ASH evidence-based guidelines: is there a role for second allogeneic transplant after relapse?

Thakar, Monica S.; Forman, Stephen J.

doi:10.1182/asheducation-2009.1.414

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Acute Myeloid Leukemia| January 1, 2009

ASH evidence-based guidelines: is there a role for second allogeneic transplant after relapse?

Monica S. Thakar,

Monica S. Thakar 1

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Stephen J. Forman

Stephen J. Forman 2

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Hematology Am Soc Hematol Educ Program (2009) 2009 (1): 414–418.

https://doi.org/10.1182/asheducation-2009.1.414

Abstract

A 35-year-old male with a FLT3⁺ AML underwent allogeneic peripheral blood stem cell transplant using a myeloablative non-total body irradiation (TBI) conditioning regimen from his HLA-matched sibling donor. Following transplantation, he developed grade II acute graft-versus-host disease (GVHD) that resolved with increasing immunosuppression. The medications were subsequently discontinued, and he did not develop any evidence of chronic GVHD. Eighteen months after transplant, while off all immunosuppression, he developed fatigue and a blood count showed circulating blasts consistent with relapse of his disease. Among the various therapeutic questions is whether there is a role for a second allogeneic transplant to treat his disease and if so, at what time, with what conditioning, and with which type of donor.

Options to treat relapse after allogeneic transplantation include the choice of no further therapy, withdrawal of immunosuppression to elicit a therapeutic graft-versus-tumor (GVT) response, reinduction chemotherapy with the same or different agents, donor lymphocyte infusions with or without preceding chemotherapy, and second transplants with or without preceding chemotherapy. Clinical nuances, including the presence of antecedent GVHD, organ function, willingness of the donor (sibling or unrelated), time between transplant and relapse, and the specific characteristics of the leukemia contribute to the difficulty of the decision. As allogeneic transplant is performed with curative intent, the question is whether patients who relapse and then undergo second allogeneic transplant can be cured of their disease.

To examine the current evidence-based literature evaluating the efficacy of second allogeneic transplant after relapse, we performed a comprehensive literature review using Ovid Medicine from 1996 to the present time. The MESH terms “hematopoietic cell transplantation” (10,254 hits) and “relapse” (12,744 hits) were combined and yielded 498 hits. When combining “second hematopoietic cell transplantation” (854 hits) and “relapse” we had a more reasonable result of 34 articles. After narrowing these articles to those relevant to the question and excluding single case reports, in addition to adding relevant studies gleaned from the reference lists of these articles, 16 studies were chosen as the basis for this mini-review. These articles described a variety of malignant hematopoietic disorders, disease status at the time of second transplant, conditioning regimens, and donor sources. These items and selected outcomes of specific interest are listed in Table 1 of this review.

Despite the apparent heterogeneity of these studies, several principles have emerged that are relevant to the question. As a practical matter, most centers tended to use the same donor for both the first and second transplant. Most patients underwent reinduction treatment with chemotherapy in order to reduce the disease burden, knowing that the outcome for any transplant is improved if the patient is in remission. However, there are exceptions to this rule, as described by one study in this review where some patients transplanted with active disease remained alive and disease free after transplant.² In addition, although numerous different conditioning regimens were employed, typically patients who underwent a TBI-based regimen for initial transplant would undergo a non-TBI myeloablative regimen for their second transplant. Recently, with increased appreciation of the role of the graft-versus-leukemia effect in facilitating cure of leukemia, several studies reported patients who underwent transplant using a reduced-intensity transplant regimen with some favorable outcomes, almost exclusively in those patients who underwent transplant in remission. In this review, overall survival ranged anywhere between 0 and 67% for the studies described herein, although, admittedly, for some studies the follow-up is short.

In general, patients with chemo-sensitive disease in remission who had a long initial remission (> 6 to 12 months) after first transplant and who never developed any GVHD are those who benefited with long-term control of their disease after a second transplant. Conversely, those patients who had a short remission and who did not achieve a beneficial response with reinduction chemotherapy were unlikely to benefit and probably should not be considered for second allogeneic transplant. In those patients who undergo second transplant and had no significant chronic GVHD, an attempt is generally made to taper the immunosuppression more quickly in order to harness a therapeutic GVT effect in the post-transplant setting. Additionally, patients who had acute and chronic GVHD without a GVT effect during the first transplant are less likely to benefit from a second transplant from the same donor.

