Antithrombotic coating with sheltered positive charges prevents contact activation by controlling factor XII–biointerface binding

IF 37.2 1区 材料科学 Q1 CHEMISTRY, PHYSICAL
Haifeng Ji, Kai Yu, Srinivas Abbina, Lin Xu, Tao Xu, Shengjun Cheng, Sreeparna Vappala, S. M. Amin Arefi, Md Mohosin Rana, Irina Chafeeva, Matthew Drayton, Kevin Gonzalez, Yun Liu, Dana Grecov, Edward M. Conway, Weifeng Zhao, Changsheng Zhao, Jayachandran N. Kizhakkedathu
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Abstract

Antithrombotic surfaces that prevent coagulation activation without interfering with haemostasis are required for blood-contacting devices. Such materials would restrain device-induced thrombogenesis and decrease the need for anticoagulant use, thereby reducing unwanted bleeding. Here, by optimizing the interactions with coagulation factor XII rather than preventing its surface adsorption, we develop a substrate-independent antithrombotic polymeric coating with sheltered positive charges. The antithrombic properties of the coating were demonstrated in vitro with human blood and in vivo using a carotid artery–jugular vein shunt model in rabbits. The coating exhibits a strong interaction with factor XII, but results in a low reciprocal activation of the contact pathway that triggers clot formation. These findings contradict the prevailing strategy of designing antithrombotic materials through protein-repelling surfaces. Overall, the polymeric coating we describe can benefit most blood-contacting devices and is a useful engineering guideline for designing surfaces with improved antithrombotic properties.

Abstract Image

带有正电荷的抗血栓涂层通过控制因子 XII 与生物界面的结合防止接触激活
与血液接触的设备需要既能防止凝血活化又不影响止血的抗血栓表面。这种材料可抑制装置引起的血栓形成,减少抗凝剂的使用,从而减少不必要的出血。在这里,我们通过优化与凝血因子 XII 的相互作用,而不是阻止其表面吸附,开发出了一种不依赖于基底的抗血栓聚合物涂层,该涂层带有屏蔽正电荷。该涂层的抗血栓特性在体外用人血和体内用兔子颈动脉-颈静脉分流模型进行了验证。涂层与 XII 因子的相互作用很强,但引发血栓形成的接触途径的相互激活程度却很低。这些发现与通过蛋白质排斥表面设计抗血栓材料的主流策略相矛盾。总之,我们所描述的聚合物涂层可使大多数与血液接触的设备受益,是设计具有更好抗血栓性能的表面的有用工程指南。
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来源期刊
Nature Materials
Nature Materials 工程技术-材料科学:综合
CiteScore
62.20
自引率
0.70%
发文量
221
审稿时长
3.2 months
期刊介绍: Nature Materials is a monthly multi-disciplinary journal aimed at bringing together cutting-edge research across the entire spectrum of materials science and engineering. It covers all applied and fundamental aspects of the synthesis/processing, structure/composition, properties, and performance of materials. The journal recognizes that materials research has an increasing impact on classical disciplines such as physics, chemistry, and biology. Additionally, Nature Materials provides a forum for the development of a common identity among materials scientists and encourages interdisciplinary collaboration. It takes an integrated and balanced approach to all areas of materials research, fostering the exchange of ideas between scientists involved in different disciplines. Nature Materials is an invaluable resource for scientists in academia and industry who are active in discovering and developing materials and materials-related concepts. It offers engaging and informative papers of exceptional significance and quality, with the aim of influencing the development of society in the future.
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