Prevention of chemotherapy-induced leukemia and of leukemia relapses.

Fifty percent of patients with the myelodysplastic syndrome, frequently following treatment by radiation or chemotherapy, have prognostically unfavorable deletions of the long arms of chromosomes 5 and 7, or trisomy 8, as have the 25% of patients with acute myeloblastic leukemia where remissions last 6-12 months, and where relapse cannot be prevented. In contrast, patients with prognostically favorable cytogenetics (translocation 15; 17 or 8; 21 or inversion 16) maintenance chemotherapy may prevent relapses. Of chronic myelocytic leukemia patients, 85% can achieve hematological remission with interferon alpha, and 40% a partial cytogenetic remission, which probably delays relapse.     

Combined chemotherapy with m-amsacrine in high-risk patients with acute non-lymphocytic leukemia

Thirteen patients (7 male, 9 female) aged 22-71 years (means = 55 years) with acute non-lymphocytic leukemia and contraindications for anthracyclin therapy were treated with combined chemotherapy using m-amsacrine primarily or in relapse. The main reasons for avoiding cardiotoxic substances were overt cardiac insufficiency and former administration of daunorubicin with more than 540 mg/m2 body surface area. Amsacrine was combined with 6-thioguanine, VP 16-213 and cytosine arabinoside in conventional or high dosage. Eight out of 13 patients (62%) achieved complete remission after one or two courses of chemotherapy. One patient showed partial remission and could be brought into complete remission with another chemotherapy using high-dose ara-C and mitoxantrone. Three patients died in aplasia after chemotherapy and 1 other patient had to be regarded as a complete non-responder. Remission duration and survival time for the 8 successfully-treated patients so far is 1-12 months; however, medians have not yet been reached, since only one of the eight patients relapsed after 6 months of complete remission. These data indicate a high efficacy of m-amsacrine in combined chemotherapy for acute non-lymphocytic leukemia in high-risk patients with contraindications for anthracyclins.     

Mitoxantrone in the treatment of relapsed and refractory acute leukemia

Twenty-four patients with acute leukemia and blast crisis of chronic myelocytic leukemia in relapse or refractory to standard chemotherapy were eligible for treatment with mitoxantrone. Mitoxantrone was administered in a dose of 8-13 mg/m2 on five consecutive days. 5 of 20 evaluable patients were induced into complete remission, 1 patient achieved a partial remission. Side effects included moderate to severe bone marrow suppression, moderate mucositis and hair loss. No cardiotoxicity was observed. We believe that mitoxantrone is an active agent in the treatment of acute leukemia and suggest further studies in combination chemotherapy.     

Treatment of relapsing acute leukemia

Responses of multicombination chemotherapy with BH-AC . DMP regimen in relapse in adult acute leukemia showed significant decrease in terms of remission rate, duration of remission and survival time, in comparison to that in previously untreated cases. This strongly imply that clinical resistance to the drug previously used had developed in patients with relapsing acute leukemia. Therefore, antileukemic agents which have no cross resistance to those used previously should be selected for relapsing cases with much more intensive fashion of treatment than that used in the prior treatment. Ninety per cent of the long-term survivors in acute leukemia who had a single relapse had survived at 7 years, whereas only 30% of the patients who had multiple relapses had survived so. In other words, when the first relapse was treated successfully, the patients still have a good change to be cured. This results suggest that total care system has to be developed for relapsing acute leukemia.     

Treatment of relapsed acute promyelocytic leukemia

By all-trans retinoic acid (ATRA) and chemotherapy over 70% of patients with newly diagnosed acute promyelocytic leukemia (APL) may be cured; 20-30% of patients still relapse and require salvage therapy. For relapsed or refractory APL, a standard treatment has not yet been defined. However, several effective drugs and approaches have been described. Treatment options for relapsed APL include chemotherapy regimens used in the treatment of relapsed acute myeloid leukemia usually combined with ATRA or of other differentiating agents such as liposomal ATRA or synthetic retinoids. Presently, allogeneic peripheral stem cell or bone marrow transplantation is the treatment of choice for younger patients who have a histocompatible donor, as it gives the chance of cure in second or further relapse. For patients without a donor or for those who are not suitable for allogeneic transplantation, autologous stem cell or bone marrow transplantation may offer at least the possibility of a prolongation of remission, if the harvested cells are negative in the RT-PCR of PML/RAR alpha. Arsenic compounds have a high antileukemic effectiveness on APL cells. Arsenic trioxide has recently been approved for relapsed or refractory APL. With this drug, complete hematologic remission rates of 80-92% and long-lasting molecular remissions were achieved in relapsed patients. For patients who do not qualify for these treatment options, monoclonal anti-CD33 antibodies may represent further treatment options.     