Based on this mini-review, we conclude a second allogeneic hematopoietic cell transplant does have an important potential role in treating relapse after failing allogeneic transplant in selected patients. Those patients who have an early relapse, high tumor burden, or chemo-resistant disease are not patients who should undergo second transplant, as the literature does not support the clinical benefit for these selected patients. Thus the decision to undergo a second transplant should be weighed against the associated co-morbidities that can contribute to transplant-related mortality, for which a reduced-intensity approach can certainly be considered, with earlier tapering of immunosuppression. With regard to the donor, under most circumstances the same donor is used, but if there is a different HLA-matched sibling or unrelated donor, this also could be considered, especially if there was no antecedent GVHD. As randomized-controlled trials are non-existent to answer the question of the role of second allogeneic transplant to treat relapse, multi-institutional observational studies were used in this mini-review to make these recommendations. Given that relapse after transplant can be a lethal situation and that select patients can remain alive and disease-free after second allogeneic transplant, we are giving our recommendations a score of 1B.¹⁷

Disclosures  Conflict-of-interest disclosures: SJF is employed by City of Hope; MST declares no competing financial interests.  Off-label drug use: None disclosed.

References

Chiang KY, Weisdorf DJ, Davies SM, et al. Outcome of second bone marrow transplantation following a uniform conditioning regimen as therapy for malignant relapse.

Bone Marrow Transplant

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Bosi A, Bacci S, Miniero R, et al. Second allogeneic bone marrow transplantation in acute leukemia: a multi-center study from the Gruppo Italiano Trapianto Di Midollo Osseo (GITMO).

Leukemia

1997

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Kishi K, Takahashi S, Gondo H, et al. Second allogeneic bone marrow transplantation for post-transplant leukemia relapse: results of a survey of 66 cases in 24 Japanese institutes.

Bone Marrow Transplant

1997

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461

–466.

Mehta J, Powles R, Treleaven J, et al. Outcome of acute leukemia relapsing after bone marrow transplantation: utility of second transplants and adoptive immunotherapy.

Bone Marrow Transplant

1997

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709

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Blau IW, Basara N, Bischoff M, et al. Second allogeneic hematopoietic stem cell transplantation as treatment for leukemia relapsing following a first transplant.

Bone Marrow Transplant

2000

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–45.

Michallet M, Tanguy ML, Socie G, et al. Second allogeneic haematopoietic stem cell transplantation in relapsed acute and chronic leukaemias for patients who underwent a first allogeneic bone marrow transplantation: a survey of the Societe Francaise de Greffe de moelle (SFGM).

Br J Haematol

2000

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108

400

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Bosi A, Laszlo D, Labopin M, et al. Second allogeneic bone marrow transplantation in acute leukemia: results of a survey by the European Cooperative Group for Blood and Marrow Transplantation.

J Clin Oncol

2001

;

3675

–3684.

Keil F, Prinz E, Kalhs P, et al. Treatment of leukemic relapse after allogeneic stem cell transplantation with cytotoreductive chemotherapy and/or immunotherapy or second transplants.

Leukemia

2001

;

355

–361.

Pawson R, Potter MN, Theocharous P, et al. Treatment of relapse after allogeneic bone marrow transplantation with reduced intensity conditioning (FLAG +/− Ida) and second allogeneic stem cell transplant.

Br J Haematol

2001

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115

622

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Tomonari A, Iseki T, Ooi J, et al. Second allogeneic hematopoietic stem cell transplantation for leukemia relapse after first allogeneic transplantation: outcome of 16 patients in a single institution.

Int J Hematol

2002

;

318

–323.

Meshinchi S, Leisenring WM, Carpenter PA, et al. Survival after second hematopoietic stem cell transplantation for recurrent pediatric acute myeloid leukemia.

Biol Blood Marrow Transplant

2003

;

706

–713.

Chang YH, Jou ST, Lin DT, Lu MY, Lin KH. Second allogeneic hematopoietic stem cell transplantation for juvenile myelomonocytic leukemia: case report and literature review [review].

J Pediatr Hematol Oncol

2004

;

190

–193.

Eapen M, Giralt SA, Horowitz MM, et al. Second transplant for acute and chronic leukemia relapsing after first HLA-identical sibling transplant.

Bone Marrow Transplant

2004

;

721

–727.

