Mechanobiology of Platelets: Techniques to Study the Role of Fluid Flow and Platelet Retraction Forces at the Micro- and Nano-Scale

机译：血小板的力学生物学：在微观和纳米尺度上研究流体流动和血小板收缩力作用的技术

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Coagulation involves a complex set of events that are important in maintaining hemostasis. Biochemical interactions are classically known to regulate the hemostatic process, but recent evidence has revealed that mechanical interactions between platelets and their surroundings can also play a substantial role. Investigations into platelet mechanobiology have been challenging however, due to the small dimensions of platelets and their glycoprotein receptors. Platelet researchers have recently turned to microfabricated devices to control these physical, nanometer-scale interactions with a higher degree of precision. These approaches have enabled exciting, new insights into the molecular and biomechanical factors that affect platelets in clot formation. In this review, we highlight the new tools used to understand platelet mechanobiology and the roles of adhesion, shear flow, and retraction forces in clot formation.

机译：凝血涉及一系列复杂的事件，对维持止血很重要。众所周知，生化相互作用可以调节止血过程，但最近的证据表明，血小板与其周围环境之间的机械相互作用也可以发挥重要作用。然而，由于血小板及其糖蛋白受体的尺寸小，对血小板力学生物学的研究具有挑战性。血小板研究人员最近已转向微型设备，以更高的精度控制这些物理的，纳米级的相互作用。这些方法使人们对影响血凝块形成中的血小板的分子和生物力学因素有了令人振奋的新见解。在这篇综述中，我们重点介绍了用于了解血小板力学生物学以及粘附，剪切流和回缩力在血凝块形成中作用的新工具。

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期刊名称 International Journal of Molecular Sciences
作者
Shirin Feghhi; Nathan J. Sniadecki;
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作者单位

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年(卷),期 2011(12),12
年度 2011
页码 9009–9030
总页数 22
原文格式 PDF
正文语种
中图分类分子生物学;
关键词
platelet aggregation platelet forces shear flow BioMEMS microfluidics;

机译：血小板聚集;血小板力;剪切流;BioMEMS;微流体;

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专利

1. Mechanobiology of Platelets: Techniques to Study the Role of Fluid Flow and Platelet Retraction Forces at the Micro- and Nano-Scale [J] . Nathan J. Sniadecki, Shirin Feghhi International Journal of Molecular Sciences . 2011,第12期

机译：血小板的力学生物学：在微米和纳米尺度上研究流体流动和血小板收缩力作用的技术
2. A rapid flow cytometric technique for the detection of platelet-monocyte complexes, activated platelets and platelet-derived microparticles. [J] . Pearson L, Thom J, Adams M, International journal of laboratory hematology . 2009,第4期

机译：一种快速流式细胞仪技术，用于检测血小板-单核细胞复合物，活化的血小板和血小板衍生的微粒。
3. The Existence of a Platelet-Activating Factor (Paf-Acether)-Like Substance in Blister Fluid Derived from Patients with Bullous Pemphigoid as Demonstrated by Human Platelet Aggregation Techniques [J] . KEIJI OKUBO, TADASHI KARASHIMA, HIROSHI HACHISUKA, Kurume Medical Journal . 1990,第4期

机译：人类血小板聚集技术证实，来自大疱性类天疱疮患者的水疱液中存在血小板活化因子（Paf-Acether）样物质的存在
4. The Role of Thrombin, Fibrinogen, and Fibronectin on Platelet Clot Retraction Forces Analyzed Using Microposts [C] . Xin M. Liang, Dayong Gao, Nathan J, ASME summer bioengineering conference;SBC2010 . 2010

机译：凝血酶，纤维蛋白原和纤连蛋白在使用微管柱分析血小板凝集力中的作用
5. Effects of fluid shear stress on platelets: alpha(IIb)beta(3) integrin signaling and procoagulant properties in the presence of platelet antagonists. [D] . Haga, Jason Hideyo. 2001

机译：流体剪切应力对血小板的影响：在存在血小板拮抗剂的情况下，α（IIb）β（3）整联蛋白信号传导和促凝特性。
6. Contractile forces in platelet aggregates under microfluidic shear gradients reflect platelet inhibition and bleeding risk [O] . Lucas H. Ting, Shirin Feghhi, Nikita Taparia, -1

机译：微流体剪切梯度下血小板聚集体的收缩力反映了血小板抑制和出血风险
7. Mechanobiology of Platelets: Techniques to Study the Role of Fluid Flow and Platelet Retraction Forces at the Micro- and Nano-Scale [O] . Feghhi, Shirin, Sniadecki, Nathan J. 2011

机译：血小板的力学生物学：在微观和纳米尺度上研究流体流动和血小板收缩力作用的技术

Mechanobiology of Platelets: Techniques to Study the Role of Fluid Flow and Platelet Retraction Forces at the Micro- and Nano-Scale

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