Acute promyelocytic leukemia

Opinion statement The treatment of acute promyelocytic leukemia (APL) is different from other subtypes of acute myelocytic leukemia (AML). All trans-retinoic acid (ATRA) is an essential component of the standard remission induction for all newly diagnosed APL patients. Remission induction with ATRA and chemotherapy given concurrently appears to be associated with fewer relapses. With further consolidation chemotherapy without high-dose cytosine arabinoside, the disease-free survival rate can reach 70% to 80%, and many of these patients are cured, more so than in any other AML subtype. APL is especially sensitive to anthracyclines, which should be included in the chemotherapy cycles at a higher dose than in other AML subtypes. Maintenance with low-dose chemotherapy (oral daily 6-mercaptopurine with weekly methotrexate) or ATRA further improves the long-term outcome. New approaches are also available for relapsing patients, although the optimal treatment is unknown. Patients who did not receive oral ATRA in first relapse can be treated with this agent, as can first relapsing patients who have been off the drug for more than 1 year. Because of poor remission rates, ATRA should not be used in patients with second or subsequent relapses (whether ATRA was given in the past), in patients with relapses early after ATRA discontinuation, or in patients relapsing while on ATRA therapy. Arsenic trioxide can also be used, especially in patients resistant to ATRA. Because arsenic trioxide is still experimental and not yet widely available, patients who are unlikely to respond to ATRA or who unsuccessfully undergo ATRA reinduction should be treated with chemotherapy. Patients in second or subsequent remission induced with ATRA or chemotherapy should receive consolidation chemotherapy. When arsenic trioxide is used for reinduction, the drug should be continued for several cycles; however, adding consolidation chemotherapy might improve the results. Because it is unknown whether APL in second or subsequent remission is curable with salvage therapy, allogeneic hematopoietic stem cell transplantation is often considered for patients with a human leukocyte antigen (HL-A)-identical sibling and autologous transplantation when a donor does not exist. However, compared with the new treatments, the role of transplantation for relapse is unclear. In first remission, there is no role for transplantation. A new liposomal formulation of intravenous ATRA is being investigated and seems effective in late first relapses, and it may be able to induce and maintain first remissions in selected patients without chemotherapy.     

Treatment of adult patients with Philadelphia chromosome-positive acute lymphoblastic leukemia

In the pre-imatinib era, treatment outcomes of adult patients with Philadelphia chromosome (Ph)-positive acute lymphoblastic leukemia (ALL) were dismal. Despite the use of intensive chemotherapy and allogeneic hematopoietic stem cell transplantation (HSCT), complete remission and overall survival rates were less than 70% and 20%, respectively. However, imatinib, in combination with conventional chemotherapy, has dramatically changed outcomes, producing approximately 95% complete remission and 50% overall survival with or without allogeneic HSCT. Current research is now focusing on how to prevent relapse. Improvement of postremission therapy is indispensable. Although allogeneic HSCT during first complete remission is still the first choice for feasible patients, post-HSCT imatinib therapy and imatinib plus chemotherapy combinations should also be studied. New BCR-ABL tyrosine kinase inhibitors are expected to improve outcomes in imatinib-resistant leukemia. Our hope is that, in the near future, Ph-positive ALL will become a leukemia in which allogeneic HSCT is offered only for relapsed or refractory cases.     

Efficacy and safety of gemtuzumab ozogamicin in patients with poor-prognosis acute myeloid leukemia

The objective of this work was to determine the safety and efficacy of gemtuzumab ozogamicin in patients with poor prognosis acute myeloid leukemia (AML). Patients with the following diagnoses/characteristics were treated with 1-3 infusions of gemtuzumab ozogamicin at a dose of 9 mg/m2: (1) relapse of AML < or = 6 months of first complete remission (CR); (2) AML refractory to chemotherapy at initial induction or at first relapse; (3) AML in second or greater relapse; (4) myeloid blast crisis of chronic myeloid leukemia (CML); (5) untreated patients > or = 70 years or > or = 55 years with abnormal cytogenetics (excluding inv 16, t(15;17) and t(8;21)) and/or an antecedent hematologic disorder; (6) refractory anemia with excess blasts in transformation (RAEBT). Forty-three patients, ages 19-84 (mean 62), were treated, including 7 patients with untreated AML age > 70 years, 2 with untreated RAEBT, 14 with AML first salvage (first remission 0-6 months), 15 with AML > or = second salvage and 14 with myeloid blast phase of CML. The overall response rate was 14%, with 4/43 (9%) patients achieving CR and 2/43 (5%) achieving CR without platelet recovery. The most significant toxicity was neutropenic fever, which occurred in 84% of patients. In conclusion, in patients with relapsed/refractory AML, gemtuzumab ozogamicin has a comparable response rate to single-agent chemotherapy and may offer a more favorable toxicity profile.     

