Children with CMML and an HLA-compatible relative should be transplanted as early as possible. Improvement of donor selection, GVHD prophylaxis, and supportive care are needed to ameliorate results of BMT from alternative donors.
Since the introduction of combined immunosuppressive therapy (IST) into management of aplastic anemia (AA) in childhood response and probability of survival improved. In contrast to bone marrow transplantation (BMT), however, patients after IST are not considered cured as high rates of relapse and development of clonal disease demonstrate. From 11/93 to 9/97 114 children (65 m, 49 f; median age 9.5 y.) from 37 centers in Germany and Austria were registered in the SAA 94 study. 86 patients lacking a matched sibling donor received IST. Most of the patients suffered from very severe (VSAA: PMN < 200/microliter) or severe AA (SAA: PMN < 500/microliter). All patients were treated with combined IST consisting of ALG and Cyclosporin A (CSA). VSAA and SAA patients were additionally treated with G-CSF. Therapy response was evaluated at day 112, after 6, 12 and 18 months. 8/86 patients died, the probability of survival being 87% after 4 years. At d 112 61% of evaluable patients became independent of transfusions (IST response: CR + PR), 13% with normal blood counts (CR). After 6 months 33% showed CR. At 12 and 18 months response improved to 74% resp. 80%, 39% resp. 55% CR. The best response was achieved in the subgroup of VSAA with 90% (PR + CR) and 65% CR after 18 months. 4 patients developed AML 3-19 months after the beginning of IST. In 2/4 pts. an aberrant clone (-7; 5q-) could be detected retrospectively in BM at diagnosis of AA. 3 nonresponders developed chromosomal aberrations (+19; -7, +12; +8) after 4, 12 and 16 months without morphological signs of AML or MDS. Overall 11 relapses occurred at a median time of 12 months (range 5-27 months) after the beginning of IST. 2 of them relapsed under CSA therapy, 2 under tapering of CSA and 7 after cessation of CSA. 7 patients responded again to CSA monotherapy. Overall response rate is 77% with a probability of event free survival (EFS) of 54% after 4 years regarding all complications mentioned as events.
Fifty-one children between 26 and 214 months of age (median, 100 months) with acute lymphoblastic leukemia (ALL) were grafted in second remission from HLA-identical sibling donors (except for two patients who were grafted with a marrow with 1 antigen-mismatch). Initial treatment and relapse therapy were similar in all patients according to the BFM- and CoALL-protocols (front line: 38 patients according to BFM- protocols and 13 patients according to CoALL-protocols; relapse: 12 patients in study ALL-REZ-BFM 83, 17 in ALL-REZ-BFM 85, 20 in ALL-REZ- BFM 87, and two in ALL-REZ-BFM 90). The conditioning regimens were different, consisting of cyclophosphamide (CY) total body irradiation (TBI) plus (n = 27), VP-16-TBI (n = 23), and CY-TBI and ARA-C (n = 1). Three patients had a second graft after conditioning with CY-TBI for the first transplantation. The second ablative regimen consisted of CY plus VP-16 in the first patient and CY plus busulfan in the two other patients, one of whom relapsed again. All patients but three had bone marrow (BM), either isolated or combined, relapses. Twenty-nine of the patients are in continuous complete remission (CCR), ranging from 1 to 67 months after transplantation with a median time of 30 months. One patient was lost to follow-up in continuous remission. Nine patients died from treatment-related complications (infections and graft-versus- host disease) and 12 patients suffered a leukemic relapse; three of them received a second graft and two are in CCR. Kaplan-Meier analysis yields an event-free survival (EFS) of 0.52 +/- 0.08. The probability of a 7-year relapse-free interval (RFI) is 0.68 +/- 0.08. EFS for patients with late relapses is 0.47 +/- 0.12 and for patients with early relapses 0.56 +/- 0.1. The RFI for patients with late relapses is 0.65 +/- 0.12 and for patients with early relapses 0.69 +/- 0.11. There is a nonsignificant trend towards superior results for patients grafted after conditioning with VP-16 plus TBI. When all patients who are not in CCR at day +125 (which is the median interval between relapse diagnosis and BM transplantation [BMT]) are excluded from the chemotherapy results, there is no significant difference between the results of BMT and chemotherapy for late relapses. On the other hand, there is a significant advantage between chemotherapy and BMT for early relapses over chemotherapy (P less than or equal to .01).
