Role of Antiplatelet Therapy in Hemodialysis Arteriovenous Graft Secondary Patency Following Successful Percutaneous Thrombectomy.

PURPOSE: The purpose of this study was to elicit the relationship of antiplatelet therapy (AP) in maintaining arteriovenous graft (AVG) patency after successful percutaneous pharmacomechanical thrombectomy ("declot"). MATERIALS AND METHODS: This was an institutional review board-approved retrospective review of AVG declot procedures between July 2019 and August 2020. AVG characteristics, bleeding complications, anticoagulation and antiplatelet medication regimens, and thrombosis free survival were evaluated. Recurrent time-to-event analysis was performed using a Prentice-Williams-Peterson Gap time model was performed to evaluate AVG thrombosis free survival. RESULTS: A total of 109 declots were technically successful and performed in 63 individual patients. The majority of procedures were performed in upper arm grafts (71%, n = 45). Dual antiplatelet (DAPT) was prescribed after 52 declots (48%), single antiplatelet was prescribed after 36 declots (33%), and anticoagulation was prescribed after 31 declots (28%). Median thrombosis free survival was 37 days (range 1-412 days) in the no antiplatelet group, 84 days (range 1-427 days) in the single antiplatelet group, and 93 days (range 3-407 days) in the DAPT group. Anti-platelet medications trended towards protective of AVG thrombosis in multivariate analysis (hazard ratio 0.84, 95% confidence interval 0.60-1.19); however, this did not reach statistical significance (P = 0.33). A total of 4 major and 5 minor bleeding events occurred. CONCLUSION: The results of this study support further evaluation of AP therapy in preventing secondary rethrombosis of dialysis AVG.

Anaphylaxis on reperfusion during liver transplantation with coagulopathy.

We present a case in which anaphylaxis on hepatic reperfusion during liver transplantation presented only with hypotension and coagulopathy. There were no cutaneous manifestations or clinical features distinguishing anaphylaxis from postreperfusion syndrome. The recipient regularly consumed seafood, and the organ donor died of anaphylaxis to shellfish. The trigger for anaphylaxis was postulated to be passive transfer of immunoglobulin to the recipient. Anesthesiologists should be notified of donor factors to anticipate anaphylaxis. In this report, we discuss coagulopathy of anaphylaxis and contrast it with disseminated intravascular coagulation.

Diagnostic accuracy of solid phase HLA antibody assays for prediction of crossmatch strength.

Solid phase antibody assays are increasingly used to provide quantitative measures of donor-specific HLA antibodies for assessment of pretransplant risk, although cell-based crossmatches continue to serve as gold standards for determination of donor HLA antibody strength. This study determined the ability of HLA antibody solid phase assays to predict the strength of cell-based flow cytometric (FC) and complement-dependent cytotoxicity (CDC) crossmatches. Eighty-two recipient/donors pairs were analyzed using receiver operating characteristic (ROC) curve analyses to determine the accuracy of donor-specific median fluorescence intensity values (Σ MFI) from single antigen bead assays for predicting strong FC and CDC crossmatches. Diagnostic sensitivity and specificity of optimal Σ MFI values were highest for predicting strong T cell FCs. Σ MFI values showed good sensitivity for predicting positive direct and AHG-augmented CDC crossmatches (91% and 94%, respectively), but with lower specificity (67% each). Specificity and sensitivity for predicting positive B cell CDC crossmatches were 73% and 84%. Σ MFI values derived from single antigen bead assays can predict strong flow and positive CDC crossmatches, but with tradeoffs between sensitivity and specificity. The results support the use of solid phase assays for quantitative virtual crossmatching and as a replacement for cell-based crossmatching.

Reactive oxygen and reactive nitrogen as signaling molecules for caspase 3 activation in acute cardiac transplant rejection.

