Biocompatibility analysis of an electrically-activated silver-based antibacterial surface system for medical device applications

Meghan E. Samberg; Zhuo Tan; Nancy A. Monteiro-Riviere; Paul E. Orndorff; Rohan A. Shirwaiker

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Biocompatibility analysis of an electrically-activated silver-based antibacterial surface system for medical device applications

机译：用于医疗设备的电活化银基抗菌表面系统的生物相容性分析

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The costs associated with the treatment of medical device and surgical site infections are a major cause of concern in the global healthcare system. To prevent transmission of such infections, a prophylactic surface system that provides protracted release of antibacterial silver ions using low intensity direct electric current (LIDC; 28 μA system current at 6 V) activation has been recently developed. To ensure the safety for future in vivo studies and potential clinical applications, this study assessed the biocompatibility of the LIDC-activated inter-digitated silver electrodes-based surface system; in vitro toxicity to human epidermal keratinocytes, human dermal fibroblasts, and normal human osteoblasts, and antibacterial efficacy against Staphylococcus aureus and Esche-richia coli was evaluated. The study concluded that the technological applications of the surface system for medical devices and surgical tools, which contact human tissues for less than 1.5 h, are expected to be self-sterilizing without causing toxicity in vivo.

机译：与医疗器械和手术部位感染的治疗相关的费用是全球医疗保健系统关注的主要原因。为了防止此类感染的传播，最近开发了一种预防性表面系统，该系统使用低强度直流电（LIDC； 6 V时的系统电流为28μA）激活，提供抗菌银离子的持久释放。为了确保未来体内研究和潜在临床应用的安全性，本研究评估了LIDC激活的指间银电极表面系统的生物相容性。评估了对人表皮角质形成细胞，人皮肤成纤维细胞和正常人成骨细胞的体外毒性，以及对金黄色葡萄球菌和大肠杆菌的抵抗力。该研究得出的结论是，接触人体组织少于1.5小时的医疗设备和外科手术工具表面系统的技术应用有望自我消毒，而不会在体内引起毒性。

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《Journal of materials science 》 |2013年第3期| 755-760| 共6页
作者
Meghan E. Samberg; Zhuo Tan; Nancy A. Monteiro-Riviere; Paul E. Orndorff; Rohan A. Shirwaiker;
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Center for Chemical Toxicology Research and Pharmacokinetics, North Carolina State University, Raleigh, NC 27607, USA,Edward P. Fitts Department of Industrial Systems and Engineering, 400 Daniels Hall, Raleigh, NC 27695, USA,Joint Department of Biomedical Engineering, North Carolina State University, Raleigh, NC, USA,Extremity Trauma Research/Regenerative Medicine, United States Army Institute of Surgical Research, 3698 Chambers Pass,Bldg 3611-BHT1, Fort Sam Houston, TX 78234-6315, USA;

Edward P. Fitts Department of Industrial Systems and Engineering, 400 Daniels Hall, Raleigh, NC 27695, USA;

Center for Chemical Toxicology Research and Pharmacokinetics, North Carolina State University, Raleigh, NC 27607, USA,Joint Department of Biomedical Engineering, North Carolina State University, Raleigh, NC, USA,Department of Anatomy and Physiology, Kansas State University, Manhattan, KS 66506, USA;

Department of Population Health and Pathobiology, North Carolina State University, Raleigh, NC 27607, USA;

Edward P. Fitts Department of Industrial Systems and Engineering, 400 Daniels Hall, Raleigh, NC 27695, USA,Joint Department of Biomedical Engineering, North Carolina State University, Raleigh, NC, USA;

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1. Biocompatibility analysis of an electrically-activated silver-based antibacterial surface system for medical device applications [J] . Meghan E. Samberg, Zhuo Tan, Nancy A. Monteiro-Riviere, Journal of Materials Science: Materials in Medicine . 2013 ,第3期

机译：用于医疗设备的电活化银基抗菌表面系统的生物相容性分析
2. Atmospheric Plasma Hybrid Surface Treatment for Fluoropolymer Plastics (Toward Applications for Medical Devices, Biocompatible Materials, and Electronic Devices) [J] . Masaaki Okubo, Tomoyuki Kuroki 静電気学会講演論文集 . 2015 ,第Null期

机译：含氟聚合物塑料的大气等离子体混合表面处理（面向医疗设备，生物相容性材料和电子设备的应用）
3. The Mechanisms and the Applications of Antibacterial Polymers in Surface Modification on Medical Devices [J] . Qiu Haofeng, Si Zhangyong, Luo Yang, Frontiers in Bioengineering and Biotechnology . 2020 ,第3期

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4. Nanosilver Surfaces for Improved Understanding of Biocompatibility and Antibacterial Efficacy of Medical Device Coatings [C] . Eric M. Sussman, Brendan J. Casey, Jiwen Zheng, Society for biomaterials annual meeting and exposition . 2013

机译：纳米银表面可改善对医疗器械涂层的生物相容性和抗菌功效的了解
5. In Vitro Biocompatibility Assessment of Microstructured and Nanostructured Surfaces for Medical Device Applications. [D] . Skoog, Shelby Amanda. 2015

机译：用于医疗器械应用的微结构和纳米结构表面的体外生物相容性评估。
6. The Mechanisms and the Applications of Antibacterial Polymers in Surface Modification on Medical Devices [O] . Haofeng Qiu, Zhangyong Si, Yang Luo, 2020

机译：抗菌聚合物在医疗装置表面改性中的机制及应用
7. The Mechanisms and the Applications of Antibacterial Polymers in Surface Modification on Medical Devices [O] . Haofeng Qiu, Zhangyong Si, Yang Luo, 2020

机译：抗菌聚合物在医疗装置表面改性中的机制及应用
8. Biocompatibility Analysis of an Electrically-Activated Silver-Based Antibacterial Surface System for Medical Device Applications. [R] . Samberg, M. E., Tan, Z., Monteiro-Riviere, N. A., 2012

机译：用于医疗器械应用的电活化银基抗菌表面系统的生物相容性分析。

Biocompatibility analysis of an electrically-activated silver-based antibacterial surface system for medical device applications

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