Laboratory Rat Thrombi Lose One-Third of Their Stiffness When Exposed to Large Oscillating Shear Stress Amplitudes: Contrasting Behavior to Human Clots

U. Windberger, V. Glanz, L. Ploszczanski
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引用次数: 2

Abstract

Rats impress by their high platelet count resulting in hypercoagulability, which protects the animals from severe bleeding. However, platelets also import numerous stiff junction points into the fibrous system of a clot, also enhancing the pre-stress of the fibrin fibers, which lowers their deformability. Clot deformation is clinically important since large strains are present in the arterial tree (caused by the propagation of pressure and pulse waves), and a clot is considered “safe” when it can deform over a long range of strain amplitudes. We tested clot formation and the behavior of fully formed blood clots of laboratory rats at large sinusoidal shear stress amplitudes by rheometry and compared outcomes to human reference data. We found that fiber density (by scanning electron microscopy) and clot stiffness was pronounced compared to humans and differed with sexual dimorphism and with rat strain. Using our large amplitude oscillation (LAOS) protocol, we detected that rat clots yielded with a frustrated attempt to stiffen instead of showing the macroscopic stiffening response that is typical for human clots. We attribute this behavior to the appearance of multiple microfractures until, finally, a few leading fibers uptake the load. Rat clots also failed to align fibers in shear direction to initiate affine deformation. The rat clot phenotype differs substantially from the human one, which must be considered in research and toxicological testing. If microfractures in the fiber meshwork are concentrated in vivo, parts of a clot may break off and be washed away. However, homogenously distributed microfractures may open pores and allow the penetration of plasminogen activators. What occurs in the rat vasculature depends on the on-site clot composition.
当暴露于大振荡剪切应力振幅时,实验室大鼠血栓失去三分之一的刚度:与人类凝块的对比行为
大鼠的高血小板计数导致高凝血性,从而保护动物免受严重出血。然而,血小板也向血栓的纤维系统中输入了大量的硬连接点,这也增强了纤维蛋白纤维的预应力,从而降低了它们的可变形性。血块变形在临床上很重要,因为在动脉树中存在大的应变(由压力和脉搏波的传播引起),当血块可以在很长的应变幅度范围内变形时,它被认为是“安全的”。我们通过流变学测试了实验室大鼠在大正弦剪切应力幅下的血栓形成和完全形成的血栓行为,并将结果与人类参考数据进行了比较。我们发现纤维密度(通过扫描电子显微镜)和凝块硬度与人类相比明显,与两性二态性和大鼠品系不同。使用我们的大振幅振荡(老挝)方案,我们检测到大鼠凝块产生了一个受挫的硬化尝试,而不是表现出典型的人类凝块的宏观硬化反应。我们将这种行为归因于多个微断裂的出现,直到最后,一些主要纤维承担了载荷。大鼠凝块也不能使纤维沿剪切方向排列从而引发仿射变形。大鼠血块表型与人类血块表型有很大不同,在研究和毒理学试验中必须考虑到这一点。如果纤维网的微裂缝在体内集中,部分凝块可能会断裂并被冲走。然而,均匀分布的微裂缝可能打开孔隙,允许纤溶酶原激活剂渗透。在大鼠血管系统中发生的情况取决于现场的凝块组成。
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来源期刊
Journal of International Translational Medicine
Journal of International Translational Medicine MEDICINE, RESEARCH & EXPERIMENTAL-
自引率
0.00%
发文量
317
审稿时长
8 weeks
期刊介绍: Journal of International Translational Medicine (JITM, ISSN 2227-6394), founded in 2012, is an English academic journal published by Journal of International Translational Medicine Co., Ltd and sponsored by International Fderation of Translational Medicine. JITM is an open access journal freely serving to submit, review, publish, read and download full text and quote. JITM is a quarterly publication with the first issue published in March, 2013, and all articles published in English are compiled and edited by professional graphic designers according to the international compiling and editing standard. All members of the JITM Editorial Board are the famous international specialists in the field of translational medicine who come from twenty different countries and areas such as USA, Britain, France, Germany and so on.
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