after the total dose infusion.     

Serial ferritin concentrations in hemodialysis patients receiving intravenous iron

BACKGROUND: Treatment of the anemia of chronic renal failure with intravenous iron and erythropoietin is highly effective, but frequently leads to ferritin levels which are much higher than those seen in the general population. High ferritin concentrations raise concern about the potential toxicity of increased body iron stores. PATIENTS AND METHODS: We retrospectively evaluated parameters of iron metabolism over a 4-year period among all our chronic hemodialysis patients who had been receiving intravenous iron and erythropoietin. Initially, patients received intermittent infusions of 300 mg intravenous iron x 3 doses for a low ferritin or low percent saturation of total iron binding capacity (TIBC), but this protocol was subsequently changed to weekly or biweekly infusions of 50-100 mg. RESULTS: We observed an improvement in average hemoglobin values, modest increases in serum iron and saturation of iron binding capacity, and a 125% increase in ferritin levels over 4 years. TIBC decreased. Overall, ferritin values increased 79 microg/l for each 1% increase in TIBC saturation. Ten patients with ferritin concentration greater than 1,000 pg/l received a three month course of vitamin C with no decline in the ferritin concentration. CONCLUSION: Current protocols for iron delivery may result in progressive increases in ferritin levels. Concern about the risks of iron overload should temper the quantity of iron used in dialysis programs.     

Prevalence and determinants of anemia in the immediate postkidney transplant period

At the time of renal transplantation, erythropoiesis-stimulating agents and iron supplementation are routinely discontinued in the prospect of recovery of renal function. This recovery, however, is often delayed and suboptimal. In addition, blood loss because of frequent diagnostic phlebotomies may be substantial. Renal transplant recipients may thus be considered at high risk of anemia in the immediate post-transplant period. We performed a single-center observational study, including 391 recipients of a single kidney. Hemoglobin levels and parameters of iron metabolism were monitored during the immediate post-transplant period, i.e., the first 3 months after transplantation. Hemoglobin levels decreased by 3.8 ± 1.5 g/dl to reach a nadir of 9.1 ± 1.2 g/dl at day 7. Transient severe anemia was observed in 91.3% of the patients. Donor age, gender, renal diagnosis of polycystic disease, pretransplant hemoglobin and ferritin level, estimated glomerular filtration rate at month 3, and duration of initial hospitalization were observed to be independently associated with the hemoglobin level at month 3. Transient severe anemia is an almost universal observation in incident renal transplant recipients. Poor graft function, high donor age, and low iron stores are independently associated with low hemoglobin levels at month 3.     

Endogenous erythropoietin levels and anemia in long-term renal transplant recipients

BACKGROUND/AIM: Although anemia is a common complication after renal transplantation (RT), data concerning endogenous erythropoietin (EPO) levels in long-term RT recipients are rare. The goal of this study was to evaluate the prevalence of anemia within 6 months to 5 years after RT and to assess the relationship between the serum concentrations of endogenous EPO, graft function and grade of improvement of anemia. METHODS: 140 patients who had undergone RT were included in the group: 89 males (63.6%) and 51 females (36.4%), with an average age 46.8 +/- 12.8 years. The serum concentrations of EPO and creatinine (Cr) were tested in all the individuals and the values of the red blood component of blood count, serum ferritin (SF), plasma iron concentration, plasma total iron-binding capacity (TIBC), transferrin saturation (TS), folic acid and vitamin B(12) levels in the serum were determined. A statistical analysis of the results was performed using the correlation analysis, Mann-Whitney U test and Duncan's multiple range test. RESULTS: Normal blood count values were found in 91 patients (65%), and a mild grade of anemia with a mean hemoglobin (Hb) 114.4 +/- 11.9 g/l was observed in 45 patients (32.1%), and 4 patients (2.9%) fulfilled the diagnostic criteria for post-transplantation erythrocytosis. Individuals with normal Hb values had a mean EPO serum concentration of 39.3 +/- 12.3 mU/ml (median 37.2) and the mean Cr was 133.8 +/- 36.9 micromol/l (median 122). Patients with anemia (Hb <120 g/l in females, Hb <130 g/l in males) had a mean EPO value of 47.0 +/- 26.6 mU/ml (median 36.0) and a mean Cr of 203.8 +/- 108.9 micromol/l (median 181). The difference in the Cr values was statistically significant (p < 0.0001), while the difference between the EPO concentrations was not significant. No relation of EPO serum concentration with regard to graft function was found in the analysis. A lack of storage iron (SF <10 microg/l in females, SF <22 microg/l in males) was found in 16 patients (11.4%), and a lack of functional iron (TS <20%) was found in 27 patients (19.3%). CONCLUSIONS: Theprevalence of anemia in patients after transplantation was 32.1%. The most common cause of anemia is insufficient graft function development. The achieved values of the red component of blood count have no relation to the endogenous EPO serum concentrations.     

