Post-transplant therapy with high-dose intravenous gammaglobulin: Applications to treatment of antibody-mediated rejection

Novel therapies for treatment of antibody-mediated rejection of the kidney

PURPOSE OF REVIEW

We aim to discuss current literature on novel therapies for antibody-mediated rejection (AMR) in kidney transplantation with a focus on chronic AMR.

RECENT FINDINGS

IL-6/IL-6 receptor blockers appear promising in the treatment of chronic AMR. Blocking this pathway was shown to reduce human leucocyte antigen-antibodies, improve histologic inflammation and increase T-regulatory cells. Based on experience in desensitization, IgG degrading endopeptidase, imlifidase, could be effective in AMR. There have been case reports describing the successful use of plasma cell/natural killer-cell-directed anti-CD38 antibody in the treatment of AMR. Off-target effects have been noted and strategies to mitigate these will be needed when using these agents. Complement inhibitors could be an effective add-on strategy to antibody-depleting therapies but their role in AMR needs to be better defined. Combining proteasome inhibitors and costimulation blockers has shown encouraging results in the prevention of AMR in animal models and is now being investigated in humans. Other novel strategies such as Fc neonatal receptor blockers which inhibit the recycling of pathogenic IgG and bispecific antibodies against B-cell maturation antigen/CD3+ T cells warrant further investigation.

SUMMARY

There are now a number of emerging therapies with varied targets and mechanism(s) of action that hold promise in the management of AMR and improving allograft survival.

IgM-Enriched Human Intravenous Immunoglobulin-Based Treatment of Patients With Early Donor Specific Anti-HLA Antibodies After Lung Transplantation

BACKGROUND

At our institution, until April 2013, patients who showed early donor specific anti-HLA antibodies (DSA) after lung transplantation were preemptively treated with therapeutic plasma exchange (tPE) and a single dose of Rituximab. In April 2013, we moved to a therapy based on IgM-enriched human immunoglobulins (IVIG), repeated every 4 weeks, and a single dose of Rituximab.

METHODS

This observational study was designed to evaluate the short-term patient and graft survival in patients who underwent IVIG-based DSA treatment (group A, n = 57) versus contemporary patients transplanted between April 2013 and January 2015 without DSA (group C, n = 180), as well as to evaluate DSA clearance in IVIG-treated patients versus historic patients who had undergone tPE-based treatment (group B, n = 56). Patient records were retrospectively reviewed. Follow-up ended on April 1, 2015.

RESULTS

At 6 months and 1 year of follow-up, group A had a survival similar to group C (P = 0.81) but better than group B (P = 0.008). Group A showed statistically nonsignificant trends toward improved freedom from pulsed-steroid therapy and biopsy-confirmed rejection over groups B and C. The DSA clearance was better in group A than group B at treatment end (92% vs 64%; P = 0.002) and last DSA control (90% vs 75%; P = 0.04).

CONCLUSIONS

Patients with new early DSA but without graft dysfunction that are treated with IVIG and Rituximab have similarly good early survival as contemporary lung transplant recipients without early DSA. The IVIG yielded increased DSA clearance compared with historic tPE-based treatment, yet spontaneous clearance of new DSA also remains common.

Advances in pharmacotherapy to treat kidney transplant rejection

INTRODUCTION

Current immunosuppressive combination therapy provides excellent prevention of T-cell-mediated rejection following renal transplantation; however, antibody-mediated rejection remains of high concern and accounts for a large number of long-term allograft losses. The recent development of protocol biopsies resulted in the definition of subclinical rejection (SCR), showing histologic evidence for rejection but unremarkable clinical course.

AREAS COVERED

This review describes the current knowledge and evidence of pharmacotherapy to treat kidney allograft rejections and covers SCR treatment options. Each substance is analyzed with regard to its classical indication and further discussed for the treatment of other forms of rejection.

EXPERT OPINION

Despite a lack of randomized trials, early acute T-cell-mediated rejection can be treated effectively in most cases without graft loss. The necessity to treat SCR is currently unclear. Due to a lack of effective therapies, new treatment approaches for antibody-mediated rejection are an urgent medical need to improve long-term outcomes. Future research should aim to better define pathophysiology and histology, stratify risk, and develop rational treatment strategies from randomized controlled trials, in order to establish the value of novel therapies in the arsenal of rejection pharmacotherapy. However, the effective prevention of rejection with minimal side effects still remains the goal in immunosuppression.

