使用LVL和一种新型自动单采系统增强儿童造血干细胞的募集。
Enhanced HPC recruitment in children using LVL and a new automated apheresis system.
作者信息
Torrabadella M, Olivé T, Ortega J J, Massuet L
机构信息
Tissue Bank, Barcelona, Spain.
出版信息
Transfusion. 2000 Apr;40(4):404-10. doi: 10.1046/j.1537-2995.2000.40040404.x.
BACKGROUND
A new automated apheresis system has recently been reported as useful in improving peripheral blood HPC collection in adults. The aim of this study has been to verify the utility of this system (AutoPBSC, COBE BCT) for standard leukapheresis and for LVL in the pediatric setting.
STUDY DESIGN AND METHODS
A prospective study was set up in 29 leukapheresis procedures carried out in 26 children with malignant diseases and body weight under 40 kg who had undergone mobilization with G-CSF or with G-CSF and chemotherapy. Leukapheresis procedures were performed under two protocols, depending on the total blood volume processed: standard leukapheresis (< or=3) and LVL (>3). The need to prime the tubing set with blood was determined, and the inlet flow rate, collection time, recruitment of CD34+ cells, CD34+ cell collection efficiency, component volume, leukapheresis cell composition, and preapheresis and postapheresis peripheral blood counts were measured. Paired t test, Spearman's correlation coefficient, and the Mann-Whitney U test were employed for statistical analysis.
RESULTS
Because of the low extracorporeal volume (167 mL) of the tubing set of the automated blood processor, priming was necessary in only 2 of 26 patients, both weighing under 10 kg. LVL showed better CD34+ cell yield (7.5 vs. 2.3 x 10(6)/kg; p = 0.047), higher recruitment (2.1 vs. 0.9; p = 0.002), and greater collection efficiency (50% vs. 33%; p = 0.005) than standard leukapheresis. No significant differences were found between groups in collection time. In LVL procedures, CD34+ cell collection efficiency and recruitment were not significantly influenced by the inlet flow rate.
CONCLUSION
The AutoPBSC is a reliable system for peripheral blood HPC collection in children mainly when used in combination with LVL. The major advantage of this software is a reduced need for priming. LVL allows better CD34+ cell collection efficiency, enhanced recruitment, and improved CD34+ cell yield.
背景
最近有报道称一种新型自动单采系统有助于提高成人外周血造血干细胞(HPC)的采集量。本研究的目的是验证该系统(AutoPBSC,COBE BCT)在儿科环境中用于标准白细胞单采和大体积白细胞单采(LVL)的效用。
研究设计与方法
对26例患有恶性疾病且体重低于40 kg的儿童进行了29次白细胞单采程序的前瞻性研究,这些儿童接受了粒细胞集落刺激因子(G-CSF)或G-CSF与化疗进行动员。根据处理的全血量,白细胞单采程序按照两种方案进行:标准白细胞单采(≤3)和LVL(>3)。确定了用血液预充管路的必要性,并测量了入口流速、采集时间、CD34+细胞募集量、CD34+细胞采集效率、成分体积、白细胞单采细胞组成以及单采前和单采后外周血细胞计数。采用配对t检验、Spearman相关系数和Mann-Whitney U检验进行统计分析。
结果
由于自动血液处理器管路的体外循环血量较低(167 mL),26例患者中仅2例体重低于10 kg的患者需要预充。与标准白细胞单采相比,LVL显示出更好的CD34+细胞产量(7.5对2.3×10(6)/kg;p = 0.047)、更高的募集量(2.1对0.9;p = 0.002)和更高的采集效率(50%对33%;p = 0.005)。两组之间在采集时间上未发现显著差异。在LVL程序中,CD34+细胞采集效率和募集量不受入口流速的显著影响。
结论
AutoPBSC是一种可靠的系统,主要在与LVL联合使用时用于儿童外周血HPC采集。该软件的主要优点是减少了预充需求。LVL可实现更好的CD34+细胞采集效率、增强的募集量以及提高的CD34+细胞产量。
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