Study of anemia after late introduction of everolimus in the immunosuppressive treatment of renal transplant patients

INTRODUCTION: mTOR inhibitors (imTOR) are immunosuppressive drugs that have a concentration-related effects on hematopoiesis, potentially resulting in anemia. The reason is uncertain, but a pathogenic link between sirolimus-induced anemia and the appearance of an inflammatory state was recently suggested. Because inflammation-related anemia is characterized by a functional iron deficiency, we studied whether everolimus influenced iron homeostasis. METHODS: We studied iron homeostasis in 43 patients after late introduction of everolimus into the immunosuppressive treatment. Thirty-seven patients (86%) were receiving mycophenolate. Hemoglobin concentration, red blood cell count, mean corpuscular volume, serum iron, ferritin, C-reactive protein levels, and transferrin saturation were evaluated 3 months before and 1, 3, and 6 months after the switch. RESULTS: The percentage of anemic patients preconversion was 18.6% and it was 34.9% at 3 months and 18.6% at 6 months. We did not observe a significant reduction in hemoglobin, but there was increased red blood cell count after everolimus introduction, with a significant reduction in mean corpuscular volume. Serum iron and transferrin saturation levels were also markedly reduced after the switch, while ferritin serum concentrations remained stable. An improvement in renal function was observed. CONCLUSIONS: The anemia caused by everolimus--microcytosis, low serum iron, despite high ferritinemia, and elevated C-reactive protein levels--was consistent with the anemia of a chronic inflammatory state. This alteration occurred within the first months postconversion and disappeared at 6 months. The combination of mycophenolate and everolimus seemed to be useful without significant secondary effects.     

Melatonin corrects reticuloendothelial blockade and iron status in haemodialysed patients

AIM: Treatment of anaemia in haemodialysed patients in the setting of inflammation usually displays high levels of serum ferritin (>800 ng/mL) and low transferrin saturation (TSAT) (<20%) despite i.v. iron supplementation, thus proving iron trapping in the reticuloendothelial system. Melatonin has been reported to reduce cytokine production and, in dialysis patients, to prevent oxidative stress resulting from iron and erythropoietin treatment. METHOD: In this study, we evaluated a group of 10 patients undergoing haemodialysis who displayed elevated serum ferritin (981 +/- 44.6 ng/mL) and TSAT <20% (15.6 +/- 3.8%) after having received 1.2 g of i.v. iron dextran over a period of 8 weeks. These patients received oral melatonin, 6 mg/day at night for 30 days. RESULTS: After this treatment, all of them markedly increased TSAT values, reaching 35.5 +/- 6.7% (P < 0.0001 vs basal values). In addition, ferritin values decreased to 754.4 +/- 263.7 ng/mL (P < 0.05), and serum iron dramatically increased in all of the patients under study (42.4 +/- 9.4 vs 109.7 +/- 24.3 microg/dL; P < 0.0001). Values for haematocrit (28.6 +/- 2.7 vs 31.9 +/- 3.57%; P < 0.05) and haemoglobin (9.19 +/- 0.97 vs 10.04 +/- 1.29 g/dL; P < 0.05) were also improved. Measurements were then repeated 2 weeks after melatonin withdrawal, showing an impressive decrease in TSAT (16.4 +/- 5.3%; P < 0.00001) and serum iron (48 +/- 14.7 microg/dL; P < 0.0001) values and an almost significant increase in ferritin values (954.4 +/- 86 ng/mL; P < 0.054). CONCLUSION: The present study demonstrates that melatonin may strongly correct the reticuloendothelial blockade seen in dialysis patients under an inflammatory status, thus allowing a better management of iron derangements and renal anaemia.     

