Tournois Claire, Pignon Bernard, Sevestre Marie-Antoinette, Djerada Zoubir, Capiod Jean-Claude, Poitevin Gaël, Delloup Anne-Marie, Nguyen Philippe
Laboratoire d'Hématologie, CHU Robert Debré, Reims.
EA-3801, SFR CAP-Santé, Université de Reims Champagne-Ardenne, Reims.
Transfusion. 2015 Nov;55(11):2692-701. doi: 10.1111/trf.13203. Epub 2015 Jul 29.
Cell therapy has been proposed as a salvage limb procedure in critical limb ischemia (CLI). Autologous cell therapy products (CTP) are obtained from patients with advanced peripheral arterial disease to be injected at the site of ischemia. Thrombogenicity of CTPs has not yet been assessed. The objectives were: 1) to assess thrombotic risk in candidates for cell therapy, 2) to evaluate two different CTPs in terms of thrombogenic potential, and 3) to evaluate clinical thrombotic events.
In this ancillary study of a Phase I and II clinical trial, bone marrow (BM)-CTPs (n = 20) and CTPs obtained by cytapheresis (peripheral blood [PB]-CTPs; n = 20) were compared. Inflammatory and coagulation markers were measured at baseline and 24 hours after CTP implantation. CTP cell content and tissue factor (TF) expression (mRNA and protein) were analyzed. Thrombin generation assessed CTP-related thrombogenicity.
All patients presented cardiovascular risk factors. At baseline, the patients' biologic profile was characterized by high levels of fibrinogen, C-reactive protein (CRP), D-dimer, interleukin (IL)-6, and plasmatic TF, whereas IL-10 was low. Although different in terms of cell composition, both BM- and PB-CTPs support low thrombin generation. Twenty-four hours after implantation, biologic markers remained stable in the PB-CTP group, except for IL-6. In the BM-CTP group, a significant increase of IL-6 but also of CRP and D-dimer was observed. Clinically, one single patient developed deep vein thrombosis 24 hours after the implantation of autologous PB-CTP.
CTPs supported low thrombin generation and were well tolerated after calf implantation.
细胞治疗已被提议作为严重肢体缺血(CLI)的一种保肢治疗方法。自体细胞治疗产品(CTP)取自晚期外周动脉疾病患者,注射至缺血部位。CTP的血栓形成性尚未得到评估。本研究的目的是:1)评估细胞治疗候选者的血栓形成风险;2)评估两种不同CTP的血栓形成潜力;3)评估临床血栓事件。
在一项I期和II期临床试验的辅助研究中,对骨髓(BM)-CTP(n = 20)和通过血细胞分离术获得的CTP(外周血[PB]-CTP;n = 20)进行了比较。在CTP植入前及植入后24小时测量炎症和凝血标志物。分析CTP的细胞含量和组织因子(TF)表达(mRNA和蛋白质)。凝血酶生成情况评估CTP相关的血栓形成性。
所有患者均有心血管危险因素。基线时,患者的生物学特征表现为纤维蛋白原、C反应蛋白(CRP)、D-二聚体、白细胞介素(IL)-6和血浆TF水平升高,而IL-10水平较低。尽管BM-CTP和PB-CTP在细胞组成方面有所不同,但二者均支持低水平的凝血酶生成。植入后24小时,PB-CTP组的生物学标志物保持稳定,但IL-6除外。在BM-CTP组,观察到IL-6、CRP和D-二聚体均显著升高。临床上,1例患者在植入自体PB-CTP后24小时发生了深静脉血栓形成。
CTP支持低水平的凝血酶生成,在小腿植入后耐受性良好。