Apoptosis is a significant factor in cardiac dysfunction and graft failure in cardiac rejection. In this study, we examined potential signaling molecules responsible for caspase 3 activation in a model of acute cardiac allograft rejection. The roles of reactive oxygen species (ROS) and nitric oxide (NO) were determined in untreated allografts and allograft recipients treated with either cyclosporine (CsA), alpha-phenyl-t-butylnitrone (PBN, a spin-trapping agent), vitamin C (VitC), Mn(III)tetrakis (1-methyl-4-pyridyl)porphyrin); MnTmPyP, a superoxide dismutase (SOD) mimetic), or L-(1-iminoethyl)lysine) (L-NIL), an inhibitor of inducible NO synthase (iNOS) enzyme activity. Graft tissue was taken for measuring superoxide radical production, Western blotting, and direct measurement of caspase 3 activity. Activation of caspase 3 in untreated allografts was revealed by the appearance of cleaved caspase 3 from pro-caspase 3 by Western blotting and functional caspase 3 catalytic activity. CsA or PBN inhibited iNOS expression and caspase 3 activity. VitC and MnTmPyP did not alter iNOS expression or decrease NO levels but did inhibit caspase 3 activity. In contrast, L-NIL completely inhibited the increase in NO production without altering iNOS expression and inhibited caspase 3 activity. The prevention of TUNEL staining by MnTmPyP and L-NIL confirmed downstream effects of superoxide and NO on apoptosis. These studies indicate that both superoxide and NO (precursors of peroxynitrite formation) play a significant role in caspase 3 activation in cardiac allograft rejection.

The complex role of iNOS in acutely rejecting cardiac transplants.

This review summarizes the evidence for a detrimental role of nitric oxide (NO) derived from inducible NO synthase (iNOS) and/or reactive nitrogen species such as peroxynitrite in acutely rejecting cardiac transplants. In chronic cardiac transplant rejection, iNOS may have an opposing beneficial component. The purpose of this review is primarily to address issues related to acute rejection, which is a recognized risk factor for chronic rejection. The evidence for a detrimental role is based upon strategies involving nonselective NOS inhibitors, NO neutralizers, selective iNOS inhibitors, and iNOS gene deletion in rodent models of cardiac rejection. The review is presented in the context of the impact on various components, including graft survival, histological rejection, and cardiac function, which may contribute to the process of graft rejection in toto. Possible limitations of each strategy are discussed in order to understand better the variance in published findings, including issues related to the potential importance of cell localization of iNOS expression. Finally, the concept of a dual role for NO and its downstream product, peroxynitrite, in rejection vs immune regulation is discussed.

Early mortality rates in older kidney recipients with comorbid risk factors.

BACKGROUND: There are over 60,000 candidates on the deceased donor kidney wait-list and the percentage of candidates over age 50 years continues to grow each year. National data have not previously been used to evaluate the association of comorbidities with mortality in older patients. METHODS: A multivariate analysis of 30,262 deceased donor primary kidney recipients aged 18-59 years and 8,895 aged >or=60 years evaluated the association of six recipient comorbidities on 90- and 365-day patient mortality rates. The additional effects of expanded criteria donors (ECD) and development of delayed graft function (DGF) were also evaluated. RESULTS: The 365-day mortality rate for recipients aged >or=60 years (10.5%) was more than twice that of recipients aged 18-59 years (4.4%) and comorbidities significantly increased mortality rates even higher (10.6-21.4%). The 365-day mortality rate for recipients aged >or=60 years who received an ECD kidney was 14.4% and who developed DGF was 15.9% while recipients with comorbidities but no DGF and no ECD ranged from 16.0 to 42.3%. The 365-day transplant mortality rate of recipients aged >or=60 years with comorbidities is higher than the 365-day wait-list mortality for patients with the same comorbidities, suggesting a lack of survival benefit from transplantation. CONCLUSIONS: Mortality rates for patients aged >or=60 years with comorbidities are higher than for those without comorbidities, significantly higher than for younger patients, and higher than for wait-listed patients. Thus, utility may be poorly served by allocating kidneys to older patients with comorbidities, and perhaps discussion of exclusionary listing criteria is warranted.

Post-translational modification of manganese superoxide dismutase in acutely rejecting cardiac transplants: role of inducible nitric oxide synthase.