Immunoglobulin (Ig)G purified from human sera mirrors intravenous Ig human leucocyte antigen (HLA) reactivity and recognizes one's own HLA types, but may be masked by Fab complementarity-determining region peptide in the native sera

Intravenous immunoglobulin (IVIg) reacted with a wide array of human leucocyte antigen (HLA) alleles, in contrast to normal sera, due possibly to the purification of IgG from the pooled plasma. The reactivity of IgG purified from normal sera was compared with that of native sera to determine whether any serum factors mask the HLA reactivity of anti-HLA IgG and whether IgG purified from sera can recognize the HLA types of the corresponding donors. The purified IgG, unlike native sera, mirrored IVIg reactivity to a wide array of HLA-I/-II alleles, indicating that anti-HLA IgG may be masked in normal sera - either by peptides derived from soluble HLA or by those from antibodies. A < 3 kDa peptide from the complementarity-determining region (CDR) of the Fab region of IgG (but not the HLA peptides) masked HLA recognition by the purified IgG. Most importantly, some of the anti-HLA IgG purified from normal sera - and serum IgG from a few donors - indeed recognized the HLA types of the corresponding donors, confirming the presence of auto-HLA antibodies. Comparison of HLA types with the profile of HLA antibodies showed auto-HLA IgG to the donors' HLA antigens in this order of frequency: DPA (80%), DQA (71%), DRB345 (67%), DQB (57%), Cw (50%), DBP (43%), DRB1 (21%), A (14%) and B (7%). The auto-HLA antibodies, when unmasked in vivo, may perform immunoregulatory functions similar to those of therapeutic preparations of IVIg.

Issues in solid-organ transplantation in children: translational research from bench to bedside

In this review, we identify important challenges facing physicians responsible for renal and cardiac transplantation in children based on a review of the contemporary medical literature. Regarding pediatric renal transplantation, we discuss the challenge of antibody-mediated rejection, focusing on both acute and chronic antibody-mediated rejection. We review new diagnostic approaches to antibody-mediated rejection, such as panel-reactive antibodies, donor-specific cross-matching, antibody assays, risk assessment and diagnosis of antibody-mediated rejection, the pathology of antibody-mediated rejection, the issue of ABO incompatibility in renal transplantation, new therapies for antibody-mediated rejection, inhibiting of residual antibodies, the suppression or depletion of B-cells, genetic approaches to treating acute antibody-mediated rejection, and identifying future translational research directions in kidney transplantation in children. Regarding pediatric cardiac transplantation, we discuss the mechanisms of cardiac transplant rejection, including the role of endomyocardial biopsy in detecting graft rejection and the role of biomarkers in detecting cardiac graft rejection, including biomarkers of inflammation, cardiomyocyte injury, or stress. We review cardiac allograft vasculopathy. We also address the role of genetic analyses, including genome-wide association studies, gene expression profiling using entities such as AlloMap®, and adenosine triphosphate release as a measure of immune function using the Cylex® ImmuKnow™ cell function assay. Finally, we identify future translational research directions in heart transplantation in children.

Managing bronchiolitis obliterans syndrome (BOS) and chronic lung allograft dysfunction (CLAD) in children: what does the future hold?

The success of pediatric lung transplantation continues to be limited by long-term graft dysfunction. Historically this has been characterized as an obstructive spirometric defect in the form of the bronchiolitis obliterans syndrome (BOS). It is recognized, however, that this does not reflect many of the other acknowledged etiologies of chronic lung dysfunction-noting it is the sum of the parts that contribute to respiratory morbidity and mortality after transplant. The term chronic lung allograft dysfunction (CLAD) has been coined to reflect these other entities and, in particular, a group of relatively recently described lung disorders called the restrictive allograft syndrome (RAS). RAS is characterized by a restrictive spirometric defect. Although these entities have not yet been studied in a pediatric setting their association with poor compliance, antibody-mediated rejection (AMR), and post-infectious lung damage (particularly viral) warrants attention by pediatric lung transplant teams. Current therapy for the BOS subset of CLAD is otherwise limited to changing immunosuppressants and avoiding excessive infectious risk by avoiding over-immunosuppression. Long-term macrolide therapy in lung transplantation is not of proven efficacy. Reviewing previous BOS studies to explore restrictive spirometric cases and joint projects via groups like the International Pediatric Lung Transplant Collaborative will be the way forward to solve this pressing problem.

