1 / 32

Avichai Shimoni, MD

Allogeneic Hematopoietic Stem-Cell Transplantation in AML and MDS Using Myeloablative Versus Reduced Intensity Conditioning: The Role of Dose-Intensity. Avichai Shimoni, MD Division of Hematology and Bone Marrow Transplantation, Chaim Sheba Medical Center, Tel-Hashomer, Israel. Introduction.

emilie
Download Presentation

Avichai Shimoni, MD

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Allogeneic Hematopoietic Stem-Cell Transplantation in AML and MDS Using Myeloablative Versus Reduced Intensity Conditioning: The Role of Dose-Intensity Avichai Shimoni, MD Division of Hematology and Bone Marrow Transplantation,Chaim Sheba Medical Center, Tel-Hashomer, Israel

  2. Introduction • Allogeneic stem-cell transplantation with both myeloablative and reduced intensity conditioning is effective therapy in AML and MDS. However their relative merits may be different in different settings. • The relative role of intensive chemotherapy and GVL may be different in these settings. • Prior studies with myeloablative regimens showed that more intensive regimens are associated with less relapses but with higher NRM rates resulting in equivalent survival.

  3. Introduction – cont. • However, this may change in the era of RIC and more tolerable myeloablative regimens. • To better define the role of dose-intensity we analyzed SCT outcomes of 112 consecutive patients with AML/MDS transplanted over a 5-year period.

  4. Patient Characteristics No. 112 patients Gender 58 male, 54 female Median age 50 (range, 18-70) Diagnoses: AML85 patients Secondary 39 patients MDS 20 patients MPD (Other than CML) 6 patients Prior chemotherapy 12 patients kidney transplant 1 patient MDS (all with excess of blasts) 17 patients

  5. Donor characteristics HLA matched sibling - 58 1-Ag mismatched related - 6 Matched unrelated - 48

  6. Patient characteristics – cont. • Status at transplantation CR1 - 27 untreated 1 relapse - 7 CR2 – 19 induction failure - 29 untreated – 19 refractory relapse - 11 • Disease activity active disease - 58 (>10% marrow blasts) remission - 54

  7. Conditioning regimens • 45 pts meeting standard eligibility criteria • Median age 42 (range, 22-58) • 28 pts in remission, 17 pts with active disease • 30 sibling donor, 15 unrelated or 1 Ag mismatched related • Conditioning iv Busulfan 12.8 mg/kg iv CTX 120 mg/kg

  8. 67 pts not eligible for standard SCT advanced age (n=56) organ dysfunction (n=8) poor performance status (n=8) recent fungal infection (n=7) extensive prior therapy (n=9, including 4 prior autoSCT) Median age 55 (18-70). More had unrelated donor.

  9. Conditioning regimens • Reduced-intensity conditioning iv Busulfan 6.4 mg/kg iv fludarabine 150 mg/m2 FB2 n= 41 • Modified myeloablative conditioning iv Busulfan 12.8 mg/kg iv fludarabine 160 mg/m2 FB4 n= 26 ATG only for unrelated and mismatched SCT

  10. Outcomes • 105 engrafted • Median follow-up 22 months (2-62), 63 pts alive, 49 died. • 34 died of relapse, 15 died of treatment-related complications. • cumulative incidence of TRM 14% (9-22%) (GVHD-9, organ toxicities-4, sepsis-1, graft rejection-1). • cumulative incidence of acute GVHD grade II-IV 36% , grade III-IV 14% • Cumulative incidence of chronic GVHD 47%

  11. Overall Survival 48% (37-59%)

  12. Prognostic factors • The most significant factor predicting survival was the status of disease at SCT

  13. Disease status p=0.0001 Remission; 69% Active disease; 31%

  14. To define the prognostic significance of chemotherapy intensity we compared outcome after the 3 different regimens used. ivBuCy Vs FB4 Vs FB2 (myeloablative, modified myeloablative, reduced-intensity)

  15. ivBuCy FB4 FB2

  16. p=0.05 FB4 8% ivBuCy 22% FB2 8%

  17. Toxicity and TRM

  18. FB4 FB2 ivBuCy

  19. ivBuCy FB4 FB2

  20. Active disease ivBuCY FB4 p=0.01 FB2 P=0.01 FB2

  21. Pts in remission FB2 FB4 ivBuCy p=NS p=NS

  22. Effect of chronic GVHD: Pts with active disease chronic GVHD no chronic GVHD

  23. Age < 50 years > 50 years

  24. Donor source Sib; 55% Unrelated; 37% p=NS

  25. Secondary origin AML MDS/ 2AML

  26. Cytogenetics other Poor p=0.01

  27. Prognostic factors - summary • Multivariable analysis shows that active disease is the most significant factor for adverse outcome. HR 4.5 (p=0.001) • Unrelated donor (HR 1.8, p=0.08) • Poor cytogenetics (HR 2.2, p=0.04)

  28. Conclusions • Disease status at SCT is the most important predicting factor of outcome. Conditioning regimen can be selected by disease status. • With new advances in SCT such as RIC and new conditioning regimens age is no longer an adverse risk factor. • The added risk of unrelated donor SCT is reduced.

  29. Conclusions – cont. • Patients in remission at SCT have similar outcome with the different regimens. • RIC has very good results in CR1 • Randomized study needed.

  30. Conclusions – cont. • RIC is associated with poor outcome in patients with active disease at SCT. • Patients should be conditioned with myeloablative or modified myeloablative regimens. • Patients ineligible for myeloablative regimens can tolerate FB4 well. • Randomized is warranted to compare BuCy and FB4 in eligible patients.

  31. Acknowledgments Izhar Hardan Moshe Yeshurun Noga Shem-Tov Ronit Yerushalmi Abraham Avigdor Isaac Ben-Bassat Arnon Nagler Nursing, laboratory, data management and coordinating staff

More Related