4 resultados para Delayed Graft Function
em AMS Tesi di Dottorato - Alm@DL - Università di Bologna
Resumo:
In the last decades significant improvements has been reached in short term graft survival, conversely long-term graft survival in still an open challenge for the scientific community. One of the major causes of long term graft loss is represented by chronic- active antibody mediated rejection (cAMR), a recently identified entity whose diagnosis is based on laboratoristic and histologic elements: the presence of DSA associated to specific morphological lesions as inflammation and microvascular damage associated or not to C4d deposition. Treatment of cAMR is an open field of debate. Tocilizumab, an anti-IL6 monoclonal antibody has been recently proposed as a first line treatment for cAMR, showing encouranging results. We describe our monocentric experience using Tocilizumab as first-line therapy for cAMR. Graft function (eGFR), proteinuria and DSA have been evaluated every 6 month for 24 months; histology have been performed after 12 months of treatment. No adverse events have been observed during study period. 12 patients completed the study with a follow-up of 24 months. Kidney function showed a worsening during follow-up that reaches statistical significance at 12 and 24 months (eGFR from 32.2±13.9 ml/min to 26.9±13 ml/min), but far less than expected for these kind of patients. 4 patients (30%) reached ESRD during follow-up, 3 requiring renal replacement therapy. We did not observed any statically significant variation in proteinuria and in DSA MFI levels. From a histological point of view, we observed a significant improvement in active cAMR lesions (C4d deposition and Acute tissue injury (MTA, g>0/ptc>0, v>0) and no progression among chronic lesions (Transplant glomerulopathy, PTC multilayering and aterial intimal fibrosis) Tocilizumab shown good results, with a stabilization of graft function, a reduction in kidney inflammation and active lesions in kidney biopsy and not allowing progression of chronic lesions.
Resumo:
A large fraction of organ transplant recipients develop anti-donor antibodies (DSA), with accelerated graft loss and increased mortality. We tested the hypothesis that erythropoietin (EPO) reduces DSA formation by inhibiting T follicular helper (TFH) cells. We measured DSA levels, splenic TFH, TFR cells, germinal center (GC), and class switched B cells, in murine models of allogeneic sensitization, allogeneic transplantation and in parent-to-F1 models of graft versus host disease (GVHD). We quantified the same cell subsets and specific antibodies, upon EPO or vehicle treatment, in wild type mice and animals lacking EPO receptor selectively on T or B cells, immunized with T-independent or T-dependent stimuli. In vitro, we tested the EPO effect on TFH induction. We isolated TFH and TFR cells to perform in vitro assay and clarify their role. EPO reduced DSA levels, GC, class switched B cells, and increased the TFR/TFH ratio in the heart transplanted mice and in two GVHD models. EPO did also reduce TFH and GC B cells in SRBC-immunized mice, while had no effect in TNP-AECM-FICOLL-immunized animals, indicating that EPO inhibits GC B cells by targeting TFH cells. EPO effects were absent in T cells EPOR conditional KO mice, confirming that EPO affects TFH in vivo through EPOR. In vitro, EPO affected TFH induction through an EPO-EPOR-STAT5-dependent pathway. Suppression assay demonstrated that the reduction of IgG antibodies was dependent on TFH cells, sustaining the central role of the subset in this EPO-mediated mechanism. In conclusion, EPO prevents DSA formation in mice through a direct suppression of TFH. Development of DSA is associated with high risk of graft rejection, giving our data a strong rationale for studies testing the hypothesis that EPO administration prevents their formation in organ transplant recipients. Our findings provide a foundation for testing EPO as a treatment of antibody mediated disease processes.
Resumo:
Background and Aim: Acute cardiac rejection is currently diagnosed by endomyocardial biopsy (EMB), but multiparametric cardiac magnetic resonance (CMR) may be a non-invasive alternative by its capacity for myocardial structure and function characterization. Our primary aim was to determine the utility of multiparametric CMR in identifying acute graft rejection in paediatric heart transplant recipients. The second aim was to compare textural features of parametric maps in cases of rejection versus those without rejection. Methods: Fifteen patients were prospectively enrolled for contrast-enhanced CMR followed by EMB and right heart catheterization. Images were acquired on a 1,5 Tesla scanner including T1 mapping (modified Look-Locker inversion recovery sequence – MOLLI) and T2 mapping (modified GraSE sequence). The extracellular volume (ECV) was calculated using pre- and post-gadolinium T1 times of blood and myocardium and the patient’s hematocrit. Markers of graft dysfunction including hemodynamic measurements from echocardiography, catheterization and CMR were collated. Patients were divided into two groups based on degree of rejection at EMB: no rejection with no change in treatment (Group A) and acute rejection requiring new therapy (Group B). Statistical analysis included student’t t test and Pearson correlation. Results: Acute rejection was diagnosed in five patients. Mean T1 values were significantly associated with acute rejection. A monotonic, increasing trend was noted in both mean and peak T1 values, with increasing degree of rejection. ECV was significantly higher in Group B. There was no difference in T2 signal between two groups. Conclusion: Multiparametric CMR serves as a noninvasive screening tool during surveillance encounters and may be used to identify those patients that may be at higher risk of rejection and therefore require further evaluation. Future and multicenter studies are necessary to confirm these results and explore whether multiparametric CMR can decrease the number of surveillance EMBs in paediatric heart transplant recipients.