A Possible Role of Hepcidin in the Pathogenesis of Anemia Among Kidney Allograft Recipients

Hepcidin is a small, defensin-like peptide whose production by hepatocytes is modulated in response to anemia, hypoxia, or inflammation. We studied correlations of hepcidin concentrations with markers of iron status, erythropoietin therapy, and markers of inflammation among 130 kidney allograft recipients. In addition, we assessed the prevalence of anemia and its relation to hepcidin. Soluble receptor of transferrin (sTfR), high-sensitivity C-reactive protein (hsCRP), TNF-α, interleukin (IL)-6, prohepcidin, and hepcidin were measured using commercially available kits. According to the WHO definition, the prevalence of anemia was 28%. Among anemic recipients we found a significantly higher values of serum creatinine, serum prohepcidin, hepcidin, (hsCRP), TNF-α, IL-6, ferritin, and proteinuria in addition to more frequent use of rapamycin and significantly lower use of CSA with lower CSA concentrations, as well as lower cholesterol, hemoglobin, and estimated glomerular filtration rate (eGFR) (by the Modification of Diet in Renal Disease equation).Serum prohepcidin significantly correlated with creatinine, GFR, time after transplantation, albumin, hsCRP, IL-6, and TNF-α, whereas hepcidin-25 correlated with serum iron, ferritin, hsCRP, IL-6, hemoglobin, transferrin saturation (TSAT), creatinine, and GFR. Multiple regression analysis showed that prohepcidin was independently related only to GFR and ferritin. Upon multiple regression analysis, predictors of serum hepcidin were eGFR, ferritin, and hsCRP, explaining 79% of the variation of hepcidin values.In conclusion, the prevalence of anemia was relatively high among a population of kidney allograft recipients. The pathogenesis of anemia is mulitfactorial. Elevated hepcidin levels among kidney transplant recipients may be due to low-grade inflammation, which is frequently encountered in this population, and mainly to impaired renal function, but it did not seem to be a major pathogenetic factor for anemia in this population.     

Serum ferritin and survival of renal transplant recipients: a prospective 10-year cohort study

Increased serum ferritin is frequent in renal transplant recipients. This reflects iron overload due to blood transfusions given to treat renal anaemia. Previous studies suggested excess mortality in non-renal transplant recipients with iron overload. We hypothesized that serum ferritin levels above 1100 ng/ml may be associated with increased long-term mortality in renal transplant recipients. Twenty consecutive renal transplant recipients with high levels of serum ferritin and 20 renal transplant recipients with normal serum ferritin levels, matched for age and gender, were prospectively studied for 10 years. Nine patients (45%) with increased serum ferritin died during follow-up, compared to four controls (20%). Univariate and multivariate analysis identified multiple blood transfusions (>40 units) prior to transplantation as being associated with higher mortality in renal transplant recipients (risk ratio (RR): 3.1, confidence interval (CI): 1.1-9.2; P=0.03). These data suggest that serum ferritin levels above 1100 ng/ml due to multiple blood transfusions causing iron overload is a relevant factor that increases mortality.     

Short-term small-dose intravenous iron trial to detect functional iron deficiency in dialysis patients

BACKGROUND/AIM: Management of renal anemia in end-stage renal disease requires careful evaluation of the iron status before and in particular during erythropoietin treatment. However, there is no simple and practical iron index accurately predictive of functional iron deficiency in these patients till now. The purpose of this prospective study, therefore, is to evaluate whether a short course of low-dose intravenous iron challenge can detect functional iron deficiency in hemodialysis patients. METHODS: Twenty-four patients with baseline serum ferritin levels between 100 and 500 ng/ml were treated with intravenous saccharated ferric oxide, 960 mg over 24 hemodialysis treatments, and the hemoglobin level was checked every week. RESULTS: Patients whose hemoglobin value increased at least by 1 g/dl within the 8-week period were classified as having functional iron deficiency or as responders (n = 26; 81.2%). All other subjects were classified as having adequate iron levels or as nonresponders (n = 6; 18.8%). There were no significant differences in age, sex, dialysis years, Kt/V, dialyzers, hemoglobin, and basal and final transferrin saturation and ferritin between responders and nonresponders. In addition, there were no iron indices with acceptable levels of sensitivity and specificity. On the contrary, the cutoff value of increments of hemoglobin of at least 0.2 g/dl after a 2-week intravenous iron trial had a sensitivity of 96.2% and a specificity of 100% in all patients (n = 32) and a sensitivity of 100% and a specificity of 100% after patients with transferrin saturation <20% were excluded (n = 24). These values had the greatest utility of the tests studied in this work. CONCLUSION: A 240-mg intravenous iron challenge during a 2-week period may be a simple, accurate, and straightforward method to detect a functional iron deficiency status in hemodialysis patients undergoing erythropoietin therapy.     

