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Open Access 01-12-2019 | Aplastic Anemia | Research

Who is the best haploidentical donor for acquired severe aplastic anemia? Experience from a multicenter study

Authors: Lan-Ping Xu, Shun-Qing Wang, Yan-Ru Ma, Su-Jun Gao, Yi-Fei Cheng, Yuan-Yuan Zhang, Wen-Jian Mo, Xiao-Dong Mo, Yu-Ping Zhang, Chen-Hua Yan, Yu-Hong Chen, Ming Zhou, Yu Wang, Xiao-Hui Zhang, Kai-Yan Liu, Xiao-Jun Huang

Published in: Journal of Hematology & Oncology | Issue 1/2019

Abstract

Background

Haploidentical transplantation has been proposed as an effective treatment for severe aplastic anemia (SAA). The majority of patients have more than one HLA-haploidentical donor. Herein, we compared the outcomes between different donor-recipient relationships for optimal haploidentical donor selection in acquired SAA.

Methods

We conducted a multicenter study based on a registered database of 392 patients with SAA treated with allogeneic hematopoietic stem cell transplantation (allo-HSCT) between 2006 and 2018. In total, 223 patients received grafts from father donors, 47 from mother donors, 91 from siblings, 29 from children, and 2 from collateral donors.

Results

Of the 381 patients who survived more than 28 days, 379 (99.5%) recipients were engrafted. The 2-year overall survival (OS) was 86.6 ± 2.5%, 87.1 ± 4.9%, 84.3 ± 3.9%, and 92.2 ± 5.1% for recipients of father, mother, sibling, and child grafts, respectively, (P = 0.706). The 2-year failure-free survival (FFS) was 82.8 ± 2.7%, 86.7 ± 5.1%, 80.8 ± 4.2%, and 92.5 ± 5.1% for recipients of father, mother, sibling, and child grafts, respectively, (P = 0.508). There was no difference in the incidence of either acute or chronic graft-versus-host disease (GVHD) among the different donor sources in multivariate analyses. There were also no differences in the OS or FFS among the different donor sources in the Cox regression analysis. However, OS was significantly better in the patients with a shorter history of aplastic anemia (< 12 months), better performance status (ECOG scores 0–1), or moderate graft mononuclear cell (MNC) counts (6–10 × 10⁸/kg), and in female recipients with male donors. The FFS was also higher in patients with a shorter history of aplastic anemia (< 12 months) and better performance status (ECOG scores 0–1).

Conclusions

Fathers, mothers, siblings, and children are all suitable haploidentical donors for patients with SAA.

Bacigalupo A. How I treat acquired aplastic anemia. Blood. 2017;129:1428–36.CrossRef

Killick SB, Bown N, Cavenagh J, Dokal I, Foukaneli T, Hill A, et al. Guidelines for the diagnosis and management of adult aplastic anaemia. Br J Haematol. 2016;172:187–207.CrossRef

Clay J, Kulasekararaj AG, Potter V, Grimaldi F, McLornan D, Raj K, et al. Nonmyeloablative peripheral blood haploidentical stem cell transplantation for refractory severe aplastic anemia. Biol Blood Marrow Transpl. 2014;20:1711–6.CrossRef

Dezern AE, Luznik L, Fuchs EJ, Jones RJ, Brodsky RA. Post-transplantation cyclophosphamide for GVHD prophylaxis in severe aplastic anemia. Bone Marrow Transpl. 2011;46:1012–3.CrossRef

Esteves I, Bonfim C, Pasquini R, Funke V, Pereira NF, Rocha V, et al. Haploidentical BMT and post-transplant Cy for severe aplastic anemia: a multicenter retrospective study. Bone Marrow Transpl. 2015;50:685–9.CrossRef

Gao L, Li Y, Zhang Y, Chen X, Gao L, Zhang C, et al. Long-term outcome of HLA-haploidentical hematopoietic SCT without in vitro T-cell depletion for adult severe aplastic anemia after modified conditioning and supportive therapy. Bone Marrow Transpl. 2014;49:519–24.CrossRef

Passweg JR, Perez WS, Eapen M, Camitta BM, Gluckman E, Hinterberger W, et al. Bone marrow transplants from mismatched related and unrelated donors for severe aplastic anemia. Bone Marrow Transpl. 2006;37:641–9.CrossRef

Xu LP, Jin S, Wang SQ, Xia LH, Bai H, Gao SJ, et al. Upfront haploidentical transplant for acquired severe aplastic anemia: registry-based comparison with matched related transplant. J Hematol Oncol. 2017;10:25.CrossRef

Xu LP, Wang SQ, Wu DP, Wang JM, Gao SJ, Jiang M, et al. Haplo-identical transplantation for acquired severe aplastic anaemia in a multicentre prospective study. Br J Haematol. 2016;175:265–74.CrossRef

10.

Xu LP, Xu ZL, Wang FR, Mo XD, Han TT, Han W, et al. Unmanipulated haploidentical transplantation conditioning with busulfan, cyclophosphamide and anti-thymoglobulin for adult severe aplastic anaemia. Bone Marrow Transpl. 2018;53:188–92.CrossRef

11.

