Abstract 2255

Poster Board II-232

The prognosis of patients (pts) with leukemia who relapse after a prior autologous and or allogeneic hematopoietic stem cell transplantation (SCT) is dismal. A second allogeneic SCT can salvage some of these pts but myeloablative conditioning is associated with high rates of non-relapse mortality (NRM) in this setting and a relatively poor outcome. Reduced intensity conditioning allows reduction of NRM following a second SCT, but may be associated with a high relapse rate, mostly when leukemia is not in remission at the time of SCT. Similarly, allogeneic SCT for pts who develop secondary leukemia after a prior autologous SCT for a primary malignancy is associated with similar risks. The combination of fludarabine and treosulfan (FT) has been previously reported as a dose intensive myeloablative regimen with reduced toxicity and effective anti-leukemia capability, but its merit in second SCT is not defined. We explored a regimen consisting of fludarabine (total 150 mg/m2) and treosulfan (total 30-36 gr/m2) with the addition of ATG to recipients of unrelated or mismatched donor SCT, as a conditioning regimen for a second SCT. The study included 17 pts, 10 male, 7 female, median age 58 years (range, 20-70). Patient diagnosis at second SCT was AML (n=11), MDS (n=3), myelofibrosis (n=2) and CML in accelerated phase (n=1). The first transplant was autologous (n=6) or allogeneic (n=11). Autologous SCT was given for AML (n=3, 1 of them APL) or for a primary malignancy (lymphoma - 2, multiple myeloma -1). Second allogeneic SCT was given for relapse after a prior SCT or for secondary AML/MDS in the 3 pts having autologous SCT for lymphoma and myeloma. The Donor for the second SCT was an HLA-match sibling (n=6) or matched unrelated (n=11). In the 11 pts having a second allogeneic SCT after failure of a first allogeneic SCT the donor was the same donor in 3 transplants and a different donor in 8 transplants. The conditioning regimen for the first SCT contained high-dose intravenous busulfan (12.8 mg/kg) in 9 pts and reduced dose busulfan (6.4-9.6 mg/kg) in 5 pts. The three pts with primary lymphoma and myeloma were given BEAM and high-dose melphalan, respectively. The median time between the first and second SCT was 28 months (range, 3-48 months). Only 4 pts were in remission at the time of second SCT. Six pts were chemo-refractory and 7 pts were transplanted in untreated malignancy.

Results:

12 pts engrafted with a median time to ANC > 0.5 × 109/L of 12 days (range, 9-38) and for PLT > 20 × 109 of 15 days (range, 11-44). Five pts died prior to engraftment, 3 of infections, 1 of cerebral hemorrhage and 1 of graft failure. There were no deaths related to organ toxicity (e.g. VOD or pneumonitis) and no late deaths due to NRM. Acute GVHD grade II-IV occurred in 2 pts, cumulative incidence 28%. Chronic GVHD occurred in 4 of 8 evaluable pts, cumulative incidence 57%. There were no deaths attributed to acute or chronic GVHD. The cumulative incidence of NRM was 30% (95%CI, 14-62). Three pts relapsed with a cumulative incidence of 25% (95%CI, 9-69). In all, with a median follow-up of 12 months (range, 1-59 months) the estimated 2-year overall and disease-free survival were both 45% (95CI, 17-73). Best results were achieved in the group of 8 pts having a second SCT form a second allogeneic donor; 5 pts are currently disease-free for a median of 18 months (range, 3-38), despite transplantation in advanced phase; 3 refractory to salvage chemotherapy and one in untreated relapse after the first SCT. The estimated 2 year survival in this group was 60%, a promising outcome in this setting. In conclusion, the fludarabine-treosulfan regimen is feasible for a second allogeneic SCT. NRM especially in the early post-transplant period is substantial, but can be expected in a group of heavily pretreated pts, many with active and refractory leukemia. The regimen has a promising anti-leukemia effect in this setting with a low recurrence rate, especially when using a different donor than in the prior transplant. The FT regimen can be considered a reduced toxicity myeloablative regimen that is feasible in pts given a prior transplant including pts previously given myeloablative doses of busulfan.

Disclosures:

No relevant conflicts of interest to declare.

Topics:
bone marrow purging, busulfan, conditioning (psychology), fludarabine, hematopoietic stem cell transplantation, toxic effect, brachial plexus neuritis, leukemia, transplantation, cancer

Author notes

*

Asterisk with author names denotes non-ASH members.

© 2009 by The American Society of Hematology
2009
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