BACKGROUND: Nitration of a critical tyrosine residue in the active site of manganese superoxide dismutase (MnSOD) can lead to enzyme inactivation. In this study, we examined the effect of inducible nitric oxide synthase (iNOS) on MnSOD expression, activity and nitration in acutely rejecting cardiac transplants. METHODS: Lewis (isograft) or Wistar-Furth (allograft) donor hearts were transplanted into Lewis recipient rats. Some rats received L-N6-(1-iminoethyl) lysine (l-NIL), a specific iNOS inhibitor. Protein nitration was determined by immunohistochemical, Western blot and slot-blot analyses. MnSOD enzyme activity and gene expression were determined using Western, reverse transcriptase-polymerase chain reaction (RT-PCR) and immunoprecipitation techniques. RESULTS: MnSOD protein levels were decreased 50% by post-operative day 6 (POD 6), which was prevented by L-NIL. RT-PCR analysis indicated that this decrease could not be explained by any changes in MnSOD mRNA. MnSOD enzyme activity but not protein was decreased at POD 5 in untreated allografts. The loss of MnSOD activity at POD 5 was also prevented by L-NIL. Immunoreactive nitrotyrosine was apparent in untreated allografts at POD 6. Slot-blot analysis indicated that nitrotyrosine formation in allografts could be blocked by L-NIL. Nitration of MnSOD was evident upon immunoprecipitation of MnSOD followed by Western blotting for nitrotyrosine. CONCLUSIONS: These results suggest that the decreased MnSOD enzyme activity in acutely rejecting cardiac allografts can be attributed to a post-translational modification related to nitration arising via an iNOS-dependent pathway. This could be a potential major source of amplified oxidative stress in acute graft rejection.

Hierarchical change in antioxidant enzyme gene expression and activity in acute cardiac rejection: role of inducible nitric oxide synthase.

Reactive oxygen and nitrogen may mediate inflammation injury, but the status of the antioxidant defense system that might influence this process is unknown. In the present study, we examined the expression profile of the antioxidant enzymes, manganese superoxide dismutase (MnSOD), catalase and glutathione peroxidase (GPX) in acutely rejecting cardiac allografts and the potential role of inducible nitric oxide synthase (iNOS) in modulating antioxidant gene expression and activity. Donor hearts from Lewis (isograft) or Wistar-Furth (allograft) rats were transplanted into Lewis recipient rats. A subset of the allografts received L-N6-(1-imino-ethyl) lysine (L-NIL), a specific iNOS inhibitor, beginning the day of surgery until the day of harvesting. Catalase and glutathione peroxidase (GPX) protein levels were significantly decreased by postoperative day 4 (POD4) and postoperative day 5 (POD5), respectively, in allografts compared to isografts. While CuZn superoxide dismutase (CuZn SOD) levels were unchanged, there was a 50% decrease in MnSOD protein in allografts at postoperative day 6 (POD6). The sequential loss in antioxidant protein levels was not due to transcriptional regulation since there was no change in RNA levels for any of the genes tested. L-NIL did not alter catalase protein; however, the loss of MnSOD protein at POD6 was prevented by L-NIL. Consistent with a decrease in antioxidant protein levels, there was a sequential loss in enzyme activity for MnSOD, catalase and GPX. L-NIL however, restored MnSOD and GPX activities but not catalase activity. Treatment with CsA restored both protein and enzyme activities of GPX and MnSOD but not catalase. These results indicate that the loss in MnSOD and GPX protein and activity in allografts occurs via an iNOS-dependent mechanism whereas the decrease in catalase appears to be iNOS-independent. This suggests a differential role for iNOS in regulating post-translational modification of individual antioxidant enzymes in acute cardiac transplantation.

Protective mechanisms of a metalloporphyrinic peroxynitrite decomposition catalyst, WW85, in rat cardiac transplants.

Nitric oxide (NO) derived from inducible NO synthase has been implicated in cardiac rejection. However, little is known about the role of the reactive nitrogen species peroxynitrite. We examined the protective actions of a peroxynitrite decomposition catalyst, WW85, in an experimental model of acute cardiac rejection. Heterotopic, abdominal transplantation of rat donor hearts was performed. Groups included isografts, allografts, or allografts treated with WW85, cyclosporine, or cyclosporine + WW85. We determined graft survival, histological rejection, and graft function (by in situ sonomicrometry). Intragraft biochemical analysis of cytokines and proapoptotic and antiapoptotic gene expression using reverse transcriptase-polymerase chain reaction were determined. Treatment with WW85 or cyclosporine alone prolonged graft survival, improved graft function, and decreased histological rejection. Graft survival was further significantly (P < 0.001) enhanced by combination treatment. A decrease was also shown in nitrotyrosine, poly(ADP-ribose) polymerase (PARP) activation, and lipid peroxide formation by WW85 that was potentiated when given in combination with cyclosporine. Benefits could not be ascribed to changes in intragraft myeloperoxidase activity. Only combination therapy produced significant decreases in inflammatory cytokine gene expression, suggesting that WW85 acted primarily downstream of these stimuli. In general, WW85 had no direct action on expression of the proapoptotic gene, Fas ligand; however, WW85 given alone or with cyclosporine enhanced expression of antiapoptotic genes Bcl-2 and Bcl-xL. Collectively, these findings suggest a protective action of the peroxynitrite decomposition catalyst WW85 on graft rejection that is independent of any action on leukocyte sequestration and cytokine gene expression. Rather, effects seem to be downstream on decreased protein nitration, decreased lipid peroxidation, and decreased PARP activation.