Wang Y, Chang YJ, Xu LP, Liu KY, Liu DH, Zhang XH, et al. Who is the best donor for a related HLA haplotype-mismatched transplant? Blood. 2014;124:843–50.CrossRef

12.

Ciurea SO, Champlin RE. Donor selection in T cell-replete haploidentical hematopoietic stem cell transplantation: knowns, unknowns, and controversies. Biol Blood Marrow Transpl. 2013;19:180–4.CrossRef

13.

Kasamon YL, Luznik L, Leffell MS, Kowalski J, Tsai HL, Bolanos-Meade J, et al. Nonmyeloablative HLA-haploidentical bone marrow transplantation with high-dose posttransplantation cyclophosphamide: effect of HLA disparity on outcome. Biol Blood Marrow Transpl. 2010;16:482–9.CrossRef

14.

Kojima S, Matsuyama T, Kato S, Kigasawa H, Kobayashi R, Kikuta A, et al. Outcome of 154 patients with severe aplastic anemia who received transplants from unrelated donors: the Japan Marrow Donor Program. Blood. 2002;100:799–803.CrossRef

15.

Stern M, Passweg JR, Locasciulli A, Socie G, Schrezenmeier H, Bekassy AN, et al. Influence of donor/recipient sex matching on outcome of allogeneic hematopoietic stem cell transplantation for aplastic anemia. Transplantation. 2006;82:218–26.CrossRef

16.

Arai Y, Kondo T, Yamazaki H, Takenaka K, Sugita J, Kobayashi T, et al. Allogeneic unrelated bone marrow transplantation from older donors results in worse prognosis in recipients with aplastic anemia. Haematologica. 2016;101:644–52.CrossRef

17.

Huo M-R, Xu L-P, Li D, Liu D-H, Liu K-Y, Chen H, et al. The effect of HLA disparity on clinical outcome after HLA-haploidentical blood and marrow transplantation. Clin Transplant. 2012;26:284–91.CrossRef

18.

Lu D-P, Dong L, Wu T, Huang X-J, Zhang M-J, Han W, et al. Conditioning including antithymocyte globulin followed by unmanipulated HLA-mismatched/haploidentical blood and marrow transplantation can achieve comparable outcomes with HLA-identical sibling transplantation. Blood. 2006;107:3065–73.CrossRef

19.

Xiao-Jun H, Lan-Ping X, Kai-Yan L, Dai-Hong L, Huan C, Wei H, et al. HLA-mismatched/haploidentical hematopoietic stem cell transplantation without in vitro T cell depletion for chronic myeloid leukemia: improved outcomes in patients in accelerated phase and blast crisis phase. Ann Med. 2008;40:444–55.CrossRef

20.

Ozdemir ZN, Civriz Bozdag S. Graft failure after allogeneic hematopoietic stem cell transplantation. Transfus Apher Sci. 2018;57:163–7.CrossRef

21.

Yagasaki H, Takahashi Y, Hama A, Kudo K, Nishio N, Muramatsu H, et al. Comparison of matched-sibling donor BMT and unrelated donor BMT in children and adolescent with acquired severe aplastic anemia. Bone Marrow Transpl. 2010;45:1508–13.CrossRef

22.

Choi YB, Yi ES, Lee JW, Sung KW, Koo HH, Yoo KH. Immunosuppressive therapy versus alternative donor hematopoietic stem cell transplantation for children with severe aplastic anemia who lack an HLA-matched familial donor. Bone Marrow Transpl. 2017;52:47–52.CrossRef

23.

Holtan SG, DeFor TE, Lazaryan A, Bejanyan N, Arora M, Brunstein CG, et al. Composite end point of graft-versus-host disease-free, relapse-free survival after allogeneic hematopoietic cell transplantation. Blood. 2015;125:1333–8.CrossRef

24.

Przepiorka D, Weisdorf D, Martin P, Klingemann HG, Beatty P, Hows J, et al. 1994 Consensus Conference on Acute GVHD Grading. Bone Marrow Transpl. 1995;15:825–8.

25.

Sullivan KM, Shulman HM, Storb R, Weiden PL, Witherspoon RP, McDonald GB, et al. Chronic graft-versus-host disease in 52 patients: adverse natural course and successful treatment with combination immunosuppression. Blood. 1981;57:267–76.PubMed

26.

Luznik L, O’Donnell PV, Fuchs EJ. Post-transplantation cyclophosphamide for tolerance induction in HLA-haploidentical bone marrow transplantation. Semin Oncol. 2012;39:683–93.CrossRef

27.

Mayumi H, Umesue M, Nomoto K. Cyclophosphamide-induced immunological tolerance: an overview. Immunobiology. 1996;195:129–39.CrossRef

28.

Iwasaki T. Recent advances in the treatment of graft-versus-host disease. Clin Med Res. 2004;2:243–52.CrossRef

29.

