银纳米颗粒对溶血、血小板功能和凝血的影响。

Q1 Engineering

Nanobiomedicine Pub Date : 2014-01-01 DOI:10.5772/59346

Julie Laloy, Valentine Minet, Lutfiye Alpan, François Mullier, Sonja Beken, Olivier Toussaint, Stéphane Lucas, Jean-Michel Dogné

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引用次数: 79

摘要

银纳米粒子(Ag NPs)因其抗菌谱大而越来越多地应用于生物医学领域。关于Ag NPs在不引起对血液元素的不良影响的情况下执行其所需功能的能力的文献数据非常有限和矛盾。我们研究了Ag NPs对红细胞完整性、血小板功能和凝血功能的影响。用分光光度法测定血红蛋白释放量来评估红细胞完整性。采用透射电镜和扫描电镜观察血小板粘附和聚集情况。校正后的凝血酶生成试验用于研究对凝血级联的影响。我们证明了Ag NPs诱导溶血。它们也增加血小板粘附，但对血小板聚集没有任何影响。最后，它们还具有促凝潜能。综合以上试验数据，无效应浓度为5 μg/mL。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Impact of Silver Nanoparticles on Haemolysis, Platelet Function and Coagulation.

查看原文本刊更多论文

Impact of Silver Nanoparticles on Haemolysis, Platelet Function and Coagulation.

Silver nanoparticles (Ag NPs) are increasingly used in biomedical applications because of their large antimicrobial spectrum. Data in the literature on the ability of Ag NPs to perform their desired function without eliciting undesirable effects on blood elements are very limited and contradictory. We studied the impact of Ag NPs on erythrocyte integrity, platelet function and blood coagulation. Erythrocyte integrity was assessed by spectrophotometric measurement of haemoglobin release. Platelet adhesion and aggregation was determined by light transmission aggregometry and scanning electron microscopy. The calibrated thrombin generation test was used to study the impact on coagulation cascade. We demonstrated that Ag NPs induced haemolysis. They also increase platelet adhesion without having any impact on platelet aggregation. Finally, they also had procoagulant potential. Bringing all data from these tests together, the no observed effect concentration is 5 μg/mL.

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来源期刊

Nanobiomedicine Biochemistry, Genetics and Molecular Biology-Biotechnology

CiteScore

6.80

自引率

0.00%

发文量

审稿时长

14 weeks

期刊介绍： Nanobiomedicine is an international, peer-reviewed, open access scientific journal that publishes research in nanotechnology as it interfaces with fundamental studies in biology, as well as its application to the fields of medicine. Nanobiomedicine covers all key aspects of this research field, including, but not limited to, bioengineering, biophysics, physical and biological chemistry, and physiology, as well as nanotechnological applications in diagnostics, therapeutic application, preventive medicine, drug delivery, and monitoring of human disease. Additionally, theoretical and modeling studies covering the nanobiomedicine fields will be considered. All submitted articles considered suitable for Nanobiomedicine are subjected to rigorous peer review to ensure the highest levels of quality. The review process is carried out as quickly as possible to minimize any delays in the online publication of articles. Submissions are encouraged on all topics related to nanobiomedicine, and its clinical applications including but not limited to: Nanoscale-structured biomaterials, Nanoscale bio-devices, Nanoscale imaging, Nanoscale drug delivery, Nanobiotechnology, Nanorobotics, Nanotoxicology, Nanoparticles, Nanocarriers, Nanofluidics, Nanosensors (nanowires, nanophotonics), Nanosurgery (dermatology, gastroenterology, ophthalmology, etc), Nanocarriers commercialization of nanobiomedical technologies, Market trends in the nanobiomedicine space, Ethics and regulatory aspects of nanobiomedicine approval, New perspectives of nanobiomedicine in clinical diagnostics, BioMEMS, Nano-coatings, Plasmonics, Nanoscale visualization.