A murine model of invasive aspergillosis: variable benefit of interferon-gamma administration under in vitro and in vivo conditions.

BACKGROUND: Interferon-gamma modulates host defense in a number of infectious diseases. Previous studies have shown that systemic administration of interferon-gamma (IFN-gamma) can enhance survival in experimental invasive aspergillosis (IA). METHODS: Using a novel model of murine IA that is characterized by primary pulmonary infection, we investigated the role of IFN-gamma in the phagocytosis and killing of Aspergillus fumigatus by murine neutrophils and pulmonary alveolar macrophages in vitro and the impact of systemic and regional administration of IFN-gamma on the course of IA in glucocorticoid-treated mice. RESULTS: In vitro, IFN-gamma significantly enhanced phagocytosis and killing function of both neutrophils and alveolar macrophages from normal animals, but not cortisone-treated animals. In vivo, intravenous administration of IFN-gamma did not improve phagocyte recruitment, in vivo killing, or mortality from IA. Regional (intranasal) administration of IFN-gamma to the lungs enhanced recruitment of phagocytic cells to the lungs and improved in vivo killing, but did not alter (and actually worsened) mortality from IA. CONCLUSIONS: The in vitro and in vivo effects of IFN-gamma in IA are contingent on many variables, including the route of administration and the specific pathogenesis of infection.

Treatment with {alpha}-phenyl-N-tert-butylnitrone, a free radical-trapping agent, abrogates inflammatory cytokine gene expression during alloimmune activation in rat cardiac allografts.

Spin-trapping nitrones such as alpha-phenyl-N-tert-butylnitrone (PBN) have traditionally been used to trap and stabilize free radicals for detection by electron paramagnetic resonance (EPR) spectroscopy. Unlike classical antioxidants, these agents have never been evaluated therapeutically in allograft transplantation. In the present study, we examined potential mechanisms of action of treatment with PBN in a rat model of acute cardiac allograft transplantation. Graft rejection was determined by histological examination and graft function determined by in situ sonomicrometry. DNA binding for nuclear factor (NF)-kappaB and activator protein (AP-1) were determined by gel shift assays. Western blot and reverse transcriptase-polymerase chain reaction (RT-PCR) analysis was performed for inducible nitric-oxide synthase (iNOS) and inflammatory cytokines. Histological rejection scores were elevated in untreated allografts and decreased by treatment with PBN. In situ sonomicrometry revealed decreased heart rate and distended end diastolic and end systolic segment lengths with rejection. Although PBN did not alter heart rate, it did normalize the distention of both diastolic and systolic cardiac dimension. EPR spectroscopy revealed nitrosylation of myocardial heme protein in untreated allografts that was decreased by treatment with PBN. PBN also decreased iNOS protein and iNOS mRNA. RT-PCR analysis revealed enhanced cytokine gene expression for interferon-gamma, interleukin-6, and interleukin-10 in untreated allografts. Expression for these genes was potently inhibited or abolished in recipients treated with PBN. PBN treatment also decreased DNA binding of transcription factors, NF-kappaB and AP-1. Thus, PBN retains significant anti-inflammatory properties through its action to down-regulate cytokine gene expression that contribute to protection against acute alloimmune activation in cardiac allografts.

Inhibition of nitrosylation, nitration, lymphocyte proliferation, and gene expression in acute and delayed cardiac allograft rejection by an orally active dithiocarbamate.