Identification of early relapsing patients with adult acute nonlymphocytic leukemia by bone marrow biopsy after initial induction chemotherapy

Bone marrow biopsies obtained from 69 adult patients with acute nonlymphocytic leukemia (ANLL) six to 10 days after initial induction chemotherapy were reviewed blindly to detect the presence of residual leukemia. Discrimination between the presence or absence of leukemic cells was provided by assessment of the numbers, clustering, and nuclear morphology of blasts and promyelocytes. Twenty-six patients had frank leukemia, 25 had no apparent leukemic cells, and 18 had focal residual leukemia. Of 25 patients whose bone marrow contained no detectable residual leukemic cells, 21 gained complete remission without further chemotherapy. These patients had a median duration of remission of 278 days, with five patients still remaining in remission for 578-882 days. Similarly, all of the 18 patients who had focal residual leukemia achieved complete remission without additional chemotherapy; however, all have relapsed with a median duration of remission of 163 days. This study indicates that patients with foci of residual leukemia in their one-week posttreatment bone marrow samples readily achieve remission, but carry a substantial leukemic burden that increases the likelihood of early relapse.     

化疗联合单倍体淋巴细胞输注治疗难治性白血病

背景与目的:常规化疗治疗难治性白血病的缓解率低于50%,增加化疗强度常因严重并发症导致患者死亡,我们既往的研究表明单倍体淋巴细胞在体外具有较强杀伤白血病细胞效应。本研究旨在观察常规化疗联合经7.5Gyγ射线照射的单倍体淋巴细胞输注治疗难治性白血病的效果和不良反应。方法:16例难治性白血病患者在化疗后,当白细胞降至最低时平均输注1×108/kg(0.8～1.2×108/kg)经7.5Gyγ射线照射的单倍体淋巴细胞,观察难治性白血病的缓解率和单倍体淋巴细胞输注的不良反应。结果:13例难治性急性非淋巴细胞白血病经该治疗后,11例达完全缓解,2例达部分缓解。3例难治性急性淋巴细胞白血病患者,2例完全缓解,1例无效。全组16例患者的总缓解率为81.2%。单倍体淋巴细胞输注后患者感觉良好,无一例长时间骨髓抑制,无输注相关的移植物抗宿主病。结论:化疗联合单倍体淋巴细胞输注可以提高难治性白血病的缓解率,减少化疗引起的并发症。     

Response to 5-azacytidine in patients with refractory acute nonlymphocytic leukemia and association with chromosome findings

Fifteen patients with acute nonlymphocytic leukemia (ANLL) who either had a relapse after a previous complete remission (nine patients) or progressive disease after initial induction attempts with combination chemotherapy (six patients) were treated with 5-azacytidine. Five patients (33%) achieved a complete remission (CR); of these, three had a relapse and died 30, 35, and 38 weeks after 5-azacytidine therapy was begun. Two patients are still alive at 39 and 138 weeks. Chromosomes were analyzed at the time of diagnosis; ten patients had a normal karyotype and five had an abnormal karyotype. Three of the five CR patients had an abnormal karyotype initially. Two of these individuals had a translocation of chromosomal material from a No. 8 chromosome to a No. 21 chromosome, t(8;21); this particular translocation has been associated with a better prognosis than have other types of chromosomal abnormalities in patients with ANLL. Even when abnormal chromosomes are present, 5-azacytidine can induce complete remission in patients with previously treated ANLL.     