Duus JE, Stiff PJ, Choi J, Parthasarathy M, Rodriguez T, Toor AA. Second allografts for relapsed hematologic malignancies: feasibility of using a different donor.

Bone Marrow Transplant

2005

;

261

–264.

Pollyea DA, Artz AS, Stock W, et al. Outcomes of patients with AML and MDS who relapse or progress after reduced intensity allogeneic hematopoietic cell transplantation.

Bone Marrow Transplant

2007

;

1027

–1032.

Shaw BE, Mufti GJ, Mackinnon S, et al. Outcome of second allogeneic transplants using reduced-intensity conditioning following relapse of haematological malignancy after an initial allogeneic transplant.

Bone Marrow Transplant

2008

;

783

–789.

Guyatt GH, Cook DJ, Jaeschke R, Pauker SG, Schünemann HJ. Grades of recommendation for antithrombotic agents: American College of Chest Physicians Evidence-Based Clinical Practice Guidelines (8th Edition) [erratum appears in Chest. 2008 Aug;134(2):473].

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Author notes

Clinical Research Division, Fred Hutchinson Cancer Research Center, Seattle, WA

Department of Hematology/HCT, City of Hope National Medical Center, Duarte, CA

2009

Table 1.

Selected articles from 1996 onward using second allogeneic hematopoietic cell transplantation (HCT) to treat relapse.