Dithiocarbamate derivatives sequester metals such as iron and may have benefits in inflammatory diseases. We examined the actions of a new dithiocarbamate-based oral formulation, NOX-700, on protein modification by nitric oxide (NO), gene expression, and lymphocyte proliferation in a model of acute and delayed cardiac rejection. Chronic treatment with NOX-700 prolonged graft survival. In combination with low-dose cyclosporine (CsA), NOX-700 produced a synergistic action to prolong graft survival. NOX-700 decreased myocardial heme nitrosylation. A single bolus injection with NOX-700 in untreated recipients did not decrease heme nitrosylation but normalized NO metabolites and caused the formation of a mononitrosyl iron complex indicating NO scavenging in vivo. NOX-700 alone given with CsA inhibited protein nitration. NOX-700 or CsA each alone decreased intragraft inflammatory cell infiltration. NOX-700 also potentiated the CsA-induced inhibition of splenocyte proliferation ex vivo stimulated by concanavalin A. In splenocytes derived from treated rats but stimulated ex vivo in a mixed lymphocyte response (MLR), interferon-gamma and cyclin D3 gene expression was inhibited by NOX-700 suggesting down-regulation of lymphocyte activation and proliferation by in vivo treatment. These studies suggest that NOX-700 is protective in cardiac rejection, in part, by scavenging of NO and by limiting lymphocyte activation infiltration.

A dithiocarbamate analogue decreases intraislet cell infiltration and the incidence of diabetes mellitus in the genetic diabetes-prone BB rat.

SUMMARY: Dithiocarbamates are a class of agents that have interesting biologic properties including the ability to limit the production and/or action of nitric oxide (NO). These agents are also potential immunosuppressant agents. Since immunosuppressant agents have been examined for remission of disease in clinical trials, we wanted to examine whether a dithiocarbamate analogue, NOX-200, might inhibit diabetogenesis in the genetic diabetes-prone BB rat model. Immunohistochemical analysis revealed inducible NO synthase (iNOS) gene expression in pancreatic islets of both normoglycemic and hyperglycemic diabetes-prone BB rats but not in diabetes-prone BB rats at the early age of 30 days or in diabetes-resistant BB rats. A qualitative decrease in immunostaining for iNOS was also observed in the pancreata of drug-treated animals. Long-term treatment with NOX-200, used alone or in combination with low-dose cyclosporine (CsA), significantly reduced the incidence of diabetes mellitus. In the subset of animals that became diabetic, NOX-200 did not alter either the time to onset of hyperglycemia or the level of hyperglycemia, insulinopenia, or lymphocytic cell infiltration into the pancreas. In contrast, in animals that did not develop hyperglycemia, treatment with NOX-200 decreased inflammatory cell infiltration into the pancreas equipotent to that seen using CsA. These studies demonstrate the potential therapeutic efficacy of dithiocarbamates to oppose the development of autoimmune insulin-dependent diabetes mellitus by limiting inflammatory cell activation/infiltration.

Variable efficacy of N6-(1-iminoethyl)-L-lysine in acute cardiac transplant rejection.

We examined the efficacy and mechanism of action of N(6)-(1-iminoethyl)-L-lysine (L-NIL), a highly selective inhibitor of inducible nitric oxide (NO) synthase (iNOS), on acute cardiac transplant rejection. L-NIL produced a concentration-dependent attenuation of plasma NO by-products and a decrease in nitrosylation of heme protein without altering protein levels of iNOS. At postoperative day 4, L-NIL did not alter the increased binding activities for transcription factors nuclear factor-kappaB and activator protein-1. Whereas L-NIL decreased inflammatory cell infiltration, graft survival was only prolonged at the dose of 1.0 microg/ml that incompletely blocked NO production. Higher L-NIL concentrations (30 and 60 microg/ml) ablated the increased NO production but failed to improve graft survival and even potentiated NF-kappaB binding activity examined at day 6. Alloimmune activation indicated by increased cytokine gene expression for interferon-gamma, interleukin-6, and interleukin-10 was inhibited in grafts only by treatment with 1.0 microg/ml L-NIL. These findings suggest a complex role of NO in acute cardiac allograft rejection. Partial inhibition of iNOS is beneficial to graft survival, whereas total ablation may oppose any benefits to graft survival. These studies have important implications in understanding the dual role of NO in acute rejection and help to reconcile discrepancies in the literature.

Beta tryptase levels are not elevated in patients undergoing liver transplantation.

Reperfusion syndrome during liver transplantation and anaphylaxis are clinical syndromes that share similarities in physiological responses. The liver and intestine contain a variety of immunologically active cells, including mast cells. The purpose of this study is to investigate the possibility that mast-cell degranulation occurs routinely during transplantation and thereby contributes to hemodynamic instability and coagulopathy. Beta tryptase, an enzyme released by mast cells during degranulation, is a reliable marker for mast-cell-mediated events. Six patients undergoing liver transplantation had beta tryptase levels assayed in blood immediately before and after reperfusion of the liver. No patient showed an increase in beta tryptase levels at 15 or 60 minutes after reperfusion. In conclusion, it is unlikely that clinically significant mast-cell degranulation occurs routinely in patients undergoing liver transplantation.

