Understanding blood clot mechanical stability: the role of factor XIIIa-mediated fibrin crosslinking in rupture resistance

IF 3.4 3区医学 Q2 HEMATOLOGY

Research and Practice in Thrombosis and Haemostasis Pub Date : 2025-05-01 DOI:10.1016/j.rpth.2025.102871

Ranjini K. Ramanujam , Yona Lavi , Lauren G. Poole , John L. Bassani , Valerie Tutwiler

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Abstract

Background

Embolization, or rupture of a thrombus, is a complication of thrombosis that increases mortality risk by up to 30%. Fibrin provides mechanical and structural stability to blood clots. Activated factor (F)XIIIa (FXIIIa), a transglutaminase, catalyzes the formation of isopeptide bonds between fibrin fibers and is a crucial regulator of the mechanical properties of clots. FXIIIa deficiency is associated with an increased risk of bleeding and embolization. Although the mechanical response of clots is known to be influenced by fibrin crosslinking, its specific implications for the clinical outcomes of embolization remain unclear.

Objectives

Here, we characterized the influence of fibrin crosslinking on mechanical toughness (rupture resistance).

Methods

The extent of crosslinking was altered using iodoacetamide, which inhibits the activity of FXIIIa. Single-edge notch fracture tests were performed to examine fibrin strength, extensibility, and toughness under a constant strain rate. Viscoelastic mechanics was assessed using rheology. Confocal and scanning electron microscopy were utilized to quantify the fibrin network structure as a function of fibrin crosslinking.

Results

Our results revealed that increasing iodoacetamide concentration (0-0.1 mM) decreased toughness (8.6-2.3 N/m; P < .01) and the maximum force prior to rupture (0.09-0.06 N; P < .01), and the extensibility of the macroscale network remained unaltered (P > .05), indicating that fibrin crosslinking toughens the clot. As anticipated, inhibition of fibrin crosslinking resulted in reduced storage modulus (stiffness) of clots (50-11 Pa; P < .0001). Although inhibition of FXIIIa crosslinking altered the fibrin structure by reducing fibrin density and fiber length, these changes were not pronounced.

Conclusion

These findings reveal a significant contribution of fibrin crosslinking to the fracture toughness of fibrin clots, suggesting a role in the propensity for embolization.

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了解血凝块的机械稳定性：xiia因子介导的纤维蛋白交联在抗破裂中的作用

背景：血栓栓塞或血栓破裂是血栓形成的一种并发症，可使死亡风险增加30%。纤维蛋白为血凝块提供机械和结构稳定性。活化因子(F)XIIIa （FXIIIa）是一种谷氨酰胺转酶，催化纤维蛋白纤维之间异肽键的形成，是凝块力学特性的关键调节剂。FXIIIa缺乏与出血和栓塞风险增加有关。虽然已知凝块的机械反应受到纤维蛋白交联的影响，但其对栓塞临床结果的具体含义仍不清楚。目的研究纤维蛋白交联对材料机械韧性（抗断裂性）的影响。方法用碘乙酰胺抑制FXIIIa活性，改变交联程度。进行了单刃缺口断裂试验，以检测恒定应变速率下的纤维蛋白强度、延伸性和韧性。粘弹性力学采用流变学方法进行评估。利用共聚焦显微镜和扫描电镜对纤维蛋白网络结构作为纤维蛋白交联的功能进行量化。结果碘乙酰胺浓度增加（0 ~ 0.1 mM），韧性降低(8.6 ~ 2.3 N/m；P & lt;.01)和破裂前的最大力(0.09-0.06 N；P & lt;.01)，宏观尺度网络的可扩展性保持不变(P >；0.05)，表明纤维蛋白交联使凝块变硬。正如预期的那样，抑制纤维蛋白交联导致血块的储存模量（刚度）降低(50-11 Pa；P & lt;。)。虽然抑制FXIIIa交联可以通过降低纤维蛋白密度和纤维长度来改变纤维蛋白结构，但这些变化并不明显。结论这些发现揭示了纤维蛋白交联对纤维蛋白凝块断裂韧性的重要贡献，提示了栓塞倾向的作用。

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