Autoantibodies targeting tumor-associated antigens in metastatic cancer: Sialylated IgGs as candidate anti-inflammatory antibodies

In addition to the well-established effector functions of IgGs, including direct cytotoxicity and antibody-dependent cellular cytotoxicity, some populations of IgGs may exert anti-inflammatory effects. Here, we describe a population of antibodies that form in the natural course of metastatic cancer and contain glycans that terminate with sialic acid. We demonstrate that both the titer of these antibodies and their level of sialylation are relatively stable throughout the progression of metastatic melanoma. The sialylation pattern of these antibodies somehow correlates with their specificity for tumor-associated antigens, as IgGs targeting several antigens associated with infectious agents are relatively poor of sialic acid. We also show that some antibodies targeting the melanoma-associated antigen NY-ESO-1 bind to the human C-type lectin CD209 (DC-SIGN). We propose that these antibodies are candidate anti-inflammatory antibodies. The presence of anti-inflammatory antibodies in cancer patients may explain, at least in part, why tumors persist and spread in the host despite strong tumor-specific humoral responses. The elucidation of the cellular and molecular pathways involved in the induction of anti-inflammatory antibodies specific for tumor-associated antigens and their function may yield important insights into how tumors evade immune detection and progress.

Proteasome inhibitor therapy for antibody-mediated rejection

AMR is being recognized with increasing efficiency, but continues to present a significant threat to renal allograft survival. Traditional therapies for AMR (IVIG, plasmapheresis, rituximab, and antilymphocyte preparations) in general have provided inconsistent results and do not deplete the source of antibody production, viz., the mature plasma cell. Recently, the first plasma cell-targeted therapy in humans has been developed using bortezomib (a first in class PI) for AMR treatment in kidney transplant recipients. Initial experience with bortezomib involved treatment of refractory AMR. Subsequently, the efficacy of bortezomib in primary therapy for AMR was demonstrated. In a multicenter collaborative effort, the initial results with bortezomib in AMR have been confirmed and expanded to pediatric and adult heart transplant recipients. More recently, results from a prospective, staged desensitization trial has shown that bortezomib alone can substantially reduce anti-HLA antibody levels. These results demonstrate the significant potential of proteasome inhibition in addressing humoral barriers. However, the major advantage of proteasome inhibition lies in the numerous potential strategies for achieving synergy.

The generation and maintenance of serum alloantibody

Donor-specific alloantibodies (DSA) mediate hyperacute and acute antibody-mediated rejection (AMR), which can lead to early graft damage and loss, and are also associated with chronic AMR and reduced long-term graft survival. Such alloantibodies can be generated by previous exposure to major histocompatibility (MHC) antigens (usually via blood transfusions, previous allografts or pregnancy) or can occur de novo after transplantation. Recent studies also suggest that non-MHC antibodies, including those recognising major histocompatibility complex class I-related chain A (MICA), MICB, vimentin, angiotensin II type I receptor may also have an adverse impact on allograft outcomes. In this review, we consider how the dose, route and context of antigen exposure influences DSA induction and describe factors which control the generation, maintenance and survival of alloantibody-producing plasma cells. Finally, we discuss the implications of these variables on therapeutic approaches to DSA.

In vitro effects of everolimus and intravenous immunoglobulin on cell proliferation and apoptosis induction in the mixed lymphocyte reaction

Targeting multiple pathways in the activation of alloimmune responses by multi-drug immunosuppressive regimens with complementary mechanisms of action enhances allograft survival and improves quality of life, owing to the reduction of adverse drug effects. In this report we investigated the effect of the combination of everolimus and intraveneous immunoglobulin (IVIG) on cell proliferation and apoptosis induction in human two-way mixed lymphocyte reaction (MLR). Everolimus alone (0.1-50 ng/ml) and IVIG (1-10 mg/ml) alone inhibited cell proliferation in a dose-dependent manner (16.4-67.2% and 12.1-66.3% inhibition, respectively). The inhibition by everolimus was not enhanced in the presence of 1 mg/ml IVIG. Addition of 10 and 50 ng/ml everolimus increased the inhibitory effect of 5 and 10 mg/ml IVIG, but only by 10-27%. Addition of 0.1 and 1 ng/ml everolimus did not increase IVIG's inhibitory effects. Apoptosis was significantly higher in IVIG (5 mg/ml)-treated CD19+ cells and less so in CD3+ cells as assessed by Annexin V and TUNEL assays. However, everolimus (0.1-50 ng/ml) did not induced apoptosis or alter apoptosis induced by IVIG. These results suggest that everolimus is a potent inhibitor of immune cell proliferation but does not act additively or synergistically with IVIG when analyzed in this in vitro system.

