用于骨科骨折手术的纳米结构钛板上具有生物相容性材料的抗菌免疫阴性涂层

Antibacterial Immunonegative Coating with Biocompatible Materials on a Nanostructured Titanium Plate for Orthopedic Bone Fracture Surgery.

作者信息

Lee Jeong-Won, Cho Jung-Ah, Roh Yoo Jin, Han Min Ae, Jeong Je-Un, Subramanian Sivakumar Allur, Kang Eunho, Yeom Jiwoo, Lee Chang-Hun, Kim Sung Jae

机构信息

Department of Mechanical Engineering, Chosun University, Gwangju 61452, Republic of Korea.

Department of Orthopedic Surgery, Dongtan Sacred Hospital, Hallym University, Hwaseong, Republic of Korea.

出版信息

Biomater Res. 2024 Sep 11;28:0070. doi: 10.34133/bmr.0070. eCollection 2024.

DOI:10.34133/bmr.0070

PMID:39262834

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11387750/

Abstract

Periprosthetic infections resulting from bacterial biofilm formation following surgical bone fracture fixation present important clinical challenges. Conventional orthopedic implant materials, such as titanium, are prone to biofilm formation. This study introduces a novel surface for orthopedic titanium plates, optimized for clinical application in human bone fractures. Leveraging nanostructure-based surface coating technology, the plate achieves an antibacterial/immunonegative surface using biocompatible materials, including poloxamer 407, epigallocatechin gallate, and octanoic acid. These materials demonstrate high biocompatibility and thermal stability after autoclaving. The developed plate, named antibacterial immunonegative surface, releases antibacterial agents and prevents adhesion between human tissue and metal surfaces. Antibacterial immunonegative surface plates exhibit low cell toxicity, robust antibacterial effects against pathogens such as and , high resistance to biofilm formation on the implant surface and surrounding tissues, and minimal immune reaction in a rabbit femoral fracture model. This innovation holds promise for addressing periprosthetic infections and improving the performance of orthopedic implants.

摘要

手术性骨折固定后因细菌生物膜形成导致的假体周围感染带来了重要的临床挑战。传统的骨科植入材料，如钛，容易形成生物膜。本研究引入了一种新型的骨科钛板表面，针对人类骨折的临床应用进行了优化。利用基于纳米结构的表面涂层技术，该钛板使用包括泊洛沙姆407、表没食子儿茶素没食子酸酯和辛酸在内的生物相容性材料实现了抗菌/免疫阴性表面。这些材料在高压灭菌后表现出高生物相容性和热稳定性。所开发的钛板名为抗菌免疫阴性表面，可释放抗菌剂并防止人体组织与金属表面之间的粘连。抗菌免疫阴性表面钛板在兔股骨骨折模型中表现出低细胞毒性、对诸如[具体病原体1]和[具体病原体2]等病原体具有强大的抗菌作用、对植入物表面和周围组织的生物膜形成具有高抗性以及最小的免疫反应。这一创新有望解决假体周围感染并提高骨科植入物的性能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d94a/11387750/6e8e1c56a66b/bmr.0070.fig.001.jpg

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用于骨科骨折手术的纳米结构钛板上具有生物相容性材料的抗菌免疫阴性涂层

Antibacterial Immunonegative Coating with Biocompatible Materials on a Nanostructured Titanium Plate for Orthopedic Bone Fracture Surgery.

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