Fifty-one children between 26 and 214 months of age (median, 100 months) with acute lymphoblastic leukemia (ALL) were grafted in second remission from HLA-identical sibling donors (except for two patients who were grafted with a marrow with 1 antigen-mismatch). Initial treatment and relapse therapy were similar in all patients according to the BFM- and CoALL-protocols (front line: 38 patients according to BFM- protocols and 13 patients according to CoALL-protocols; relapse: 12 patients in study ALL-REZ-BFM 83, 17 in ALL-REZ-BFM 85, 20 in ALL-REZ- BFM 87, and two in ALL-REZ-BFM 90). The conditioning regimens were different, consisting of cyclophosphamide (CY) total body irradiation (TBI) plus (n = 27), VP-16-TBI (n = 23), and CY-TBI and ARA-C (n = 1). Three patients had a second graft after conditioning with CY-TBI for the first transplantation. The second ablative regimen consisted of CY plus VP-16 in the first patient and CY plus busulfan in the two other patients, one of whom relapsed again. All patients but three had bone marrow (BM), either isolated or combined, relapses. Twenty-nine of the patients are in continuous complete remission (CCR), ranging from 1 to 67 months after transplantation with a median time of 30 months. One patient was lost to follow-up in continuous remission. Nine patients died from treatment-related complications (infections and graft-versus- host disease) and 12 patients suffered a leukemic relapse; three of them received a second graft and two are in CCR. Kaplan-Meier analysis yields an event-free survival (EFS) of 0.52 +/- 0.08. The probability of a 7-year relapse-free interval (RFI) is 0.68 +/- 0.08. EFS for patients with late relapses is 0.47 +/- 0.12 and for patients with early relapses 0.56 +/- 0.1. The RFI for patients with late relapses is 0.65 +/- 0.12 and for patients with early relapses 0.69 +/- 0.11. There is a nonsignificant trend towards superior results for patients grafted after conditioning with VP-16 plus TBI. When all patients who are not in CCR at day +125 (which is the median interval between relapse diagnosis and BM transplantation [BMT]) are excluded from the chemotherapy results, there is no significant difference between the results of BMT and chemotherapy for late relapses. On the other hand, there is a significant advantage between chemotherapy and BMT for early relapses over chemotherapy (P less than or equal to .01).
To determine the role of intensive chemotherapy and allogeneic bone marrow transplantation (BMT) in treatment of refractory anemia with excess of blasts (RAEB) or RAEB-t (in transformation), the outcome of 37 consecutive children, 12 with RAEB and 25 with RAEB-t, diagnosed between 1985 and 1995 was analyzed. Fourteen patients received intensive chemotherapy according to the AML-BFM protocols 83, 87, or 93 (group 1). Seven patients were treated less intensively with the 6-week consolidation phase as induction (group 2). Allogeneic BMT was performed in 10 children of group 1 and 2 after, and in eight (group 3) without prior chemotherapy. Eight children received minimal or no chemotherapy (group 4). Of 21 children (groups 1 and 2) 17 (81%) achieved complete or partial remission after chemotherapy, 12 of them (10 of group 1) remained in remission, eight after BMT. Five-year survival in 29 children treated intensively (groups 1-3) was 46%, SE 12%. Two of the other eight children (group 4) remained alive, one after spontaneous remission. Outcome after BMT was related to the blast count in the bone marrow prior to BMT. None of 10 children (including two with minimal or no chemotherapy) with р12% blasts before BMT relapsed, in contrast to five of eight patients with a higher blast count (P log rank 0.02). We conclude that a substantial number of children with RAEB or RAEB-t can achieve remission with intensive AML-specific chemotherapy. In patients responding to intensive chemotherapy an increase in long-term survival after allogeneic BMT can be expected.
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