Mechanisms of the protective action of diethyldithiocarbamate-iron complex on acute cardiac allograft rejection.

In this study, we examined the actions of diethyldithiocarbamate-iron (DETC-Fe) complex in acute graft rejection heterotopically transplanted rat hearts. Chronic treatment with DETC-Fe inhibited the increase in plasma nitric oxide (NO) metabolites and nitrosylation of myocardial heme protein as determined by electron paramagnetic resonance (EPR) spectroscopy. Pulse injection with DETC-Fe normalized NO metabolites. We verified intragraft trapping of NO in vivo by pulse injection with DETC-Fe by the detection within allografts of an anisotropic triplet EPR signal for DETC-Fe-NO adduct with resonance positions (g tensor factors for perpendicular and parallel components, respectively g( perpendicular ) = 2.038 and g( parallel ) = 2.02; hyperfine coupling of 12.5 G). DETC-Fe prolonged graft survival and decreased histological rejection scores. DNA binding activity for nuclear factor (NF)-kappaB and activator protein-1 was increased in allografts and prevented by DETC-Fe. Abrogation of the activation of NF-kappaB by DETC-Fe was associated with increased IkappaBalpha inhibitory protein. Western blotting and RT-PCR analysis revealed that DETC-Fe inhibited inducible NO synthase protein and gene expression. Gene expression for the proinflammatory cytokine interferon-gamma was also decreased by DETC-Fe. Thus DETC-Fe limits NF-kappaB-dependent gene expression and possesses significant immunosuppressive properties.

Non-heme iron protein: a potential target of nitric oxide in acute cardiac allograft rejection.

We examined iron nitrosylation of non-heme protein and enzymatic activity of the Fe-S cluster protein, aconitase, in acute cardiac allograft rejection. Heterotopic transplantation of donor hearts was performed in histocompatibility matched (isografts: Lewis --> Lewis) and mismatched (allografts: Wistar-Furth --> Lewis) rats. On postoperative days (POD) 4-6, Western blot analysis and immunohistochemistry revealed inducible nitric-oxide synthase (iNOS) protein in allografts but not isografts. EPR spectroscopy revealed background signals at g = 2.003 (for semiquinone) and g = 2.02 and g = 1.94 (for Fe-S cluster protein) in isografts and normal hearts. In contrast, in allografts on POD4, a new axial signal at g = 2.04 and g = 2.02 appeared that was attributed to the dinitrosyl-iron complex formed by nitrosylation of non-heme protein. Appearance of this signal occurred at or before significant nitrosylation of heme protein. Iron nitrosylation of non-heme protein was coincidental with decreases in the nonnitrosylated Fe-S cluster signal at g = 1.94. Aconitase enzyme activity was decreased to approximately 50% of that observed in isograft controls by POD4. Treatment with cyclosporine blocked the (i) elevation of plasma nitrate + nitrite, (ii) up-regulation of iNOS protein, (iii) decrease in Fe-S cluster EPR signal, (iv) formation of dinitrosyl-iron complexes, and (v) loss of aconitase enzyme activity. Formation of dinitrosyl-iron complexes and loss of aconitase activity within allografts also was inhibited by treatment of recipients with a selective iNOS inhibitor, l-N(6)-(1-iminoethyl)lysine. This report shows targeting of an important non-heme Fe-S cluster protein in acute solid organ transplant rejection.

Multicenter randomized prospective trial of steroid withdrawal in renal transplant recipients receiving basiliximab, cyclosporine microemulsion and mycophenolate mofetil.

