Combined drug anti-deep vein thrombosis therapy based on platelet membrane biomimetic targeting nanotechnology

IF 12.8 1区医学 Q1 ENGINEERING, BIOMEDICAL Biomaterials Pub Date : 2024-06-17 DOI:10.1016/j.biomaterials.2024.122670

Hang Xiao , Xiangrui Meng , Songtao Li , Zhiyong Li , Shuo Fang , Yaonan Wang , Jing Li , Jianyuan Tang , Li Ma

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Abstract

After orthopedic surgeries, such as hip replacement, many patients are prone to developing deep vein thrombosis (DVT), which in severe cases can lead to fatal pulmonary embolism or major bleeding. Clinical intervention with high-dose anticoagulant therapy inevitably carries the risk of bleeding. Therefore, a targeted drug delivery system that adjusts local DVT lesions and potentially reduces drug dosage and toxic side effects important. In this study, we developed a targeted drug delivery platelet-derived nanoplatform (AMSNP@PM-rH/A) for DVT treatment that can simultaneously deliver a direct thrombin inhibitor (DTI) Recombinant Hirudin (rH), and the Factor Xa inhibitor Apixaban (A) by utilizing Aminated mesoporous silica nanoparticles (AMSNP). This formulation exhibits improved biocompatibility and blood half-life and can effectively eliminate deep vein thrombosis lesions and achieve therapeutic effects at half the dosage. Furthermore, we employed various visualization techniques to capture the targeted accumulation and release of a platelet membrane (PM) coating in deep vein thrombosis and explored its potential targeting mechanism.

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基于血小板膜生物仿生靶向纳米技术的抗深静脉血栓联合药物疗法。

许多患者在接受髋关节置换等骨科手术后，容易出现深静脉血栓（DVT），严重时可导致致命的肺栓塞或大出血。使用大剂量抗凝疗法进行临床干预不可避免地会有出血的风险。因此，一种能调整局部深静脉血栓病变并有可能减少药物剂量和毒副作用的靶向给药系统非常重要。在这项研究中，我们开发了一种用于深静脉血栓治疗的靶向给药血小板衍生纳米平台（AMSNP@PM-rH/A），该平台可利用Aminated mesoporous silica nanoparticles (AMSNP)同时给药直接凝血酶抑制剂（DTI）重组水蛭素（rH）和因子Xa抑制剂阿哌沙班（A）。这种制剂具有更好的生物相容性和血液半衰期，能有效消除深静脉血栓病变，并以一半的剂量达到治疗效果。此外，我们还采用了多种可视化技术来捕捉血小板膜（PM）涂层在深静脉血栓中的靶向积聚和释放，并探索了其潜在的靶向机制。

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来源期刊

Biomaterials 工程技术-材料科学：生物材料

CiteScore

26.00

自引率

2.90%

发文量

565

审稿时长

46 days

期刊介绍： Biomaterials is an international journal covering the science and clinical application of biomaterials. A biomaterial is now defined as a substance that has been engineered to take a form which, alone or as part of a complex system, is used to direct, by control of interactions with components of living systems, the course of any therapeutic or diagnostic procedure. It is the aim of the journal to provide a peer-reviewed forum for the publication of original papers and authoritative review and opinion papers dealing with the most important issues facing the use of biomaterials in clinical practice. The scope of the journal covers the wide range of physical, biological and chemical sciences that underpin the design of biomaterials and the clinical disciplines in which they are used. These sciences include polymer synthesis and characterization, drug and gene vector design, the biology of the host response, immunology and toxicology and self assembly at the nanoscale. Clinical applications include the therapies of medical technology and regenerative medicine in all clinical disciplines, and diagnostic systems that reply on innovative contrast and sensing agents. The journal is relevant to areas such as cancer diagnosis and therapy, implantable devices, drug delivery systems, gene vectors, bionanotechnology and tissue engineering.