Background. Costimulatory blockade with belatacept has demonstrated long-term benefits in renal transplantation, but de novo use in liver transplant recipients has resulted in increased rejection, graft loss, and death. However, belatacept conversion as a calcineurin inhibitor (CNI) avoidance strategy has not been studied and may be of benefit in liver transplantation where CNI-induced renal dysfunction and toxicity are barriers to improved outcomes. Methods. Using clinical data extracted from our institutional medical record, we report on 8 patients who underwent kidney after liver transplantation and were treated with belatacept-based immunosuppression and transient CNI therapy. Results. All patients tolerated belatacept therapy without any patient deaths or graft losses. No episodes of rejection, de novo donor-specific antibody formation, or major systemic infections were observed, and all patients demonstrated preserved liver and excellent renal allograft function. Patients received belatacept for a median duration of 13.2 mo, and at a median follow-up of 15.9 mo post-kidney transplant, 6 of 8 patients continued on belatacept with 3 completely off and 3 poised to transition off CNI. Conclusions. These findings are the first evidence that in liver transplant recipients requiring subsequent kidney transplantation, belatacept-based therapy can potentially facilitate CNI-free maintenance immunosuppression. This supports the possibility of belatacept conversion in stand-alone liver transplant recipients as a viable method of CNI avoidance.
Background. Cytopenias, a common complication for immunosuppressed patients, are known to be associated with adverse transplant outcomes. However, there is little information on cytopenias in recipients treated with the costimulation blockade agent, belatacept. Methods. We compared cytopenia incidence and manifestations in patients undergoing kidney transplant at Emory University Hospital on tacrolimus and belatacept. To reduce selection bias, the tacrolimus group was narrowed to include only patients eligible for belatacept. Results. Of 1651 patients transplanted between 2009 and 2019, 187 (11%) experienced severe anemia, 309 (19%) experienced leukopenia, and 62 (4%) thrombocytopenia. On multivariable regressions, deceased-donor transplant, cytomegalovirus viremia, and thymoglobulin treatment were associated with risk of developing leukopenia, anemia, and thrombocytopenia. High-risk cytomegalovirus status was also associated with development of leukopenia and anemia. Additionally, azathioprine was associated with development of anemia, and both tacrolimus therapy and Caucasian race were associated with thrombocytopenia. Longitudinal quantifications of hematologic cell lines over the first-year posttransplant were extracted from generalized linear models fit using splines. Only hemoglobin range was significantly different between groups (greater in belatacept patients). Plots of mean cell count for each group suggest an earlier recovery from posttransplant anemia in belatacept patients. Conclusions. Belatacept patients are not at increased risk of cytopenia but may have improved recovery from posttransplant anemia.
Pulmonary hypertension affects about one in four patients with advanced chronic kidney disease and significantly increases the risk of death. Kidney transplantation is the recommended management option for patients with progressive or end‐stage kidney disease. However, the resource‐limited nature of kidney transplantation and its intensive peri‐operative and posttransplantation management motivates careful consideration of potential candidates’ medical conditions to optimally utilize available graft organs. Since pulmonary hypertension is known to increase peri‐operative morbidity and mortality among patients living with chronic kidney disease, we performed a retrospective cohort study to assess the impact of pretransplantation pulmonary hypertension on posttransplantation outcome. All patients who underwent single‐organ kidney transplantation at our center in calendar years 2010 and 2011 were identified and the presence of pulmonary hypertension was determined from pretransplantation echocardiography. Outcome was assessed at 5 years following kidney transplantation. Of 350 patients who were included, 117 (33%) had evidence of pulmonary hypertension. The risk of death, graft dysfunction, or graft failure at 5 years after kidney transplantation was higher among those with pulmonary hypertension, primarily owing to an increased risk of graft dysfunction. Importantly, in this institutional cohort of kidney transplant recipients, pretransplant pulmonary hypertension was not associated with a difference in posttransplant survival at 5 years. While institutional and regional differences in outcome can be expected, this report suggests that carefully selected patients with pulmonary hypertension receive similar long‐term benefits from kidney transplantation.
Introduction: Medial arterial calcification is a common and progressive lesion in end-stage renal disease that is associated with poor cardiovascular outcomes. Whether this lesion can be arrested or reversed is unknown, and was examined retrospectively by measuring progression of breast arterial calcification before and after kidney transplantation. Methods: Arterial calcification was measured on serial mammograms from patients with previous kidney transplantation and compared to measurements performed before transplantation or in patients on the active waitlist. Serum creatinine >2.0 mg/dl after transplantation or warfarin use were exclusions. Results: Median (interquartile range) progression of arterial calcification was 12.9 mm/breast per year (5.9 to 32.6) in 34 patients before or awaiting transplantation compared to just 1.2 mm/breast per year (−0.54 to 5.1) in 34 patients after transplantation (P < 0.001). Slowing of progression was also seen in longitudinal analyses of patients with mammograms performed both before and after transplantation. Duration of end-stage renal disease before transplantation but not age, diabetes, baseline calcification, or serum chemistries correlated with progression after transplantation. Significant regression was not observed in any patient. Conclusion: In this first quantitative study of the effect of kidney transplantation, medial arterial calcification appeared to slow to rates seen in patients with normal renal function, indicating that the effect of renal failure may be completely abrogated. Overall, however, there was no significant regression, suggesting that calcification is irreversible and emphasizing the importance of prevention. Duration of pretransplant end-stage renal disease but not baseline calcification was a determinant of progression, consistent with cumulative, permanent changes to arteries that promote calcification.