Corticosteroids withdrawal from immunosuppressive regimens has thus far been associated with increased risk of acute rejection episodes. In this study, basiliximab, a chimeric monoclonal interleukin-2 receptor antagonist, added to a maintenance regimen consisting of cyclosporine microemulsion and mycophenolate mofetil was studied for its effectiveness in allowing early corticosteroid withdrawal in de novo renal allograft recipients. Primary renal transplant recipients receiving basiliximab, cyclosporine-microemulsion, and mycophenolate mofetil, were randomized to either corticosteroid withdrawal at day four post-transplantation (n = 40) or standard steroid therapy (n = 43). The primary endpoint was the incidence of biopsy-proven acute rejection episodes. Randomized subjects who underwent transplantation and received at least one dose of basiliximab were analyzed in an intent-to-treat fashion. The incidence of biopsy-proven acute rejection at 12 months was not significantly different between the steroid withdrawal group (20%) and the standard treatment group (16%). Patient and graft survival was 100% in the steroid withdrawal group while one death in a patient with a functioning graft occurred in the standard steroid group. Seventy-two percent of the steroid withdrawal group remained off steroids at 6 months post-transplant. Allograft function and incidence of adverse events and infections were similar between the two groups. Rapid and early corticosteroid withdrawal among renal transplant recipients receiving basiliximab induction and daily therapy with cyclosporine-microemulsion and mycophenolate mofetil was not associated with an increased risk of acute rejection.

Conversion of stable renal allograft recipients to a bioequivalent cyclosporine formulation.

BACKGROUND: Gengraf capsule, an AB-rated generic cyclosporine for Neoral, has been shown to be bioequivalent in previous studies. The purpose of this pharmacokinetic study performed in stable renal transplant recipients was to evaluate interchangeability of Gengraf and Neoral. METHODS: Using an open-label, three-period design, 50 renal transplant recipients taking stable doses of Neoral completed a multicenter study. Subjects continued their Neoral regimen during period I (days 1-14). Subjects then switched from Neoral on a milligram-for-milligram basis to Gengraf during period II (days 15-28), followed by conversion to the same milligram-for-milligram dosing regimen of Neoral during period III (days 29-35). Twelve-hour pharmacokinetic evaluations (maximum observed blood concentration [C(max) ], concentration before dosing [C(trough) ], time to maximum observed concentration [T(max) ], and area under the blood concentration-vs.-time curve [AUC]) occurred on days 1, 14, 15, 28, and 29. Additional predose samples (C (trough)) were evaluated on days 7, 21, and 35. Laboratory and safety parameters were also evaluated. RESULTS: The pharmacokinetics of Gengraf (C(max), T(max), C(trough), and AUC) were indistinguishable from the Neoral values in stable renal allograft recipients. The bioequivalent capsules were interchangeable with respect to C(max), C(trough), and AUC at steady state and also on conversion from one capsule formulation to the other. The 90% confidence intervals (CI) for the Gengraf versus Neoral comparison at steady state (day 28 vs. day 14) were 0.95 to 1.03 for AUC and 0.92 to 1.04 for C(max). Trough concentrations remained consistent throughout the study, with no need for dosage adjustment in any of the subjects. Gengraf is well tolerated, with an excellent safety profile, comparable to the safety profile of Neoral. CONCLUSIONS The pharmacokinetics of Gengraf are equivalent and indistinguishable from those of Neoral. Gengraf is well tolerated and interchangeable with Neoral in stable renal transplant recipients.

Transplant tumor registry: donor related malignancies.

BACKGROUND: Transmission of donor malignancies has been intermittently reported since the early days of clinical transplantation. The incidence of United States donor related malignancies has not previously been documented. METHODS: All donor related malignancies reported to the Organ Procurement and Transplantation Network/United Network for Organ Sharing from 4/1/94-7/1/01 in a cohort of 34,933 cadaveric donors and 108,062 recipients were investigated by contacting the transplant centers to verify that the reported tumors were of donor origin. Time and mode of discovery, as well as graft and patient outcome, were determined. The status of other recipients from the donor was investigated. RESULTS: A total of 21 donor related malignancies from 14 cadaveric and 3 living donors were reported. Fifteen tumors were donor transmitted and 6 were donor derived. Transmitted tumors are malignancies that existed in the donor at the time of transplantation. Derived tumors are de novo tumors that develop in transplanted donor hematogenous or lymphoid cells after transplantation. The cadaveric donor related tumor rate is 0.04% (14 of 34,993). The donor related tumor rate among transplanted cadaveric organs is 0.017% (18 of 108,062). Among patients developing donor related malignancies, the overall mortality rate was 38%, with that of transmitted tumors being 46% and derived tumors being 33%. The cadaveric donor related tumor mortality rate is 0.007% (8 of 108,062). CONCLUSIONS: The United States incidence of donor related tumors is extremely small. The donor related tumor death rate is also extremely small, particularly when compared with waiting-list mortality.