Vadhan-Raj Saroj, Kavanagh John J, Freedman Ralph S, Folloder Jody, Currie Laura M, Bueso-Ramos Carlos, Verschraegen Claire F, Narvios Aida B, Connor Jerome, Hoots William K, Broemeling Lyle D, Lichtiger Benjamin
Department of Bioimmunotherapy, University of Texas M D Anderson Cancer Center, Houston, TX 77030, USA.
Lancet. 2002 Jun 22;359(9324):2145-52. doi: 10.1016/S0140-6736(02)09090-6.
The increasing demand for platelet products, and concern over the transfusion-associated risks of alloimmunisation and infections, have motivated a search for improved methods aimed at keeping exposure to donor antigens to a minimum. Transfusion of thrombopoietin-derived autologous platelets might provide an alternative strategy. We aimed to compare the safety and efficacy of this strategy with that of transfusion with fresh allogeneic platelets in patients with severe chemotherapy-induced thrombocytopenia.
20 patients with gynaecological malignancies were treated with two doses of 1.2 microg/kg recombinant human thrombopoietin. From day 12, we aimed to collect 50 units of platelets from these patients by plateletpheresis. Harvested platelets were cryopreserved in ThromboSol and 2% dimethyl sulfoxide (DMSO) for use in subsequent autologous transfusions. Patients then received carboplatin for up to six cycles. Patients were randomly assigned to group A (n=10), which received allogeneic fresh platelets at the first instance of severe thrombocytopenia (platelet count <15,000/microL) and then autologous cryopreserved platelets at the next, or to group B (n=10), which received first autologous and then allogeneic platelets. In subsequent cycles, all patients received autologous platelets while available. The primary endpoint was platelet count increment corrected for the number of platelets transfused and the patients' body-surface area. Analysis was by intention to treat.
Treatment with recombinant human thrombopoietin significantly increased platelet count (median 2.3-fold [range 1.5-3.3], p<0.0001) in all but one patient in group A. The median number of platelets collected per patient was 53 units (14-66) in two collections (one to three). There was no significant difference in the corrected platelet count increments (CCIs) between the 19 paired transfusions of cryopreserved autologous platelets and fresh allogeneic platelets (median 1-h CCI 15.7 vs 19.8, p=0.398; median 24-h CCI 13.0 vs 18.1, p=0.398). 14 of the 19 patients had a good response (1-h CCI >7.5) to their first transfusion of allogeneic platelets. By contrast, all patients had a good response to their first transfusion of autologous platelets (p=0.063). Moreover, no significant decrease in the CCIs (p=0.405) was seen over six cycles after autologous platelet transfusions (n=63). No transfusion reactions or any serious adverse event was recorded during autologous platelet transfusions.
Recombinant human thrombopoietin facilitated collection of multiple units of platelets, which could be cryopreserved and reinfused to counteract severe thrombocytopenia during multicycle chemotherapy. Transfusion of autologous cryopreserved platelets derived from recombinant human thrombopoietin can provide a viable strategy to minimise the risks of allogeneic platelet transfusions and provide a long-lasting supply of platelet support.
对血小板制品需求的不断增加,以及对输血相关的同种免疫和感染风险的担忧,促使人们寻求改进方法,旨在将供体抗原暴露降至最低。输注血小板生成素衍生的自体血小板可能提供一种替代策略。我们旨在比较该策略与输注新鲜同种异体血小板对严重化疗诱导的血小板减少症患者的安全性和有效性。
20例妇科恶性肿瘤患者接受两剂1.2μg/kg重组人血小板生成素治疗。从第12天起,我们旨在通过血小板单采从这些患者中采集50单位血小板。采集的血小板在血栓溶解剂和2%二甲基亚砜(DMSO)中冷冻保存,用于后续自体输血。患者随后接受多达六个周期的卡铂治疗。患者被随机分配到A组(n = 10),在首次出现严重血小板减少(血小板计数<15,000/μL)时接受同种异体新鲜血小板,然后在下一次接受自体冷冻保存血小板;或B组(n = 10),先接受自体血小板,然后接受同种异体血小板。在随后的周期中,所有患者在有自体血小板时均接受自体血小板。主要终点是校正了输注血小板数量和患者体表面积后的血小板计数增加值。分析采用意向性治疗。
除A组1例患者外,重组人血小板生成素治疗使所有患者的血小板计数显著增加(中位数为2.3倍[范围1.5 - 3.3],p<0.0001)。每位患者在两次采集(一至三次)中采集的血小板中位数为53单位(14 - 66)。19对冷冻保存的自体血小板和新鲜同种异体血小板输血的校正血小板计数增加值(CCI)之间无显著差异(1小时中位数CCI 15.7对19.8,p = 0.398;24小时中位数CCI 13.0对18.1,p = 0.398)。19例患者中有14例对首次输注同种异体血小板有良好反应(1小时CCI>7.5)。相比之下,所有患者对首次输注自体血小板均有良好反应(p = 0.063)。此外,自体血小板输血(n = 63)六个周期后CCI无显著下降(p = 0.405)。自体血小板输血期间未记录到输血反应或任何严重不良事件。
重组人血小板生成素有助于采集多个单位的血小板,这些血小板可冷冻保存并重新输注,以应对多周期化疗期间的严重血小板减少。输注源自重组人血小板生成素的自体冷冻保存血小板可提供一种可行的策略,以尽量减少同种异体血小板输血的风险,并提供长期的血小板支持供应。