Variability of ferritin measurements in chronic kidney disease; implications for iron management

Serum ferritin levels are a proxy measure of iron stores; and existing guidelines for managing anemia in hemodialysis patients suggest that serum ferritin concentrations should be maintained at >200 ng/ml. The KDOQI recommendations further state there is insufficient evidence advocating routine intravenous iron when ferritin levels exceed 500 ng/ml. Here we determined the interassay differences and short-term intraindividual variability of serum ferritin measurements in patients on chronic hemodialysis to illustrate how these variances may affect treatment decisions. Intermethod variations of up to 150 ng/ml were found comparing six commonly used ferritin assays that evaluated thirteen pools of serum from hemodialysis and nonhemodialysis patients. The intraindividual variability for ferritin in 60 stable hemodialysis patients ranged between 2-62% measured over an initial two-week period and from 3-52% when factored over a six-week period. Our results suggests that single serum ferritin values should not be used to guide clinical decisions regarding treatment of chronic hemodialysis patients with intravenous iron due to significant analytical and intraindividual variability.     

Anemia in Heart and Kidney Allograft Recipients: Is There a Role for Hepcidin?

The production by hepatocytes of hepcidin, a small defensin-like peptide, is modulated in response to anemia, hypoxia, or inflammation. We studied hepcidin as a marker of iron status (serum iron, ferritin, and soluble receptor of transferrin [sTfR], and as a marker of inflammation among 170 prevalent kidney transplantation (KT) patients and 168 prevalent orthotopic heart transplant (OHT) patients. In addition, we assessed the prevalence of anemia and its relation to measurements of hepcidin, sTfR, and high-sensitivity C-reactive protein, using commercially available enzyme-linked immunosorbent assay (ELISA) kits. Prevalence of anemia was 37% in KT patients and 34% in OHT patients according to the World Health Organisation (WHO) definition. Anemic KT patients displayed significantly higher values of serum creatinine, hepcidin, hsCRP, ferritin, and proteinuria associated with greater use of mTOR and significantly lower CSA therapy. The hemoglobin and estimated glomerular filtration rate (eGFR). Upon multiple regression analysis eGFR, ferritin, and hsCRP independently predicted hepcidin levels, explaining 78% of the variation in hepcidin. Anemic OHT patients showed significantly lower GFR, red blood cell (RBC), and hemoglobin values and significantly higher creatinine and NT-proBNP content. Upon multiple regression analysis the predictors of serum hepcidin were eGFR and ferritin, which explained 68% of the variation in hepcidin. The prevalence of anemia is relatively high and not adequately treated (mainly due to reimbursement regulations) among heart and kidney allograft recipients. In conclusion, elevated hepcidin levels in heart and kidney transplant recipients suggest subclinical inflammation and impaired kidney function.     

The effect of an iron supplement on serum aluminum level and desferrioxamine mobilization test in hemodialysis patients.