Author	Diseases	Status at 2^nd HCT	2^nd HCT conditioning	2^nd HCT donor	Same donor used	NRM or TRM	DFS	OS	Comments
2CDA indicates cladribine; Alem, alemtuzumab; Ara-C, cytarabine; ATG, antithymocyte globulin; Auto, autograft; ALL, acute lymphoblastic leukemia; AML, acute myelogenous leukemia; ANLL, acute nonlymphocytic leukemia; ceGVHD, chronic extensive GVHD; CLL, chronic lymphocytic leukemia; CML, chronic myelogenous leukemia; Dauno, daunorubicin; FLAG, fludarbine/cytarabine/granulocyte colony stimulating factor; Flu, fludarabine; IBMTR, International Bone Marrow Transplant Registry; Ida, Idarubicin; IS, immunosuppression; JMML, juvenile myelomonocytic leukemia; MDS, myelodysplastic syndrome; Bu, busulfan; Cy, cyclophosphamide; Mel, melphalan; MMRD, HLA-mismatched related donor; MP, methylprednisolone, MPD; myeloproliferative disease; MRD, HLA-matched related donor; MM, multiple myeloma; NHL, non-Hodgkin lymphoma; NR, Not in remission; PR, partial response; RAEBt, refractory anemia with excess blasts in transformation; RIT, reduced-intensity transplant; thio, thiotepa; URD, HlA-matched unrelated donor; VP16, etoposide
Chiang 1996¹ n = 23	CML (11); acute leukemia (7); lymphoma (4); MDS (1)	Not stated	Bu/Cy (23)	MRD (18); MMURD (4); Auto (1)	13 (57%)	12 of 23	38% at 3 y	43% at 3 y	8 of 23 pts received autos for 1^st HCT.
Bosi 1997² n = 38	AML (21); ALL (17)	CR (24); Relapse (14)	TBI-based (14); non-TBI based (24)	MRD (38)	34 (89%)	11 of 38 (28% at 3 y)	42% at 3 y	Not stated	13 Italian BMT centers; Remission after 2^nd HCT longer than 1^st; AML did better.
Kishi 1997³ n = 66	ANLL (29); ALL (27); CML (6); MDS (4)	CR (30); NR (24)	Multiple high-dose regimens (Cy, TBI, Bu, Ara-C, VP16, Mel)	Sibs (59); syngeneic twin 3); other relatives (4)	55 (83%)	14 of 66 at 3 mo	28% 2 y; 15% at 4 y CR/NR: 38/23% 1 y; 34/23% 2 y; 30/0% 4 y	Not stated	Survey sent to 24 centers in Japan
Mehta 1997⁴ n = 23	Acute leukemias (23)	CR (7); PR (5); Untreated relapse (8); Refractory (3)	Mel ± TBI (6); Bu/Cy (1); Cy/TBI (16)	Unknown	22 (96%)	38.3% at 2 y	0 of 23	1 of 23	23 of 114 pts relapsed after primary HCT. 17 of 23 pts relapsed after 2^nd HCT.
Blau 2000⁵ n = 27	AML (17); ALL (6); CML (4)	CR (5); PR (7); Refractory relapse (7); Untreated relapse (8)	TBI/Cy(11); Bu/VP16 (8); Bu/Cy (6); Cy/MP/ATG (2)	MRD (11); URD (16)	11 (41%)	7 of 27 200 d	8 of 27 (7 pts had prior auto; 1 pt with prior allo)	29% (43% for pts with 1^st with auto)	16 of 27 pts received autos for 1^st HCT
Michallet 2000⁶ n = 150	AML (61); ALL (47); CML (42)	CR (60); Chemosensitive (8); Untreated relapse (27); Refractory relapse (13); CP (17); accelerated (13); blast (12)	TBI-based (25%); Non-TBI (75%)	Syngeneic twin (7); MRD (133); MMRD (3); Pheno-identical donor (2); URD (5)	83%	45±9%	30±8% at 5 y	32±8% at 5 y	Survey sent to 31 centers in France. Risk of relapse 44±12%
Bosi 2001⁷ n = 170	AML (85); ALL (83); AUL (2)	CR (81); Relapse (86); Primary refractory (3)	TBI-based (38); Non-TBI (130)	MRD (154); Syngeneic twin (7); MMRD (6); URD (3)	154 (91%)	68 of 170 (46% at 5 y)	25% at 5 y (20% if relapsed; 13% if refractory)	26% at 5 y (16% if relapse/refractory)	Retrospective review of 56 European centers; Relapse rate 59% at 5 y
Keil 2001⁸ n = 5	AML (4); ALL (1)	CR (1); Untreated relapse (3); Refractory relapse (1)	Not stated	Not stated	Not stated	5 of 5	3 of 5 with initial CR	0%	5 of 47 pts were given 2^nd HCT. The remaining 42 underwent other therapies (DLI, chemo, withdrawal IS)
Pawson 2001⁹ n = 14	AML (7) ALL (5) RAEBt(2)	CR (3); Relapse (11)	FLAG ±Ida	MRD (13); 1 ant MM sib (1)	14 (100%)	0 of 14	26% at 58 mo	60% at 58 mo	10 of 14 pts relapsed (4 despite ceGVHD)
Tomonari 2002¹⁰ n = 16	AML (7) ALL (8) CML (1)	CR (7); Relapse (7); Aplasia (2)	Dauno (1), Bu/Cy±VP16 (7); TBI/Ara-C (4); TBI/VP16 (2); Cy/VP16 (1); none (1)	MRD (13); MM sib (2); URD (1)	14 (88%)	4 of 16 100 d	5 of 16	44% 1 y 31% 4 y (14% OS 4 y if in relapse at 2^nd HCT)	3 pts received DLI after 2^nd HCT
Meshinchi 2003¹¹ n = 25	AML (25)	CR (10) Relapse (15)	Cy/TBI ± ATG	MRD (12), MMR (9), URD (4)	Not stated	5 of 25	44% 10 y (70% if in remission; 27% if in relapse)	88% 100 d 56% 1 yr 48% 10 y	11 of 25 pts received autos for 1^st HCT
Chang 2004¹² n = 5	JMML (5)	Relapse (5)	TBI-based (3); non-TBI (1); unknown (1)	MRD (3); 1 ant MM sib (1); Unknown (1)	4 (1 unknown)	1 of 5	3 of 5	3 of 5	Case (1) + lit search (4)
Eapen 2004¹³ n = 279	AML (125); ALL (72); CML (82)	CR (144); Relapse (135)	Myeloablative with TBI (90) and w/o TBI (144); RIT with TBI (1) and w/o TBI (44)	Unknown	238 (85%)	26% 1 y; 30% 5 y	38% 1y; 28% 5 y	41% 1 y; 28% 5 y	IBMTR study; 36% relapse at 1 y, 42% 5 y; no advantage seen when using different MRD
Duus 2005¹⁴ n = 6	CML (2); CLL (1); AML (1); MDS (1); NHL (1)	CR (1); PR (1); CP (1); AP (1); Refractory relapse (1); Untreated relapse (1)	Bu/Cy (2); Cy/TBI ±VP16 (3); TBI 2Gy/ATG (1)	MRD (1); URD (4); 5/6 MRD (1)	0 (0%)	0 of 6	5 of 6 achieved CR	67% median 23 months
Pollyea 2007¹⁵ n = 13	AML (12) MDS(1)	Unknown due to no eval after re-induction (4); CR (2); Relapse (7)	Thio/Bu/Cy ±Alem; Bu/Cy; 2CDA; T BI/Thio/Flu; Flu/Bu/Alem	MRD (14); URD (11) [No more than 1 antigen/allele MM]	13 (100%)	2 of 13	10 of 13 with initial CR 2 of 13 with durable CR	2 of 13	1 pt received DLI after 2^nd HCT
Shaw 2008¹⁶ n = 71	AML (26); ALL (14); MDS (9); CML (7); MPD (3); MM (2)	CR/PR (33); Relapse (36); Unknown (2)	FLAG±Ida (26) Flu/Mel or Bu (25); Flu/low-dose TBI (6); Other Flu (4); Other non-Flu (8); Unknown (2)	MRD (49); URD (18); Other related (4)	56 (80%)	15% 100 d; 23% 1 y	33% 1 y 22% 2 y	42% 1 y 28% 2 y	UK Study-all received RIT conditioning for 2^nd HCT; 48% relapse at 1 yr, 56% relapse at 2 yrs

