2012
DOI: 10.2215/cjn.01360212
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Effect of High-Dose Erythropoietin on Graft Function after Kidney Transplantation

Abstract: SummaryBackground and objectives Delayed graft function (DGF) is associated with adverse long-term outcomes after deceased-donor kidney (DDK) transplantation. Ischemia-reperfusion injury plays a crucial role in the development of DGF. On the basis of promising animal data, this study evaluated any potential benefits of erythropoietin-alfa (EPO-a) given intra-arterially at the time of reperfusion of renal allograft on the degree of allograft function, as well as tubular cell injury measured by urinary biomarker… Show more

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Cited by 45 publications
(53 citation statements)
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“…The randomization allocation sequence was generated by a random-number tableLow risk: patients, physicians, data managers and investigators were kept blinded throughout the studyLow risk: data managers and investigators were kept blinded throughout the studyLow risk: No dropoutsLow risk: No dropoutsLow risk: No dropoutsCoupes 2015 [30]Transplant: DB, SSLow risk: patients were randomly assigned by the trial pharmacy by computerLow risk: all study participants and the study team were blinded to the trial drugUnclear riskLow risk: 1 patient withdrew but was included in the analysisLow risk: lost patients reportedLow riskHafer 2012 [32]Transplant: DB, SSUnclear risk: randomization methodology not disclosedLow risk: vials containing ESA and placebo had identical appearanceUnclear riskLow risk for DGF. High risk for graft loss (3 patients died 1 in ESA group and 2 in placebo group)Low risk: lost patients reportedHigh risk: 2 untreated patients (not included in analysis) and 3 patients diedMartinez 2010 [33]Transplant: OL, MCUnclear risk: randomization method not disclosedHigh risk: comparator arm was untreatedLow risk: Blinded evaluation of end-pointsUnclear risk: 1 died in ESA groupLow risk: lost patients reportedLow riskSureshkumar 2012 [34]Transplant: DB, SSLow risk: the hospital pharmacy created a schedule using random assignments to a series of patient study numbersLow risk: ESA and placebo were both 1 ml syringes. The medications were administered in a double-blinded mannerUnclear riskLow riskLow risk: no dropoutsLow riskVan Biesen 2005 [35]Transplant: OL, SSUnclear risk: randomization method not disclosedHigh risk: open labelHigh riskUnclear riskHigh riskUnclear riskVan Loo 1996 [36]Transplant: OL, SSUnclear risk: randomization method not disclosedHigh risk: open labelHigh riskLow risk: no deaths or withdrawalsLow risk: no deaths or withdrawalLow risk: no deaths or withdrawalsAbraham 1990 [38]Anemia correction: DB then OL, Anemia correction: SSUnclear risk: randomization method not disclosedUnclear risk: unspecifiedHigh riskLow risk: no dropoutsLow risk: no dropoutsLow riskClyne 1992 [39]Anemia correction: OL, 2 centerUnclear riskHigh riskHigh...…”
Section: Resultsmentioning
confidence: 99%
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“…The randomization allocation sequence was generated by a random-number tableLow risk: patients, physicians, data managers and investigators were kept blinded throughout the studyLow risk: data managers and investigators were kept blinded throughout the studyLow risk: No dropoutsLow risk: No dropoutsLow risk: No dropoutsCoupes 2015 [30]Transplant: DB, SSLow risk: patients were randomly assigned by the trial pharmacy by computerLow risk: all study participants and the study team were blinded to the trial drugUnclear riskLow risk: 1 patient withdrew but was included in the analysisLow risk: lost patients reportedLow riskHafer 2012 [32]Transplant: DB, SSUnclear risk: randomization methodology not disclosedLow risk: vials containing ESA and placebo had identical appearanceUnclear riskLow risk for DGF. High risk for graft loss (3 patients died 1 in ESA group and 2 in placebo group)Low risk: lost patients reportedHigh risk: 2 untreated patients (not included in analysis) and 3 patients diedMartinez 2010 [33]Transplant: OL, MCUnclear risk: randomization method not disclosedHigh risk: comparator arm was untreatedLow risk: Blinded evaluation of end-pointsUnclear risk: 1 died in ESA groupLow risk: lost patients reportedLow riskSureshkumar 2012 [34]Transplant: DB, SSLow risk: the hospital pharmacy created a schedule using random assignments to a series of patient study numbersLow risk: ESA and placebo were both 1 ml syringes. The medications were administered in a double-blinded mannerUnclear riskLow riskLow risk: no dropoutsLow riskVan Biesen 2005 [35]Transplant: OL, SSUnclear risk: randomization method not disclosedHigh risk: open labelHigh riskUnclear riskHigh riskUnclear riskVan Loo 1996 [36]Transplant: OL, SSUnclear risk: randomization method not disclosedHigh risk: open labelHigh riskLow risk: no deaths or withdrawalsLow risk: no deaths or withdrawalLow risk: no deaths or withdrawalsAbraham 1990 [38]Anemia correction: DB then OL, Anemia correction: SSUnclear risk: randomization method not disclosedUnclear risk: unspecifiedHigh riskLow risk: no dropoutsLow risk: no dropoutsLow riskClyne 1992 [39]Anemia correction: OL, 2 centerUnclear riskHigh riskHigh...…”
Section: Resultsmentioning
confidence: 99%
“…No difference in sCr at any time point. No difference in eGFR at 1 or 3 monthsSureshkumar 2012 [34]Pennsylvania (USA) (Allegheny General Hospital, Pittsburgh, Pennsylvania)Epoetin α (100,000 U (iv); Procrit) intraarterially immediately after reperfusionMatched placebo (not disclosed) N  = 72: ESA (36), control (36)The need for dialysis within the first wk of transplantationNo difference in Hb, sCr, eGFR or urinary biomarkers of AKI (NGAL or IL-18)Van Biesen 2005 [35]Belgium (University Hospital Ghent)Epoetin β (100/IU/kg; Recormon) immediately after transplantation then thrice weekly to maintain Hb above 12 g/dLNo ESA N  = 26: ESA (14), control (12)Not definedShorter time to target Hb in ESA arm. No difference in transfusions or sCr at 3 monthsVan Loo 1996 [36]Belgium (University Hospital, Gent, Belgium)Epoetin β (within 1 week post transplant).…”
Section: Resultsmentioning
confidence: 99%
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“…Due to their close contact with blood flow, endothelial cells are an easy-to-reach therapeutic target during organ preservation. Different possibilities for controlling ischemia-reperfusion injury and the rate of delayed graft function by targeting immune components, coagulation effectors or genes involved in cell survival are currently being tested in clinical trials on adult kidney transplantation (summarized in Table 3) [74][75][76]. Similarly, our laboratory has obtained promising results from an ongoing investigation into blockade of the C1 component of the complement in our porcine model.…”
Section: Strategies To Limit Renal Ischemia-reperfusion Injuries Andmentioning
confidence: 99%
“…18 Results that were also seen in other studies dealing with high-dose EPO in renal transplantation. 19,20 Another interesting field of clinical use would be the protection of renal organ function after cardiac surgery. Two studies examined EPO effects in this setting.…”
mentioning
confidence: 99%