The use of immunoglobulin therapy for patients undergoing solid organ transplantation: an evidence-based practice guideline

This guideline for the use of immunoglobulin (IG) for sensitized patients undergoing solid organ transplantation (SOT) is an initiative of the Canadian Blood Services and the National Advisory Committee on Blood and Blood Products of Canada to (1) provide guidance for Canadian practitioners involved in the care of patients undergoing SOT and transfusion medicine specialists on the use of IG and (2) standardize care, limit adverse events, and optimize patient care. A systematic expert and bibliography literature search up to July 2008 was conducted, with 791 literature citations and 45 reports reviewed. To validate the recommendations, the guideline was sent to physicians involved in SOT in Canada and a patient representative. The recommendations identify (1) sensitized patients undergoing SOT that would have a better survival and decreased morbidity by receiving IG preoperatively, postoperatively, and for the treatment of organ rejection; (2) patients who may not have any benefit from receiving IG; and (3) potential adversities to IG.

The spectrum of antibody-mediated renal allograft injury: implications for treatment

Improvements in anti-HLA antibody detection and diagnostic criteria have increased recognition of antibody-mediated rejection (AMR) following renal transplantation. Therapy of acute AMR is directed toward rapidly lowering circulating donor-specific antibody (DSA) activity. Despite reversal of acute renal dysfunction, however, antibody-secreting plasma cells in spleen and bone marrow are not depleted by treatment and circulating DSA commonly remains detectable in peripheral blood. Sequential ultrastructural studies of renal allografts during acute AMR show progression of microvascular endothelial abnormalities from necrosis and apoptosis to glomerular and peritubular capillary basement membrane duplication, termed transplant glomerulopathy (TG), a manifestation of chronic AMR. Additionally, long-term exposure to anti-HLA antibodies (particularly against class II antigens) is associated with shortened allograft survival and TG even in the absence of documented acute AMR. The association of TG with prior acute AMR and with circulating DSA provides evidence that antibody-mediated allograft injury exists as a spectrum of renal injury. Although effective therapy is available for acute AMR, allografts remain at risk for chronic AMR and shortened survival. The optimum approach to treatment for chronic AMR remains to be determined.

The immunology of composite tissue transplantation

Composite tissue allotransplantation holds great potential for reconstructive surgery. That these procedures can be successful has been clearly demonstrated by the success of hand, face, and larynx transplants around the world. Although the immunology of composite tissue allotransplantation mirrors that of any allogeneic organ transplant, there are several unique aspects to these grafts. This article reviews the immunology of transplantation, histocompatibility testing for composite tissue allotransplantation, graft rejection, immunosuppression, and specific immunologic considerations of composite tissue allotransplantation.

Antibody-Mediated Rejection

The introduction of both complement 4d (C4d) staining in renal allograft biopsies and sensitive methods to detect anti-human leukocyte antigen antibodies, such as single antigen bead flow assays, into tissue-typing techniques have shown the importance of antibody-mediated alloimmune response in kidney transplantation. The use of these sensitive methods, combined with the increased number of transplants in highly sensitized patients with donor-specific antibodies, or patients receiving desensitization protocols, have increased the awareness and thus the incidence of acute antibody-mediated rejection. Chronic rejection also can be mediated through alloantibodies, and the term chronic antibody-mediated rejection recently was proposed. In this review article we summarize the current knowledge of the role of alloantibodies in transplantation, the diagnosis and treatment of acute and chronic antibody-mediated rejection, and their effect on graft function and outcome.

Antibody therapy (IVIG): evaluation of the use of genomics and proteomics for the study of immunomodulation therapeutics

BACKGROUND AND OBJECTIVES

Intravenous immunoglobulin (IVIG) is used for an increasingly diverse number of therapeutic applications as an immunomodulation drug. Although it has demonstrated therapeutic effectiveness, the mechanism of action of IVIG in these disorders is poorly understood; this lack of understanding complicates rational clinical application and reimbursement for 'off-label' use.