Author	Diseases	Status at 2^nd HCT	2^nd HCT conditioning	2^nd HCT donor	Same donor used	NRM or TRM	DFS	OS	Comments
2CDA indicates cladribine; Alem, alemtuzumab; Ara-C, cytarabine; ATG, antithymocyte globulin; Auto, autograft; ALL, acute lymphoblastic leukemia; AML, acute myelogenous leukemia; ANLL, acute nonlymphocytic leukemia; ceGVHD, chronic extensive GVHD; CLL, chronic lymphocytic leukemia; CML, chronic myelogenous leukemia; Dauno, daunorubicin; FLAG, fludarbine/cytarabine/granulocyte colony stimulating factor; Flu, fludarabine; IBMTR, International Bone Marrow Transplant Registry; Ida, Idarubicin; IS, immunosuppression; JMML, juvenile myelomonocytic leukemia; MDS, myelodysplastic syndrome; Bu, busulfan; Cy, cyclophosphamide; Mel, melphalan; MMRD, HLA-mismatched related donor; MP, methylprednisolone, MPD; myeloproliferative disease; MRD, HLA-matched related donor; MM, multiple myeloma; NHL, non-Hodgkin lymphoma; NR, Not in remission; PR, partial response; RAEBt, refractory anemia with excess blasts in transformation; RIT, reduced-intensity transplant; thio, thiotepa; URD, HlA-matched unrelated donor; VP16, etoposide
Chiang 1996¹ n = 23	CML (11); acute leukemia (7); lymphoma (4); MDS (1)	Not stated	Bu/Cy (23)	MRD (18); MMURD (4); Auto (1)	13 (57%)	12 of 23	38% at 3 y	43% at 3 y	8 of 23 pts received autos for 1^st HCT.
Bosi 1997² n = 38	AML (21); ALL (17)	CR (24); Relapse (14)	TBI-based (14); non-TBI based (24)	MRD (38)	34 (89%)	11 of 38 (28% at 3 y)	42% at 3 y	Not stated	13 Italian BMT centers; Remission after 2^nd HCT longer than 1^st; AML did better.
Kishi 1997³ n = 66	ANLL (29); ALL (27); CML (6); MDS (4)	CR (30); NR (24)	Multiple high-dose regimens (Cy, TBI, Bu, Ara-C, VP16, Mel)	Sibs (59); syngeneic twin 3); other relatives (4)	55 (83%)	14 of 66 at 3 mo	28% 2 y; 15% at 4 y CR/NR: 38/23% 1 y; 34/23% 2 y; 30/0% 4 y	Not stated	Survey sent to 24 centers in Japan
Mehta 1997⁴ n = 23	Acute leukemias (23)	CR (7); PR (5); Untreated relapse (8); Refractory (3)	Mel ± TBI (6); Bu/Cy (1); Cy/TBI (16)	Unknown	22 (96%)	38.3% at 2 y	0 of 23	1 of 23	23 of 114 pts relapsed after primary HCT. 17 of 23 pts relapsed after 2^nd HCT.
Blau 2000⁵ n = 27	AML (17); ALL (6); CML (4)	CR (5); PR (7); Refractory relapse (7); Untreated relapse (8)	TBI/Cy(11); Bu/VP16 (8); Bu/Cy (6); Cy/MP/ATG (2)	MRD (11); URD (16)	11 (41%)	7 of 27 200 d	8 of 27 (7 pts had prior auto; 1 pt with prior allo)	29% (43% for pts with 1^st with auto)	16 of 27 pts received autos for 1^st HCT
Michallet 2000⁶ n = 150	AML (61); ALL (47); CML (42)	CR (60); Chemosensitive (8); Untreated relapse (27); Refractory relapse (13); CP (17); accelerated (13); blast (12)	TBI-based (25%); Non-TBI (75%)	Syngeneic twin (7); MRD (133); MMRD (3); Pheno-identical donor (2); URD (5)	83%	45±9%	30±8% at 5 y	32±8% at 5 y	Survey sent to 31 centers in France. Risk of relapse 44±12%