BACKGROUND: The serum aluminum (Al) measurement with desferrioxamine (DFO) mobilization is a screening test for uremic patients with an Al overload. In these patients, body iron status is one of the factors affecting the serum Al level. This study is designed to elucidate the effects of iron supplements on the serum Al and the DFO mobilization test. METHODS: Our study featured ten hemodialysis patients with iron deficiency anemia. The iron supplement was given intravenously with saccharated ferric oxide, 40 mg three times weekly, at the end of each hemodialysis. The total amount of iron supplement was 1,000 mg. All the patients underwent a DFO test at a dose of 5 mg/kg. The same test was repeated two weeks after completion of the iron supplement. RESULTS: After the iron supplement, patients' iron deficiency anemia improved with a serum ferritin elevation from 312.4 +/- 589.5 to 748.2 +/- 566.2 microg/L (p < 0.01), and iron saturation from 21.6 +/- 20.3 to 41.1 +/- 21.7% (p = 0.06). The basal serum Al level decreased from 34.3 +/- 13.8 to 21.8 +/- 8.5 microg/L (p = 0.01). In the DFO mobilization test, the peak serum Al level decreased from 63.4 +/- 19.3 to 50.7 +/- 20.5 microg/L (p < 0.01). The amount of Al increment (deltaAl) in DFO test was not changed (29.1 +/- 12.0 vs. 28.9 +/- 15.9 microg/L, p = 0.86). The change in basal Al level tended to negatively correlate with the percentage of increment in iron saturation (r = -0.628, p = 0.05). CONCLUSION: Results in this study suggest that iron supplements may significantly reduce the basal serum Al and peak Al in DFO mobilization test, without significant change of the mean deltaAl. The data presented indicate that in the interpretation of serum aluminum levels the iron status should be taken into account.     

Iron Absorption and Therapy after Gastric Bypass

Background: Iron deficiency anemia is a common complication of gastric bypass. The authors assessed the value of taking vitamin C with oral iron in correcting deficiencies in iron stores and anemia postoperatively. Materials and Methods: Iron absorption tests were performed on 55 patients 3.2 ± 2.0 years after isolated gastric bypass to identify those at higher risk for the late development of anemia. Twenty-nine of this group agreed to a therapeutic trial of iron alone or with vitamin C over a 2-month period. All 55 patients were followed up for 27.1 ± 1.0 months following the study. Results: The iron absorption test identified patients with low iron stores, as indicated by low serum ferritin, and those with sufficient absorption surface to benefit from oral iron. The addition of vitamin C appears to enhance the therapeutic effect of iron by correcting ferritin deficits (P < 0.01) and anemia (P < 0.05). Differences in intestine length bypassed by the operation (10 vs. 100 cm) did not affect late ferritin and hemoglobin values. Conclusion: This study suggests but does not prove that the addition of vitamin C to iron therapy after gastric bypass is more effective in restoring ferritin and hemoglobin than iron alone. These results are in contrast with the outcome 22.8 months later, when ∼50% of study patients were again anemic. Closer follow-up of patients is urgently needed.     

Causes of anemia in renal transplant recipients

Iron-deficiency anemia is one of the major problems encountered in renal transplant recipients. The aim of this retrospective study was to reevaluate the causes of anemia among 100 anemic kidney recipients. Patients with serum creatinine levels greater than 2 mg/dL were excluded from the study. Female patients were considered to be anemic if the hemoglobin was <12 g/dL for males, <13 g/dL. Complete blood count, serum creatinine, serum iron, iron-binding capacity, ferritin, transferrin saturation, erythrocyte folate, and serum vitamin B(12) levels were measured in all patients. Mean hemoglobin value was 10.2 +/- 1.4 g/dL for female and 9.9 +/- 1.3 for male patients, mean corpuscular volume (MCV) 91.3 +/- 4.9 fL. We observed normocytic anemia in 60, macrocytic anemia in 30, and microcytic anemia in 10 patients. A low level of serum folate was observed in 9 (15%) and of vitamin B(12) in 5 (8.8%) of 60 patients with normocytic anemia. Folate deficiency was found in 18 (60%) and vitamin B(12) deficiency in 12 (40%) of 30 patients with macrocytic anemia. All patients with microcytic anemia had iron deficiency. Splenomegaly was seen significantly more often in patients with macrocytic than normocytic anemia (P =.008). Folate and vitamin B(12) deficiency were the major causes of nutritional anemia; oral or parenteral supplementation with these vitamins is likely to cure the anemia in the majority of cases.     