Allogeneic marrow transplantation for acute nonlymphoblastic leukemia

Bone marrow transplantation (BMT) from an HLA-matched sibling donor can cure 15% of end-stage patients with refractory acute leukemia. Failures are largely due to acute or chronic graft-versus-host disease, idiopathic or cytomegalovirus-associated interstitial pneumonitis, veno-occlusive disease of the liver, opportunistic infections, and leukemia relapse. The post-BMT leukemia relapse rate has been reduced from 65% to 20-40% by performing BMT in first complete remission (CR). Overall, about 50% of such patients become long-term tumor-free survivors. Younger patients do far better than older ones. A prospective comparative trial for acute nonlymphoblastic leukemia (ANL) in first CR revealed that BMT was more likely than chemotherapy to be fatal within the first 6 months after induction but that the probability of long-term tumor-free survival thereafter was significantly greater after BMT than after chemotherapy. It is recommended that patients less than 30 years old with ANL should undergo BMT while in first CR, whereas those patients over 30 years old should postpone BMT to the earliest sign of relapse.     

细胞免疫治疗在急性白血病中的临床应用进展

 【摘要】　急性白血病（AL）是最常见的血液系统恶性肿瘤,基于化疗药物的开发应用和化疗方案的不断改进,AL诱导化疗后缓解率得到明显提高,但缓解后复发仍是白血病患者不能长期生存的主要原因,如何延长治疗后缓解期成为解决此问题的关键。细胞免疫治疗在消除白血病微小残留病（MRD）、降低白血病复发、提高白血病患者总生存（OS）率方面有重要作用,细胞免疫治疗越来越受到人们的重视。就细胞免疫疗法在AL中的临床应用进展作一综述。     

Decreased neutrophil bactericidal activity in acute leukemia of childhood.

Neutrophil (PMN) bactericidal activity, phagocytosis, and nitroblue tetrazolium (NBT) reduction were evaluated in 18 children with untreated or relapsing acute leukemia and 20 children in hematologic remission. Half of the patients in relapse demonstrated abnormal PMN bactericidal activity, while remission patients had essentially normal PMN bactericidal activity. Phagocytosis of Staphylococcus aureus was normal in relapse and remission subjects. NBT reduction by PMN's of leukemic patients was significantly lower than that of controls, but there was no correlation between decreased NBT-reductase activity and decreased bactericidal power. Six patients in remission had received intensive chemotherapy for more than 4 years, and all demonstrated normal PMN functions. Among relapse patients with abnormal PMN bactericidal activity 63% eventually developed severe bacterial infections. By comparison, 20% of the relapse patients with normal PMN bactericidal activity subsequently developed severe infections. The PMN dysfunction observed in relapse patients suggests that abnormal PMN bactericidal activity may contribute the increased susceptibility to bacterial infections during leukemic relapse.     

Salvage therapy with mitoxantrone,etoposide and cytarabine in relapsed or refractory acute lymphoblastic leukemia

The survival of patients with relapsed or refractory acute lymphoblastic leukemia (ALL) is poor. We performed a retrospective analysis of 40 patients treated with five days of mitoxantrone 8 mg/m²/day, etoposide 100 mg/m²/day, and cytarabine 1000 mg/m²/day (MEC). The complete remission rate was 30% and median remission duration was 11.2 months. Median overall survival was 6.5 months. In univariate analysis, patients in first relapse had improved overall survival compared to ≥second relapse (p = 0.02). Thirty-day mortality rate was 7.5%. In relapsed or refractory ALL, MEC demonstrated moderate activity, but did not improve survival compared to published salvage chemotherapy regimens.     

单倍型供者淋巴细胞输注治疗复发性急性白血病

 目的　探讨难治性复发性急性白血病单倍型淋巴细胞输注的疗效。方法　2006年4月至2007年10月应用单倍型淋巴细胞输注治疗复发性急性髓性白血病（AML）3例（M2 2 例,M4 1例）,复发性急性淋巴细胞白血病（ALL）1例,4例复发患者在二线方案化疗无效后,采集供者淋巴细胞,子女供父母3例,母供子1例,供者淋巴细胞在输注前,患者再次接受了不同方案的化疗,白细胞较低时输注供者的淋巴细胞,平均输注细胞2.3（1.4～3.1）×108／kg,输注前淋巴细胞接受了6～8 Gy 60Coγ射线照射。结果　3例AML患者1例获得了完全缓解（CR）,2例有效,1例ALL无效。4例患者输注单倍型供者淋巴细胞后无移植物抗宿主病的发生,未出现严重的骨髓抑制,1例患者发生了带状疱疹病毒感染。结论　单倍型供者淋巴细胞输注配合化疗对难治复发的AML有疗效,输注细胞的数量及照射的剂量需进一步探讨。     

Improved survival of children with isolated CNS relapse of acute lymphoblastic leukemia: a pediatric oncology group study .