Bosi 2001⁷ n = 170	AML (85); ALL (83); AUL (2)	CR (81); Relapse (86); Primary refractory (3)	TBI-based (38); Non-TBI (130)	MRD (154); Syngeneic twin (7); MMRD (6); URD (3)	154 (91%)	68 of 170 (46% at 5 y)	25% at 5 y (20% if relapsed; 13% if refractory)	26% at 5 y (16% if relapse/refractory)	Retrospective review of 56 European centers; Relapse rate 59% at 5 y
Keil 2001⁸ n = 5	AML (4); ALL (1)	CR (1); Untreated relapse (3); Refractory relapse (1)	Not stated	Not stated	Not stated	5 of 5	3 of 5 with initial CR	0%	5 of 47 pts were given 2^nd HCT. The remaining 42 underwent other therapies (DLI, chemo, withdrawal IS)
Pawson 2001⁹ n = 14	AML (7) ALL (5) RAEBt(2)	CR (3); Relapse (11)	FLAG ±Ida	MRD (13); 1 ant MM sib (1)	14 (100%)	0 of 14	26% at 58 mo	60% at 58 mo	10 of 14 pts relapsed (4 despite ceGVHD)
Tomonari 2002¹⁰ n = 16	AML (7) ALL (8) CML (1)	CR (7); Relapse (7); Aplasia (2)	Dauno (1), Bu/Cy±VP16 (7); TBI/Ara-C (4); TBI/VP16 (2); Cy/VP16 (1); none (1)	MRD (13); MM sib (2); URD (1)	14 (88%)	4 of 16 100 d	5 of 16	44% 1 y 31% 4 y (14% OS 4 y if in relapse at 2^nd HCT)	3 pts received DLI after 2^nd HCT
Meshinchi 2003¹¹ n = 25	AML (25)	CR (10) Relapse (15)	Cy/TBI ± ATG	MRD (12), MMR (9), URD (4)	Not stated	5 of 25	44% 10 y (70% if in remission; 27% if in relapse)	88% 100 d 56% 1 yr 48% 10 y	11 of 25 pts received autos for 1^st HCT
Chang 2004¹² n = 5	JMML (5)	Relapse (5)	TBI-based (3); non-TBI (1); unknown (1)	MRD (3); 1 ant MM sib (1); Unknown (1)	4 (1 unknown)	1 of 5	3 of 5	3 of 5	Case (1) + lit search (4)
Eapen 2004¹³ n = 279	AML (125); ALL (72); CML (82)	CR (144); Relapse (135)	Myeloablative with TBI (90) and w/o TBI (144); RIT with TBI (1) and w/o TBI (44)	Unknown	238 (85%)	26% 1 y; 30% 5 y	38% 1y; 28% 5 y	41% 1 y; 28% 5 y	IBMTR study; 36% relapse at 1 y, 42% 5 y; no advantage seen when using different MRD
Duus 2005¹⁴ n = 6	CML (2); CLL (1); AML (1); MDS (1); NHL (1)	CR (1); PR (1); CP (1); AP (1); Refractory relapse (1); Untreated relapse (1)	Bu/Cy (2); Cy/TBI ±VP16 (3); TBI 2Gy/ATG (1)	MRD (1); URD (4); 5/6 MRD (1)	0 (0%)	0 of 6	5 of 6 achieved CR	67% median 23 months
Pollyea 2007¹⁵ n = 13	AML (12) MDS(1)	Unknown due to no eval after re-induction (4); CR (2); Relapse (7)	Thio/Bu/Cy ±Alem; Bu/Cy; 2CDA; T BI/Thio/Flu; Flu/Bu/Alem	MRD (14); URD (11) [No more than 1 antigen/allele MM]	13 (100%)	2 of 13	10 of 13 with initial CR 2 of 13 with durable CR	2 of 13	1 pt received DLI after 2^nd HCT
Shaw 2008¹⁶ n = 71	AML (26); ALL (14); MDS (9); CML (7); MPD (3); MM (2)	CR/PR (33); Relapse (36); Unknown (2)	FLAG±Ida (26) Flu/Mel or Bu (25); Flu/low-dose TBI (6); Other Flu (4); Other non-Flu (8); Unknown (2)	MRD (49); URD (18); Other related (4)	56 (80%)	15% 100 d; 23% 1 y	33% 1 y 22% 2 y	42% 1 y 28% 2 y	UK Study-all received RIT conditioning for 2^nd HCT; 48% relapse at 1 yr, 56% relapse at 2 yrs

