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Case report

Rituximab is highly effective for pure red cell aplasia and post-transplant lymphoproliferative disorder after unrelated hematopoietic stem cell transplantation

Anna Kopińska
,
Grzegorz Helbig
,
Andrzej Frankiewicz
,
Iwona Grygoruk-Wiśniowska
,
Sławomira Kyrcz-Krzemień

Wspolczesna Onkol 2012; 16 (3): 215–217
Online publish date: 2012/07/06
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- Rituximab.pdf  [0.06 MB]
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Introduction

Post-transplant lymphoproliferative disorder (PTLD) includes lymphoid proliferation that is the consequence of immunosuppression in a recipient of

a solid organ or stem cell allograft. The pathologic spectrum of PTLD is heterogeneous, ranging from Epstein-Barr virus (EBV)-driven infectious mo­no­­nucleosis-type to EBV-negative proliferations resembling B or less frequently T-cell lymphomas [1]. Currently, rituximab, an anti-CD20 monoclonal antibody, remains a first line therapeutic option for patients with PTLD

following AlloHSCT. Additionally, when it is possible, rapid reduction of im­mu­nosuppression should be strongly advised [2].

Pure red cell aplasia after ABO-mismatched AlloHSCT is associated with recipient’s anti-A or anti-B isohemagglutinin directed against A or/and B antigens on donor erythroid precursor cells. PRCA occurs in about 20% of patients transplanted with ABO blood group incompatibility [3]. PRCA may resolve spontaneously, but it usually requires several weeks or months and multiple red blood cell (RBC) transfusion are associated with iron overload with subsequent organ damage [4].

Herein we present a male patient who developed PRCA and PTLD after AlloHSCT and rapidly responded to rituximab.

Case presentation

A 34-year male patient was diagnosed with myelodysplastic syndrome-refractory cytopenia with multilineage dysplasia (MDS-RCMD) in April 2010. He was treated with corticosteroids (CS) and erythropoietin (EPO), but this therapy failed. He remained transfusion dependent. A fully matched unrelated donor was found and the patient was scheduled for a transplant procedure. The conditioning regimen consisted of treosulfan, fludarabine and rabbit ATG (total doses: 81 000 mg, 250 mg and 1100 mg, respectively). GVHD prophylaxis consisted of ciclosporin and methotrexate. There was major and minor ABO blood group incompatibility between recipient (blood group A Rh-positive) and donor (blood group B Rh-positive). Anti-B isohemagglutinin titers before transplant were 1 : 128 (IgM) and 1 : 64 (IgG). No pre-transplant procedures regarding ABO blood incompatibility were performed. Serological examination revealed past infections with CMV and EBV in donor and recipient. The source of stem cells was peripheral blood and the total number of transplanted nuclear cells was 4.11 × 108/kg including 6.46 × 106/kg CD34+ cells and

12.1 × 107/kg CD3+ cells. Complete neutrophil and platelet engraftments were demonstrated on day +16, but moderate anemia was still present. Reticulocyte count was below the lower limit. Marrow assessment performed on day + 30 after AlloHSCT showed normal myeloid and megakaryocytic cells, but the number of erythroid precursors was markedly decreased. There was complete donor chimerism by STR (short tandem repeats). No symptoms of GVHD were noted. The patient remained transfusion dependent. Two weeks later he was admitted to our department due to a fever and general weakness. On physical examination progressive cervical enlargement of lymph nodes was observed. Wide spectrum antibiotics were introduced with no effect. Cytomegalovirus (CMV) and parvovirus B19 were excluded whereas PCR test revealed 19 200 copies/l of EBV. Anemia was still present. Anti-B isohemagglutinin titers after transplant were 1 : 64 (IgM) and 1 : 32 (IgG). As EBV-driven PTLD was suspected, the immunosuppression was promptly stopped. Histological examination of the lymph node was not done due to bad patient’s condition overall, but flow cytometry of a peripheral blood specimen detected a monoclonal population of B cells expressing CD20. Despite RI, the progressive lympha­denopathy was still observed. Chest X-ray and abdominal ultrasonography were normal. Rituximab at weekly

doses of 375 mg/m2 was administered twice with good tolerance. Prompt resolution of clinical symptoms and significant regression of cervical lymphadenopathy were demonstrated. The patient was discharged from our hospital although anemia was still present. Two weeks later, a marked increase in reticulocyte count was noted with hemoglobin increase. The patient became transfusion independent. The anti-donor isohemagglutinin titers were undetectable and the donor’s blood group conversion was observed. Currently, 8 months later, the patient is alive with no features of PRCA and PTLD with full donor chimerism. EBV-DNAaemia is negative.