Xu LP, Liu KY, Liu DH, Han W, Chen H, Chen YH, et al. A novel protocol for haploidentical hematopoietic SCT without in vitro T-cell depletion in the treatment of severe acquired aplastic anemia. Bone Marrow Transpl. 2012;47:1507–12.CrossRef

30.

Chang YJ, Xu LP, Wang Y, Zhang XH, Chen H, Chen YH, et al. Controlled, randomized, open-label trial of risk-stratified corticosteroid prevention of acute graft-versus-host disease after haploidentical transplantation. J Clin Oncol. 2016;34:1855–63.CrossRef

31.

Ludajic K, Balavarca Y, Bickeboller H, Rosenmayr A, Fischer GF, Fae I, et al. Minor ABO-mismatches are risk factors for acute graft-versus-host disease in hematopoietic stem cell transplant patients. Biol Blood Marrow Transpl. 2009;15:1400–6.CrossRef

32.

Ozkurt ZN, Yegin ZA, Yenicesu I, Aki SZ, Yagci M, Sucak GT. Impact of ABO-incompatible donor on early and late outcome of hematopoietic stem cell transplantation. Transpl Proc. 2009;41:3851–8.CrossRef

33.

Kimura F, Sato K, Kobayashi S, Ikeda T, Sao H, Okamoto S, et al. Impact of AB0-blood group incompatibility on the outcome of recipients of bone marrow transplants from unrelated donors in the Japan Marrow Donor Program. Haematologica. 2008;93:1686–93.CrossRef

34.

Damodar S, Shanley R, MacMillan M, Ustun C, Weisdorf D. Donor-to-recipient ABO mismatch does not impact outcomes of allogeneic hematopoietic cell transplantation regardless of graft source. Biol Blood Marrow Transpl. 2017;23:795–804.CrossRef

35.

Canals C, Muniz-Diaz E, Martinez C, Martino R, Moreno I, Ramos A, et al. Impact of ABO incompatibility on allogeneic peripheral blood progenitor cell transplantation after reduced intensity conditioning. Transfusion (Paris). 2004;44:1603–11.CrossRef

36.

Canaani J, Savani BN, Labopin M, Michallet M, Craddock C, Socie G, et al. ABO incompatibility in mismatched unrelated donor allogeneic hematopoietic cell transplantation for acute myeloid leukemia: a report from the acute leukemia working party of the EBMT. Am J Hematol. 2017;92:789–96.CrossRef

37.

Cao L-Q, Liu L, Xu L-P, Zhang X-H, Wang Y, Fan Q-Z, et al. Correlation between pediatric donor characteristics and cell compositions in mixture allografts of combined G-CSF-mobilized PBSCs and bone marrow allografts. Bone Marrow Transplant. 2018;53:108–10.CrossRef

38.

Wang Y-T, Zhao X-Y, Zhao X-S, Xu L-P, Zhang X-H, Wang Y, et al. The impact of donor characteristics on the immune cell composition of mixture allografts of granulocyte-colony-stimulating factor-mobilized marrow harvests and peripheral blood harvests. Transfusion (Paris). 2015;55:2874–81.CrossRef

39.

Vasu S, Leitman SF, Tisdale JF, Hsieh MM, Childs RW, Barrett AJ, et al. Donor demographic and laboratory predictors of allogeneic peripheral blood stem cell mobilization in an ethnically diverse population. Blood. 2008;112:2092–100.CrossRef

40.

Chen J, Burns KM, Babic A, Carrum G, Kennedy M, Segura FJ, et al. Donor body mass index is an important factor that affects peripheral blood progenitor cell yield in healthy donors after mobilization with granulocyte-colony-stimulating factor. Transfusion (Paris). 2014;54:203–10.CrossRef

41.

Kim HT, Zhang MJ, Woolfrey AE, St Martin A, Chen J, Saber W, et al. Donor and recipient sex in allogeneic stem cell transplantation: what really matters. Haematologica. 2016;101:1260–6.CrossRef

42.

Randolph SS, Gooley TA, Warren EH, Appelbaum FR, Riddell SR. Female donors contribute to a selective graft-versus-leukemia effect in male recipients of HLA-matched, related hematopoietic stem cell transplants. Blood. 2004;103:347–52.CrossRef

Title: Who is the best haploidentical donor for acquired severe aplastic anemia? Experience from a multicenter study
Authors: Lan-Ping Xu
Shun-Qing Wang
Yan-Ru Ma
Su-Jun Gao
Yi-Fei Cheng
Yuan-Yuan Zhang
Wen-Jian Mo
Xiao-Dong Mo
Yu-Ping Zhang
Chen-Hua Yan
Yu-Hong Chen
Ming Zhou
Yu Wang
Xiao-Hui Zhang
Kai-Yan Liu
Xiao-Jun Huang
Publication date: 01-12-2019
Publisher: BioMed Central
Keywords: Aplastic Anemia
Graft-Versus-Host Disease
Graft-Versus-Host Disease
Published in: Journal of Hematology & Oncology / Issue 1/2019
Electronic ISSN: 1756-8722
DOI: https://doi.org/10.1186/s13045-019-0775-9

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