Somlo G, Sniecinski I, Odom-Maryon T, Nowicki B, Chow W, Hamasaki V, Leong L, Margolin K, Morgan R, Raschko J, Shibata S, Tetef M, Molina A, Berenson R J, Forman S J, Doroshow J H
Department of Medical Oncology and Therapeutics Research, City of Hope National Medical Center, Duarte, CA 91010-3000, USA.
Blood. 1997 Mar 1;89(5):1521-8.
We evaluated the effects of various schedules of peripheral blood stem cell (PBSC) reinfusion, granulocyte colony-stimulating factor (G-CSF) priming, and CD34+ enrichment on hematopoietic recovery in 88 patients with advanced breast cancer treated with high-dose chemotherapy, consisting of cisplatin 250 mg/m2, etoposide 60 mg/kg, and cyclophosphamide 100 mg/kg. PBSC (> or = 7.5 x 10(8) nucleated cells/kg) were collected following priming with G-CSF and were either immediately cryopreserved (48 patients; cohorts A and B) or were first processed for CD34+ enrichment (40 patients; cohorts C and D). Patients in cohorts A and C received PBSC on day 0; patients in cohorts B and D received 25% of their nucleated cells on day -2 and 75% on day 0 (split reinfusion). Patients in cohorts A, B, and C were primed with G-CSF 10 micrograms/kg, subcutaneously (SC), once a day; patients in cohort D were primed with 5 micrograms/kg G-CSF, SC, twice daily (bid). Bid administration of G-CSF yielded 2.3 to 4.7 x higher numbers of CD34+ cells in the PBSC product than the same total dose given once a day (P = .002). Reinfusion of 25% of unselected PBSC on day -2 (median, 2.26 x 10(8)/kg nucleated cells [range, 1.7 to 3.3 x 10(8)/kg]) with the remaining cells reinfused on day 0 resulted in earlier granulocyte recovery to > or = 500/microL when compared with reinfusion of all stem cells on day 0 (group B, median of 8 days [range, 7 to 11] v group A, 10 days [range, 8 to 11], P = .0003); no schedule-dependent difference was noted in reaching platelet independence (group B, 11.5 days [range, 5 to 21]; group A, 12 days [range, 8 to 24], P = not significant). Split schedule reinfusion of CD34(+)-selected PBSC did not accelerate granulocyte recovery. In groups D and C, the median number of days to granulocyte recovery was 12 (range, 8 to 22) and 11.5 (range, 9 to 13); patients became platelet independent by day 15 (range, 6 to 22) and 14 (range, 12 to 23), respectively. CD34(+)-selected PBSC rescue decreased the incidence of postreinfusion nausea, emesis, and oxygen desaturation in comparison to unselected PBSC reinfusion (P < or = .005 for each). Hematopoietic recovery may be accelerated by earlier reinfusion of approximately 2.26 x 10(8)/kg unselected nucleated cells. Earlier recovery may be triggered by components other than the progenitors included in the CD34+ cell population. Sustained hematopoietic recovery can also be achieved with CD34(+)-selected PBSC alone. Dosing of G-CSF on a bid schedule generates higher CD34+ cell yield in the leukapheresis product. Whether even earlier "sacrificial" reinfusion of approximately 2 x 10(8)/kg unselected nucleated cells concomitant with the administration of high-dose chemotherapy would reduce the duration of absolute granulocytopenia further while initiating sustained long-term hematopoietic recovery will require further investigation.
我们评估了外周血干细胞(PBSC)回输的不同方案、粒细胞集落刺激因子(G-CSF)动员以及CD34+富集对88例接受高剂量化疗的晚期乳腺癌患者造血恢复的影响。高剂量化疗方案为顺铂250 mg/m²、依托泊苷60 mg/kg和环磷酰胺100 mg/kg。PBSC(≥7.5×10⁸有核细胞/kg)在G-CSF动员后采集,然后立即冷冻保存(48例患者;A组和B组),或者先进行CD34+富集处理(40例患者;C组和D组)。A组和C组患者在第0天接受PBSC回输;B组和D组患者在第-2天接受25%的有核细胞,第0天接受75%(分次回输)。A组、B组和C组患者皮下注射(SC)10μg/kg G-CSF,每天1次;D组患者皮下注射5μg/kg G-CSF,每天2次(bid)。与每天1次给予相同总剂量相比,G-CSF bid给药使PBSC产品中的CD34+细胞数量增加2.3至4.7倍(P = 0.002)。与第0天回输所有干细胞相比,第-2天回输25%未分选的PBSC(中位数为2.26×10⁸/kg有核细胞[范围为1.7至3.3×10⁸/kg]),其余细胞在第0天回输,可使粒细胞恢复至≥500/μL的时间更早(B组中位数为8天[范围为7至11天],A组为10天[范围为8至11天],P = 0.0003);在达到血小板自主恢复方面未观察到方案依赖性差异(B组为11.5天[范围为5至21天];A组为12天[范围为8至24天],P = 无统计学意义)。CD34(+)-分选的PBSC分次回输方案并未加速粒细胞恢复。在D组和C组中,粒细胞恢复的中位数天数分别为12天(范围为8至22天)和11.5天(范围为9至13天);患者分别在第15天(范围为6至22天)和第14天(范围为12至23天)实现血小板自主恢复。与未分选的PBSC回输相比,CD34(+)-分选的PBSC挽救治疗降低了回输后恶心、呕吐和氧饱和度降低的发生率(每项P≤0.005)。提前回输约2.26×10⁸/kg未分选的有核细胞可能会加速造血恢复。提前恢复可能由CD34+细胞群中祖细胞以外的成分触发。单独使用CD34(+)-分选的PBSC也可实现持续的造血恢复。G-CSF bid给药方案可使白细胞分离产品中的CD34+细胞产量更高。在给予高剂量化疗的同时,提前回输约2×10⁸/kg未分选的有核细胞是否能进一步缩短绝对粒细胞缺乏的持续时间,同时启动持续的长期造血恢复,还需要进一步研究。