Discussion

EBV-PTLD has become a growing problem in allograft recipients due to the increasing number of transplantations. Most cases of PTLD develop in the first year after transplant or even later. The incidence of EBV-PTLD after AlloHSCT is above 1%, but it may significantly increase up to 20% in patients with well-known risk factors such as EBV seronegativity at the time of transplantation, T-cell depletion of donor grafts, HLA mismatch and use of ATG for prophylaxis of graft versus host disease [5]. The most frequent clinical manifestation of PTLD is fever and cervical lympha­denopathy. The diagnosis is usually based on histological findings and we can distinguish the following forms: early benign lesions, polymorphic and monomorphic PTLD and classical Hodgkin lymphoma PTLD [6]. According to the ECIL (European Conference on Infections in Leukemia) the diagnosis of EBV-associated PTLD was divided into: 1) proven EBV-PTLD (histological evidence of tissue infiltration by monoclonal lymphoid cells and detection of EBV gene products), 2) probable EBV-PTLD (usually marked lymphadenopathy with an increased number of EBV copies in blood but without an established diagnosis) and 3) EBV-DNAemia (the presence of EBV-DNA in the blood) [2].

Currently, the anti-CD20 monoclonal antibody rituximab remains the first line treatment in patients with PTLD after AlloHSCT [2]. A recently published review showed that rituximab was found to be effective in about 63% of patients when used in monotherapy or in combined treatment [7]. It should be mentioned that rituximab causes prolonged

B-cell depletion lasting up to 12 months and therefore its use may lead to severe infectious complications [8]. A summary of current management in PTLD was recently presented by Gil et al. [9].

PRCA after major ABO-incompatible transplant results from the presence of host-derived B lymphocytes which produce isohemagglutinins directed against erythroid cells of donor origin. Several risk factors of post-transplant PRCA development were defined and they included: 1) elevated post-transplant anti-donor isohemagglutinin titers, 2) reduced-intensity conditioning before transplant, 3) the presence of anti-A agglutinin, 4) ciclosporin for graft versus host disease (GVHD) prophylaxis, and 5) transplant from sibling donor

[3, 4, 10, 11]. The treatment of PRCA includes several therapeutic approaches. Plasmapheresis and immuno-adsorption remain the first-line therapeutic option in a majority of ABO-mismatched PRCA cases [12]. Rituximab was found to be effective in single patients although the mechanism of its efficacy remains unclear. It is postulated that opsonization of B-cells by antibody may be responsible for an early rapid phase of response. An additional mechanism is associated with the suppression of autoreactive B-cells producing autoantibodies and it allows the maintenance of remission [13, 14].

It is unlikely that the drop of agglutinin titers demonstrated after rituximab was responsible for PRCA recovery in our patient. They were relatively low, both before and after transplantation. Some authors share the view that the correlation between pre-transplant hemagglutinin titers and the occurrence of PRCA remains controversial [15].

To our best knowledge this is the first report on an adult patient who simultaneously developed PRCA and PTLD after AlloHSCT and promptly responded to rituximab. Zhu et al. [16] presented a case of a 5-year-old girl with chronic myeloid leukemia who developed PRCA and PTLD after

HLA-identical unrelated cord blood transplantation. The clinical symptoms of PTLD resolved after rituximab at four standard lymphoma doses with a subsequent decline in anti-donor agglutinin titers and PRCA recovery. Unfortunately, the patient died due to CMV pneumonitis two months later. Both presented cases demonstrated several risk factors of development of PTLD and PRCA in the transplant period.

Regarding these two reported patients we may conclude that: 1) early recognition of high EBV load after transplant with symptoms of PTLD may enable rapid treatment with anti-CD20 antibody, and 2) rituximab may offer rapid and complete recovery from overt PTLD and PRCA with some caution regarding infectious complications.

References

 1. Loren AW, Porter DL, Stadtmauer EA, Tsai DE. Post-transplant lymphoproliferative disorder. A review. Bone Marrow Transplant 2003; 31: 145-212.