MATERIALS AND METHODS

Selected literature on the clinical use of IVIG as an immunomodulation drug is reviewed. We present a brief description of DNA microarray and protein microarray technology and the application of such technologies to the study of immune system cells. The several studies on the application of DNA microarray technology to study gene expression in response to IVIG are presented.

RESULTS

There is increasing data on the use of DNA microarray and protein microarray technology to study gene expression in immune system cells including T cells, B cells, macrophages, and leucocytes. There is less information on the effect of IVIG on gene expression in immune system cells. However, there is sufficient information available to suggest that this is a practical approach with the caveat that such work will require careful experimental design and clear definition of the normal population.

CONCLUSIONS

DNA and protein microarray assays can be used to (i) provide rational indications for the clinical use of IVIG, (ii) provide for specific analysis of raw material and end product IVIG in screening for content related to immunomodulation, and (iii) accelerate the development of next generation products which would be more focused and/or targeted therapeutics.

B-cell activity of polyclonal antithymocyte globulins

Polyclonal antithymocyte globulins (AThG) are a subset of antilymphocyte antibody preparations derived from the sera of rabbits or horses immunized with unfractionated cells isolated from pediatric human thymi. In vivo, AThG preparations have been used to successfully treat antibody mediated rejection in kidney transplant recipients. In vitro, AThG can induce apoptosis of naïve and memory B cells and terminally differentiated plasma cells. The presence of B-cell reactive antibodies in AThG results from a thymic inoculum containing a significant percentage of CD20(+) B cells and CD138(+) plasma cells. In this paper, the experimental and clinical evidence supporting the B-cell activity of AThG preparations, and their mechanisms of action, are reviewed.

The classification and treatment of antibody-mediated renal allograft injury: Where do we stand?

Since the acceptance of the detection of C4d in allografts as a reliable tool to mark a humoral alloresponse, de novo antibody-induced graft injury has attracted much attention. Antibodies and B cells are the new frontier in transplantation. At this juncture carefully designed studies are critical in order to gain solid diagnostic, therapeutic, and prognostic knowledge about the role of antibodies in graft injury and to avoid any confusion and misconception. One prerequisite is the strict adherence to refined classification systems of renal transplant rejection that carefully split and categorize different phenotypes of humoral mediated graft damage and ideally also include information on anti-donor antibody specificity and titers. Sun and colleagues follow this concept and provide evidence that mixed cellular and antibody-mediated graft rejection can respond favorably to intensified immunosuppression with tacrolimus and mycophenolate mofetil. What will the future bring to treat rejection episodes with a dominant, co-dominant, or minor antibody response?

B cells: a rational target in alloantibody-mediated solid organ transplantation rejection

Loss of allografts over time remains a barrier to achieving successful outcomes in solid organ transplantation. Although the role of donor-specific alloantibody-mediated mechanisms in hyperacute rejection is well known, research and management of early and late post-transplant rejection have traditionally focused on T cell-mediated mechanisms. However, available agents that affect T-cell pathways have minimal impact on long-term graft survival, suggesting that other effector mechanisms are involved. A growing body of evidence now supports a role for alloantibody-mediated mechanisms in early and late graft rejection, which can significantly impact on long-term graft survival. The important role of B cells in generating and perpetuating alloantibody production provides a rationale for B-cell depletion therapy as an approach to prevent or reduce alloantibody formation before transplantation and to treat or prevent early and late alloantibody-mediated rejection. The use of monoclonal antibodies that directly target B cells, in combination with standard alloantibody-depleting therapies and/or immunosuppression, has been investigated in several small non-controlled studies. Promising results suggest that this strategy warrants further investigation in larger controlled studies.

Anti-HLA alloantibodies in pediatric solid organ transplantation

An increasing number of studies demonstrate the clinical impact of preformed and de novo anti-human leucocyte antigen alloantibody (HLA-Ab) in solid organ transplantation (Tx). The screening of HLA-Ab in candidates and transplant recipients has evolved over time, with continuous improvement in the sensitivity and specificity of assays for HLA-Ab detection. Furthermore, histologic markers of complement activation pathways are currently implemented in the diagnosis of antibody-mediated rejection (AMR). Therapeutic strategies, including depletion of HLA-Ab and B cells, have allowed Tx across antibody barriers, or have rescued patients with AMR. The purpose of the present review is to summarize the state-of-the-art of HLA-Ab detection, clinical significance and therapeutic strategies in pediatric solid organ Tx.