PURPOSE: Isolated meningeal relapse in children with acute lymphoblastic leukemia (ALL) usually has been followed by bone marrow relapse and limited survival. The purpose of this study was to prevent marrow relapse by administering intensive therapy before delayed craniospinal radiation. PATIENTS AND METHODS: Eighty-three patients with ALL in first bone marrow remission with an isolated CNS relapse were treated with systemic chemotherapy known to enter into the CSF and intrathecal chemotherapy for 6 months. Craniospinal irradiation (24 Gy cranial/15 Gy spinal) was then administered, followed by 1.5 years of maintenance chemotherapy. RESULTS: All 83 patients achieved a second remission. The 4-year event-free survival (EFS) rate was 71.1% +/- 5.3%. There was a fourfold increased risk of relapse for children whose initial remission was less than 18 months. The 4-year EFS rate for patients with a first complete remission >/= 18 months was 83.3% +/- 5.3%, and for those with a first complete remission less than 18 months, it was 46.2% +/- 10.2% (P =.0002.) There was a low incidence of neurologic toxicity and an unexpectedly high rate of allergic reactions to L-asparaginase. Five patients developed secondary malignancies: two with acute nonlymphoblastic leukemia during therapy, one with myelodysplasia after therapy, and two with brain tumors 1.5 to 2 years after cessation of therapy. CONCLUSION: For children with ALL and an isolated CNS relapse, treatment that delays definitive craniospinal irradiation by 6 months to allow for more intensive systemic and intrathecal chemotherapy results in better EFS than has been previously reported. Using this approach, the long-term prognosis for children with first complete remission >/= 18 months is comparable to that at the time of original diagnosis of ALL.     

Clinical applicability of the evaluation of minimal residual disease in acute leukemia

Modern chemotherapy can place most patients with acute leukemia into remission. Unfortunately, many of these patients will subsequently relapse. The study of minimal residual disease focuses on the detection of patients destined to relapse despite appearing to be in clinical remission. In addition, the research has demonstrated that some patients appear to co-exist with their leukemia for years, and this suggests a need to re-examine what it means to be "cured" of leukemia. We await trials testing the intervention of "molecular relapse." Data appear to be sufficient to launch such trials in diseases such as pediatric acute lymphoblastic leukemia and the t(1 5;1 7) acute myeloid leukemia.     

Preventive central nervous system irradiation in children with acute nonlymphocytic leukemia.

In this study of children with acute nonlymphocytic leukemia an attempt was made to prevent central nervous system relapse and to determine whether this therapy, coupled with multiagent chemotherapy, would be successful in prolonging durations of complete remission. Central nervous system relapses were prevented by irradiation, although patients who received this therapy did no better than those who did not receive irradiation. A small group of patients received irradiation to the liver and spleen, but this modality also failed to improve the duration of remission. Control of extramedullary leukemia, in this study, failed to improve remission duration because bone marrow relapse was not prevented or delayed. It is unlikely that focal therapy will have a significant impact in acute nonlymphocytic leukemia until longer marrow remissions are achieved.     

The value of intensive combination chemotherapy for juvenile chronic myelogenous leukemia

Nine children with juvenile chronic myelogenous leukemia (JCML) were diagnosed in an 8-year period from 1977 to 1984. The clinical courses and outcomes of five patients who received minimal or no chemotherapy were compared with that of four patients who were treated with intensive acute nonlymphoblastic leukemia (ANLL) combination chemotherapy. None of the five patients in the former group achieved clinical remission and their survivals were 1, 4, 4, 7, and 29 months, respectively. All four patients in the latter group achieved clinical remissions that lasted 11, 21, 21, and 27 + months, respectively. The durations of their survival (21, 26, 30, and 32 + months) were significantly better than the five patients who received minimal or no chemotherapy (P less than .05). Despite hospitalizations for chemotherapy and for treatment of chemotherapy-associated complications, the clinical status and quality of life of the children who achieved clinical remission were superior to those who remained in relapse. Although intensive chemotherapy induced lengthy remissions, three of the four patients have relapsed. Cytogenetic and cell culture data indicated that the monocytic-macrophage cells characteristic of JCML appeared to be suppressed during remission rather than totally eliminated. We recommend that ANLL-type combination chemotherapy be used as the initial treatment of JCML because of its promptness in effecting clinical remissions. Improved maintenance and consolidation protocols have to be developed to produce durable remissions and cures. Alternatively, bone marrow transplantation may be a useful option soon after remission is achieved with chemotherapy.