Chiang KY, Weisdorf DJ, Davies SM, et al. Outcome of second bone marrow transplantation following a uniform conditioning regimen as therapy for malignant relapse.

Bone Marrow Transplant

1996

;

–42.

Bosi A, Bacci S, Miniero R, et al. Second allogeneic bone marrow transplantation in acute leukemia: a multi-center study from the Gruppo Italiano Trapianto Di Midollo Osseo (GITMO).

Leukemia

1997

;

420

–424.

Kishi K, Takahashi S, Gondo H, et al. Second allogeneic bone marrow transplantation for post-transplant leukemia relapse: results of a survey of 66 cases in 24 Japanese institutes.

Bone Marrow Transplant

1997

;

461

–466.

Mehta J, Powles R, Treleaven J, et al. Outcome of acute leukemia relapsing after bone marrow transplantation: utility of second transplants and adoptive immunotherapy.

Bone Marrow Transplant

1997

;

709

–719.

Blau IW, Basara N, Bischoff M, et al. Second allogeneic hematopoietic stem cell transplantation as treatment for leukemia relapsing following a first transplant.

Bone Marrow Transplant

2000

;

–45.

Br J Haematol

2000

;

108

400

–407.

Bosi A, Laszlo D, Labopin M, et al. Second allogeneic bone marrow transplantation in acute leukemia: results of a survey by the European Cooperative Group for Blood and Marrow Transplantation.

J Clin Oncol

2001

;

3675

–3684.

Keil F, Prinz E, Kalhs P, et al. Treatment of leukemic relapse after allogeneic stem cell transplantation with cytotoreductive chemotherapy and/or immunotherapy or second transplants.

Leukemia

2001

;

355

–361.

Br J Haematol

2001

;

115

622

–629.

Int J Hematol

2002

;

318

–323.

Meshinchi S, Leisenring WM, Carpenter PA, et al. Survival after second hematopoietic stem cell transplantation for recurrent pediatric acute myeloid leukemia.

Biol Blood Marrow Transplant

2003

;

706

–713.

Chang YH, Jou ST, Lin DT, Lu MY, Lin KH. Second allogeneic hematopoietic stem cell transplantation for juvenile myelomonocytic leukemia: case report and literature review [review].

J Pediatr Hematol Oncol

2004

;

190

–193.

Eapen M, Giralt SA, Horowitz MM, et al. Second transplant for acute and chronic leukemia relapsing after first HLA-identical sibling transplant.

Bone Marrow Transplant

2004

;

721

–727.

Duus JE, Stiff PJ, Choi J, Parthasarathy M, Rodriguez T, Toor AA. Second allografts for relapsed hematologic malignancies: feasibility of using a different donor.

Bone Marrow Transplant

2005

;

261

–264.

Pollyea DA, Artz AS, Stock W, et al. Outcomes of patients with AML and MDS who relapse or progress after reduced intensity allogeneic hematopoietic cell transplantation.

Bone Marrow Transplant

2007

;

1027

–1032.

Bone Marrow Transplant

2008

;

783

–789.

Chest

2008

;

133

123S

–131S.

ASH evidence-based guidelines: is there a role for second allogeneic transplant after relapse?

Abstract

References

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ASH evidence-based guidelines: is there a role for second allogeneic transplant after relapse?

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