Department of Hematology and Stem Cell Transplant, Armed Forces Bone Marrow Transplant Centre/National Institute of Blood and Marrow Transplant, Rawalpindi Pakistan.
Department of Hematology and Stem Cell Transplant, Armed Forces Bone Marrow Transplant Centre/National Institute of Blood and Marrow Transplant, Rawalpindi Pakistan.
Biol Blood Marrow Transplant. 2019 Dec;25(12):2375-2382. doi: 10.1016/j.bbmt.2019.07.029. Epub 2019 Aug 5.
Despite excellent transplant outcomes of aplastic anemia (AA) in developed countries, management in developing countries is challenging because of delay in the diagnosis, use of family donors for transfusions, and higher infection risk pretransplant. These factors can lead to allo-immunization, increased risk of graft failure, graft-versus-host disease (GVHD), and transplant-related mortality, leading to unfavorable outcomes. Conventional cyclophosphamide (Cy) and antithymocyte globulin (ATG) are associated with inferior overall survival in such high-risk patients. We conducted single-center retrospective analysis of high-risk AA patients (N = 147) enrolled consecutively and undergoing matched related donor transplant from March 2002 through October 2018. We included high-risk AA patients receiving fludarabine (Flu)-based conditioning. Median patient age was 20 years (range, 3 to 52). The median time from diagnosis to transplant was 11 months (range, 3 to 63). High-risk features included age ≥ 20 years in 55.8% of patients (n = 82), disease duration more than 3 months in 95 % (n = 140), RBC concentrates transfusions > 20 in 79.6% (n = 117), random donor platelet transfusion > 50 in 64.6% of patients (n = 95), and second hematopoietic stem cell transplant (HSCT) in 7.4% (11). We divided patients into 2 groups based on different conditioning regimens. Flu group 1 (Flu1) received Flu 120 to 150 mg/m, Cy 120 to 200 mg/kg, and ATG 20 mg/kg, and Flu group 2 (Flu2) was given Flu 150 mg/m, Cy 300 mg/m, and ATG 20 mg/kg. Bone marrow stem cells were used as graft source in 97% of patients (n = 144) (alone in 52% and with peripheral blood stem cells in 45%). Cyclosporine alone was used for GVHD prophylaxis in 75% (n = 110) and cyclosporine plus methotrexate in 25% (n = 37). Median total nucleated cell dose was 5 × 10/kg. Median days for neutrophil engraftment was 13 (range, 10 to 20) and platelet engraftment 20 (range, 14 to 43). Day 100 mortality was 7.5% (n = 11). Sustained successful engraftment was achieved in 87.8% of patients (n = 129). Most graft failures (40%) occurred in Flu2 conditioning (P = .000) and in patients with >2 risk factors (P = .000). Overall incidence of acute and chronic GVHD was 11.6% (n = 17) and 12.9% (n = 19), respectively, in Flu1 and Flu2 groups. Overall survival (OS), disease-free survival (DFS), and GVHD-free relapse-free survival (GRFS) was 83.7%, 78.2%, and 70.7%, respectively. A trend toward improved OS was observed in patients receiving Flu1 conditioning but was statistically nonsignificant (P = .256), whereas DFS and GRFS were significantly better in Flu1 versus Flu2 (P = .004 and .001, respectively). When stratified per number of risk factors (age > 20, RBC concentrate > 20 or platelet > 50 random, duration > 3 months, previous HSCT), OS and DFS decreased significantly with increasing number of risk factors (P = .000 and .001, respectively). Patients are able to tolerate Flu-based conditioning well with lower rates of rejection and excellent long-term survival in high-risk AA patients. Cyclosporine alone as GVHD prophylaxis and marrow source stem cells as graft source are preferable options. Use of Flu plus low-dose Cy conditioning is associated with inferior survival outcomes. A randomized trial of Flu-based versus conventional Cy-containing conditioning would be helpful in establishing a standard of care conditioning regimen in high-risk AA patients.
尽管在发达国家,再生障碍性贫血 (AA) 的移植效果非常好,但在发展中国家,由于诊断延迟、使用家庭供体输血以及移植前更高的感染风险,其管理具有挑战性。这些因素可能导致同种免疫、移植物失功、移植物抗宿主病 (GVHD) 和移植相关死亡率增加,导致不良结局。在这些高危患者中,常规环磷酰胺 (Cy) 和抗胸腺细胞球蛋白 (ATG) 与整体总生存率降低有关。我们对 2002 年 3 月至 2018 年 10 月连续接受高危 AA 患者 (N=147) 进行了单中心回顾性分析,并接受了匹配相关供体移植。我们纳入了接受氟达拉滨 (Flu) 为基础的预处理的高危 AA 患者。中位患者年龄为 20 岁 (范围,3 至 52 岁)。从诊断到移植的中位时间为 11 个月 (范围,3 至 63 个月)。高危特征包括 55.8% (n=82) 的患者年龄≥20 岁、95% (n=140) 的患者疾病持续时间超过 3 个月、79.6% (n=117) 的患者接受红细胞浓缩物输血>20 单位、64.6% (n=95) 的患者接受随机供体血小板输血>50 单位以及 7.4% (n=11) 的患者接受第二次造血干细胞移植。我们根据不同的预处理方案将患者分为 2 组。Flu 组 1 (Flu1) 接受 Flu 120 至 150mg/m2、Cy 120 至 200mg/kg 和 ATG 20mg/kg,Flu 组 2 (Flu2) 接受 Flu 150mg/m2、Cy 300mg/m2 和 ATG 20mg/kg。骨髓干细胞作为移植物来源在 97% 的患者 (n=144) 中使用 (单独使用 52%,与外周血干细胞一起使用 45%)。环孢素单独用于 GVHD 预防在 75% 的患者 (n=110) 中使用,环孢素加甲氨蝶呤在 25% 的患者 (n=37) 中使用。中位数总核细胞剂量为 5×10/kg。中性粒细胞植入的中位数天数为 13 天 (范围,10 至 20 天),血小板植入的中位数天数为 20 天 (范围,14 至 43 天)。第 100 天死亡率为 7.5% (n=11)。87.8% 的患者 (n=129) 获得持续成功植入。大多数移植物失功 (40%) 发生在 Flu2 预处理 (P=.000) 和有>2 个危险因素的患者中 (P=.000)。Flu1 和 Flu2 组急性和慢性 GVHD 的总发生率分别为 11.6% (n=17) 和 12.9% (n=19)。总体生存率 (OS)、无疾病生存率 (DFS) 和 GVHD 无复发生存率 (GRFS) 分别为 83.7%、78.2% 和 70.7%。接受 Flu1 预处理的患者 OS 有改善趋势,但无统计学意义 (P=.256),而 DFS 和 GRFS 在 Flu1 组优于 Flu2 组 (P=.004 和.001)。按危险因素数量分层 (年龄>20 岁、RBC 浓缩物>20 或血小板>50 随机、持续时间>3 个月、以前的 HSCT),随着危险因素数量的增加,OS 和 DFS 显著下降 (P=.000 和.001)。高危 AA 患者接受 Flu 为基础的预处理后,排斥反应发生率较低,长期生存效果良好。单独使用环孢素作为 GVHD 预防和骨髓来源的干细胞作为移植物来源是较好的选择。使用 Flu 加低剂量 Cy 预处理与较差的生存结果相关。在高危 AA 患者中,进行 Flu 为基础与传统 Cy 为基础预处理的随机试验将有助于确立高危 AA 患者的标准治疗预处理方案。
