Division of Hematology/Blood & Marrow Transplantation, Mayo Clinic College of Medicine, Rochester, Minnesota 55905, USA.
Biol Blood Marrow Transplant. 2013 Jan;19(1):87-93. doi: 10.1016/j.bbmt.2012.08.010. Epub 2012 Aug 23.
Historically, up to 30% of patients were unable to collect adequate numbers of peripheral blood stem cells (PBSCs) for autologous stem cell transplantation (ASCT). Plerixafor in combination with granulocyte colony-stimulating factor (G-CSF) has shown superior results in mobilizing peripheral blood (PB) CD34+ cells in comparison to G-CSF alone, but its high cost limits general use. We developed and evaluated risk-adapted algorithms for optimal utilization of plerixafor. In plerixafor-1, PBSC mobilization was commenced with G-CSF alone, and if PB CD34 on day 4 or day 5 was <10/μL, plerixafor was administered in the evening, and apheresis commenced the next day. In addition, if on any day, the daily yield was <0.5 × 10(6) CD34/kg, plerixafor was added. Subsequently, the algorithm was revised (plerixafor-2) with lower thresholds. If day-4 PB CD34 <10/μL for single or <20/μL for multiple transplantations, or day-1 yield was <1.5 × 10(6) CD34/kg, or any subsequent daily yield was <0.5 × 10(6) CD34/kg, plerixafor was added. Three time periods were analyzed for results and associated costs: January to December 2008 (baseline cohort; 319 mobilization attempts in 278 patients); February to November 2009 (plerixafor-1; 221 mobilization attempts in 216 patients); and December 2009 to June 2010 (plerixafor-2; 100 mobilization attempts in 98 patients). Plerixafor-2 shows a significant improvement in PB CD34 collection, increased number of patients reaching minimum and optimal goals, fewer days of apheresis, and fewer days of mobilization/collection, albeit at increased costs. In conclusion, although the earlier identification of ineffective PBSC mobilization and initiation of plerixafor (plerixafor-2) increases the per-patient costs of PBSC mobilization, failure rates, days of apheresis, and total days of mobilization/collection are lower.
从历史上看,多达 30%的患者无法采集足够数量的外周血造血干细胞 (PBSC) 进行自体干细胞移植 (ASCT)。与单独使用粒细胞集落刺激因子 (G-CSF) 相比,plerixafor 联合 G-CSF 在动员外周血 (PB) CD34+细胞方面显示出更好的效果,但由于其高成本限制了其广泛应用。我们开发并评估了适应风险的算法,以优化 plerixafor 的使用。在 plerixafor-1 中,单独使用 G-CSF 开始 PBSC 动员,如果第 4 天或第 5 天 PB CD34<10/μL,则在晚上给予 plerixafor,并在第二天开始单采。此外,如果每天的产量<0.5×10(6) CD34/kg,则添加 plerixafor。随后,该算法进行了修订(plerixafor-2),降低了阈值。如果第 4 天 PB CD34<10/μL(单采)或<20/μL(多采),或第 1 天产量<1.5×10(6) CD34/kg,或任何后续的每天产量<0.5×10(6) CD34/kg,则添加 plerixafor。对三个时间段的结果和相关成本进行了分析:2008 年 1 月至 12 月(基线队列;278 例患者中有 319 次动员尝试);2009 年 2 月至 11 月(plerixafor-1;216 例患者中有 221 次动员尝试);2009 年 12 月至 2010 年 6 月(plerixafor-2;98 例患者中有 100 次动员尝试)。plerixafor-2 显著提高了 PB CD34 的采集量,使更多的患者达到最低和最佳目标,减少了单采天数,减少了动员/采集天数,尽管成本增加。总之,尽管更早地识别出无效的 PBSC 动员并开始使用 plerixafor(plerixafor-2)会增加 PBSC 动员的每个患者的成本,但失败率、单采天数和总动员/采集天数较低。