 2. Styczyński J, Reusser P, Einsele H, et al. Management of HSV, VZV and EBV infections in patients with hematological malignancies and after SCT: guidelines from the Second European Conference on Infections in Leukemia. Bone Marrow Transplant 2009; 43: 757-70.

 3. Griffith LM, McCoy JP Jr, Bolan CD, et al. Persistence of recipient plasma cells and anti-donor isohaemagglutinins in patients with delayed donor erythropoiesis after major ABO incompatible non-myeloablative haematopoietic cell transplantation. Br J Haematol 2005; 128: 668-75.

 4. Gmür JP, Burger J, Schaffner A, Neftel K, Oelz O, Frey D, Metaxas M. Pure red cell aplasia of long duration complicating major ABO-incompatible bone marrow transplantation. Blood 1990; 75: 290-5.

 5. Curtis RE, Travis LB, Rowlings PA, et al. Risk of lymphoproliferative disorders after bone marrow transplantation: A multi-institutional study. Blood 1999; 94: 2208-16.

 6. Swerdlow AJ, Campo E, Harris NL, et al. WHO Classification of Tumours of Haematopoietic and Lymphoid Tissues 2008.

 7. Styczynski J, Einsele H, Gil L, Ljungman P. Outcome of treatment of Epstein-Barr virus-related post-transplant lymphoproliferative disorder in hematopoietic stem cell recipients: a comprehensive review of reported cases. Transpl Infect Dis 2009; 11: 801-92.

 8. Gea-Banacloche JC. Rituxiamb-associated infections. Semin Hematol 2010; 47: 187-98.

 9. Gil L, Styczyński J. Rituximab in treatment of post-transplant lymphoproliferative disease after allogeneic stem cell transplantation. Wspolczesna Onkol 2011; 15: 155-8.

10. Schetelig J, Breitschaft A, Kroger N, et al. Cooperative Transplantations Study Group. After major ABO-mismatched allogeneic hematopoietic progenitor cell transplantation, erythroid engraftment occurs later in patients with donor blood group A than donor blood group B. Transfusion 2005; 45: 779-87.

11. Worel N, Greinix HT, Schneider M, et al. Regeneration of erythropoiesis after related- and unrelated-donor BMT or peripheral blood HPC transplantation: a major ABO mismatch means problems. Transplantation, 2000; 40: 543-50.

12. Rabitsch W, Knöbl P, Greinix H, Prinz E, Kalhs P, Hörl WH, Derfler K. Removal of persisting isohaemagglutinins with Ig-Therasorb immunoadsorption after major ABO-incompatible non-myeloablative allogeneic haematopoietic stem cell transplantation. Bone Marrow Transplant 2003; 32: 1015-9.

13. Helbig G, Stella-Holowiecka B, Krawczyk-Kulis M, et al. Successful treatment of pure red cell aplasia with repeated, low doses of rituximab in two patients after ABO-incompatible allogeneic haematopoietic stem cell transplantation for acute myeloid leukaemia. Haematologica 2005; 90: 5-8.

14. Zecca M, De Stefano P, Nobili B, Locatelli F. Anti-CD20 monoclonal antibody for the treatment of severe, immune-mediated pure red cell aplasia and hemolytic anemia. Blood 2001; 97: 3995-7.

15. Bär BM, Van Dijk BA, Schattenberg A, de Man AJ, Kunst VA, de Witte T. Erythrocyte repopulation after major ABO incompatible transplantation with lymphocyte-depleted bone marrow. Bone Marrow Transplant 1995; 16: 793-9.

16. Zhu K, Chen J, Chen S. Treatment of Epstein-Barr Virus-associated lymphoproliferative disorder (EBV-PTLD) and pure red cell aplasia (PRCA) with Rituximab following unrelated cord blood transplantation: A case report and literature review. Hematology 2005; 10: 365-70.



Address for correspondence



Grzegorz Helbig MD, PhD

Department of Haematology and Bone Marrow Transplantation

Silesian Medical University

Dąbrowskiego 25

40-032 Katowice

fax +48 32 255 49 85

tel. +48 32 259 13 10

e-mail: ghelbig@o2.pl



Submitted: 8.08.2011

Accepted: 13.12.2011
Copyright: © 2012 Termedia Sp. z o. o. This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0) License (http://creativecommons.org/licenses/by-nc-sa/4.0/), allowing third parties to copy and redistribute the material in any medium or format and to remix, transform, and build upon the material, provided the original work is properly cited and states its license.
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