A Pilot Study Evaluating the Ex Vivo Effects of Varying Factor VIII Concentration on Clot Kinetics and Architecture in Patients With Haemophilia A

IF 0.5 Q4 HEMATOLOGY
Chanel Morris, Johan Potgieter, Janette Bester
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Abstract

Background Haemophilia A (HA) is a bleeding disorder, due to a deficiency in factor VIII (FVIII). These patients are unable to produce a stable fibrin clot in the propagation phase of coagulation as they do not generate sufficient thrombin. The primary treatment for HA in South Africa remains replacement therapy with standard half-life FVIII clotting factor concentrate, aimed at reducing bleeding episodes. Objectives To evaluate the effect of varying concentrations of FVIII on whole blood (WB) clot architecture and kinetics during clot formation in patients with severe HA. Design A cross-sectional study where blood from 20 patients with HA was exposed to FVIII ex vivo and compared to a control group of 20 healthy individuals. Methods Scanning electron microscopy (SEM) was used to study WB clot architecture and thromboelastography ® (TEG ® ) was used to quantify WB clot kinetics. Results Scanning electron microscopy studies revealed that patients with HA have sparse, disorganized fibrin networks with limited crosslinking and red blood cells (RBCs) stacked in rouleaux formation. Haemophilia A blood spiked to a 10 to 15 IU/dL FVIII concentration showed improvements in the organisation of the fibrin network with some altered RBCs. In addition, blood spiked to a 30 to 35 IU/dL FVIII concentration showed an increase in fibrin formation with normal RBCs. Thromboelastography ® showed that patients with HA had an increased clot initiation time and decreased clot strength. When spiked to a 10 to 15 IU/dL FVIII concentration the clot kinetic profile showed normalization. However, an increase in FVIII concentration higher than 30 IU/dL showed altered clot architecture and kinetics. Conclusion Based on the current study, FVIII levels at 10 to 15 IU/dL improved clot kinetics but did not normalize the architecture. It may be sufficient for prevention of haemorrhages. Factor VIII levels at 30 to 35 IU/dL resulted in rapid but weaker clot formation. However, at this concentration the clot architecture was normalised which is important for haemostasis. Here it was also evident that the findings of these two modalities (TEG ® and SEM) should not be separated but interpreted in conjunction with each other.
一项评估不同因子VIII浓度对A型血友病患者凝块动力学和结构的体外影响的初步研究
血友病A (HA)是一种出血性疾病,由于缺乏因子VIII (FVIII)。这些患者不能在凝血增殖阶段产生稳定的纤维蛋白凝块,因为他们不能产生足够的凝血酶。南非HA的主要治疗方法仍然是使用标准半衰期FVIII凝血因子浓缩物的替代疗法,旨在减少出血发作。目的评价不同浓度FVIII对严重HA患者血栓形成过程中全血(WB)凝块结构和动力学的影响。设计一项横断面研究,将20名HA患者的血液在体外暴露于FVIII,并与20名健康个体的对照组进行比较。方法采用扫描电子显微镜(SEM)研究WB血块结构,采用血栓弹性成像(TEG®)定量分析WB血块动力学。结果扫描电镜研究显示,HA患者的纤维蛋白网络稀疏,无组织,交联有限,红细胞呈rouleaux状堆积。血友病A血液中FVIII浓度达到10至15 IU/dL时,纤维蛋白网络的组织得到改善,红细胞发生改变。此外,血液中FVIII浓度达到30至35 IU/dL时,与正常红细胞相比,纤维蛋白形成增加。血栓弹性成像显示,HA患者凝块起始时间增加,凝块强度降低。当FVIII浓度达到10 ~ 15 IU/dL时,血凝块动力学曲线恢复正常。然而,当FVIII浓度高于30 IU/dL时,凝块结构和动力学发生改变。根据目前的研究,10至15 IU/dL的FVIII水平改善了凝块动力学,但并没有使结构正常化。它可能足以预防出血。因子VIII水平在30至35 IU/dL导致快速但较弱的凝块形成。然而,在这个浓度下,凝块结构正常化,这对止血很重要。这里也很明显,这两种模式(TEG®和SEM)的发现不应该分开,而应该相互结合来解释。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Plasmatology
Plasmatology HEMATOLOGY-
CiteScore
1.10
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