C4d as a significant predictor for humoral rejection in renal allografts

OBJECTIVE

To determine the diagnostic and clinical significance of C4d accumulation in renal allografts followed by acute rejection.

METHODS

A total of 158 graft biopsies performed from December 1997 to December 2002 were classified, according to the Banff-97 criteria, into hyperacute rejection (HAR, three cases), acute vascular rejection (AVR, 27), acute cellular rejection (ACR, 24), borderline rejection (BR, 38), acute tubular necrosis (ATN, five), stable graft function (SGF, 30) and baseline kidney (31). Immunohistochemical technique was used to determine the C4d deposition level.

RESULTS

The percentages of C4d positive in HAR, AVR, ACR, BR, ATN, SGF and baseline kidney groups were 100% (3/3), 77.8% (21/27), 37.5% (9/24), 23.7% (9/38), 0% (0/5), 3.3% (1/30), 0% (0/31), respectively. In acute rejection patients, the peak serum creatinine (sCr) level in C4d(ptc)-positive group (41 cases) was 334.82 +/- 238.37 micromol/L, with that of C4d(ptc)-negative group (47 cases) being 220.20 +/- 176.94 micromol/L (p < 0.01). After treatment, the trough sCr level in C4d(ptc)-positive group and C4d(ptc)-negative group were 176.87 +/- 111.80 and 121.75 +/- 34.59 micromol/L (p < 0.01), respectively. In each AVR, ACR and BR subgroups, the peak sCr level, the trough sCr level, after 3 or 6 months of AR, the sCr level in C4d(ptc)-positive subgroup was higher than that of C4d(ptc)-negative subgroup. There were more resistance against steroid therapy [65.9% (27/41) vs. 36.2% (17/47), p = 0.005] and a higher rate of graft loss [29.3% (12/41) vs. 6.4% (3/47), p = 0.001] in C4d(ptc)-positive group than those of C4d(ptc)-negative group. In each C4d(ptc)-positive subgroup of AVR, ACR and BR the complete reversion was 57.1, 56 and 66.7%, respectively, it is almost same.

CONCLUSION

The C4d deposition level is of great value in diagnosis of acute rejection caused by humoral immune components. It is a significant predictor of graft survival and will be of great help when treating acute rejection.

Overcoming Immunologic Incompatibility: Transplanting the Difficult to Transplant Patient

Immunologic incompatibilities between donor and recipient have limited the access to renal transplantation for many patients. Previously the presence of donor-specific alloantibodies directed against donor major histocompatibility complex (MHC) antigens or natural antibodies directed against donor ABO blood group antigens was considered an absolute contraindication to renal transplantation. However, with the current understanding of humoral immune responses, superior immunosuppressive agents, and improved diagnosis and treatment of antibody-mediated rejection, renal transplantation can be safely performed with outstanding results despite the presence of donor-specific antibody. In this review we discuss the biology of antibody-mediated rejection and sensitization. We discuss the diagnostic tests necessary to characterize the type, affinity, and avidity of the donor-directed antibodies. Current methods for performing renal transplants across ABO and human leukocyte antigen (HLA)-sensitized barriers are covered, including the potential morbidities. The rest of the review focuses on advances in managing these antibodies to increase the likelihood of receiving a deceased donor kidney or allow transplantation from a living donor against whom one has a prohibitive antibody.

Extending options for highly sensitized patients to receive a suitable kidney graft

Highly sensitized patients (anti-HLA) on the kidney waiting list wait longer for a suitable crossmatch negative organ. At the moment there are two strategies to enhance transplantation of these patients. One approach is the determination of acceptable HLA mismatches and application of this knowledge for the selection of crossmatch negative donors, and the second is the desensitization of patients with intravenous immunoglobulin-based protocols to enable transplantation of an organ from a donor towards which antibodies were originally present. Both approaches have advantages and disadvantages and are only successful in a proportion of the patients. The optimal solution is an integrated strategy whereby desensitization is used for those patients for whom the acceptable mismatch approach is not successful.