Sirolimus interferes with iron homeostasis in renal transplant recipients

BACKGROUND: Sirolimus is an immunosuppressive drug whose use is frequently associated with anemia. A pathogenic link between sirolimus-induced anemia and the appearance of an inflammatory state was recently suggested. Because inflammation-related anemia is characterized by a functional iron deficiency, we investigated whether sirolimus may influence iron homeostasis and serum levels of hepcidin, a key mediator of inflammation-related anemia. METHODS: To this purpose, 42 consecutive transplanted patients with biopsy-proven chronic allograft nephropathy were randomized (2:1 ratio) to receive either a 40% cyclosporine reduction (group A, 14 patients) or immediate cyclosporine withdrawal and sirolimus introduction (group B, 28 patients). Hemoglobin levels and iron status were evaluated 6 months before and after randomization. RESULTS: The two groups had similar hemoglobin levels and iron status at baseline. We did not observe any significant change in hemoglobin and iron status in group A patients after randomization. On the contrary, we observed a significant reduction of hemoglobin without any change of red blood cell count after sirolimus introduction, with a significant reduction of mean corpuscular volume and mean corpuscular hemoglobin. Serum iron and transferrin saturation (TSAT) levels were markedly reduced after the switch, while ferritin serum concentrations remained stable. Although sirolimus-induced anemia was recently suggested to resemble inflammation-related anemia, hepcidin serum levels were similar in the two groups after randomization. None of group A and eight of group B patients presented a TSAT <20 and were given iron supplementation after randomization, in all of them oral iron therapy did not influence either hemoglobin or serum iron levels. CONCLUSION: We demonstrated that sirolimus-induced anemia is independent of the drug antiproliferative effect and does not present the features of inflammation-related anemia. This event may be due to the direct influence of sirolimus on iron homeostasis.     

Acute renal failure after cardiopulmonary bypass in related to decreased serum ferritin levels.

Acute renal failure (ARF) requiring dialysis occurs in up to 4% of patients after cardiopulmonary bypass (CPB). CPB leads to the generation of intravascular free hemoglobin, resulting in increased endothelial and renal tubular cell free iron, which is associated with renal injury. Conversely, renoprotection is conferred by processes that upregulate heme and iron sequestration pathways, such as ferritin. This study evaluates the influence of free hemoglobin generation during CPB and the capacity to sequester free iron on the occurrence of post-CPB renal insufficiency. Thirty consecutive patients undergoing CPB were enrolled in the study. Serum creatinine, free hemoglobin, and ferritin were measured preoperatively, at the end of bypass, and 24 and 48 h after surgery. Renal injury, as determined by an increase in the serum creatinine of > or =25% (ARF) by 48 h after surgery, occurred in 40% (12 of 30) of patients, and dialysis was necessary in 6.6% (2 of 30). Free hemoglobin levels increased in all patients but did not correlate with postoperative ARF. However, patients with preoperative serum ferritin levels < or =130 microg/L, the median value for the group, had a sixfold greater likelihood of developing ARF compared to patients with levels above this value (P = 0.03). Lower serum ferritin levels appear to be associated with the development of ARF. Serum ferritin levels may signify intravascular as well as endothelial and renal epithelial cell ability to bind free iron generated during CPB-induced hemolysis, and thus may help provide information regarding the risk for ARF.     

Effect of body iron stores on serum aluminum level in hemodialysis patients.

To evaluate the influence of body iron stores on the serum aluminum (Al) level, we studied the correlation between iron status (the serum ferritin, serum iron and transferrin saturation) and serum Al levels in 68 severely anemic hemodialysis patients. Among them, 36 underwent the desferrioxamine (DFO) mobilization test. These 68 patients were divided into three groups according to their serum ferritin level. The basal Al level in the patient group was 41.4 +/- 37.4 micrograms/l (control, 4.1 +/- 2.4 micrograms/l). The serum Al level after DFO infusion of the patient group was 111.1 +/- 86.8 micrograms/l. A significantly higher basal Al and peak Al level after DFO infusion were found in group 1 patients (serum ferritin less than 300 micrograms/l) when compared to group 2 (serum ferritin 300-1,000 micrograms/l) and group 3 (serum ferritin greater than 1,000 micrograms/l) patients. A significant negative correlation between serum ferritin and basal serum Al (r = -0.544, p = 0.0001), as well as peak serum Al after DFO infusion (r = -0.556, p = 0.0001), was noted. Similarly, a negative relationship between serum Al (both basal and peak) and either serum iron or transferrin saturation was noted. However, there was no correlation between the serum Al level and the dosage of aluminum hydroxide. In conclusion, serum ferritin, serum iron and transferrin saturation were inversely correlated with serum Al in our hemodialysis patients. Iron deficiency may probably increase Al accumulation in these patients.