Antibiotics in 3D-printed implants, instruments and materials: benefits, challenges and future directions.

Journal of 3D printing in medicine Pub Date : 2019-06-01 Epub Date: 2019-05-31 DOI:10.2217/3dp-2019-0007

David H Ballard, Karthik Tappa, Christen J Boyer, Udayabhanu Jammalamadaka, Kavya Hemmanur, Jeffery A Weisman, Jonathan S Alexander, David K Mills, Pamela K Woodard

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引用次数: 18

Abstract

3D printing is an additive manufacturing technology, which permits innovative approaches for incorporating antibiotics into 3D printed constructs. Antibiotic-incorporating applications in medicine have included medical implants, prostheses, along with procedural and surgical instruments. 3D-printed antibiotic-impregnated devices offer the advantages of increased surface area for drug distribution, sequential layers of antibiotics produced through layer-by-layer fabrication, and the ability to rapidly fabricate constructs based on patient-specific anatomies. To date, fused deposition modeling has been the main 3D printing method used to incorporate antibiotics, although inkjet and stereolithography techniques have also been described. This review offers a state-of-the-art summary of studies that incorporate antibiotics into 3D-printed constructs and summarizes the rationale, challenges, and future directions for the potential use of this technology in patient care.

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3d打印植入物、器械和材料中的抗生素:益处、挑战和未来方向。

3D打印是一种增材制造技术，它允许将抗生素纳入3D打印结构的创新方法。抗生素在医学上的应用包括医疗植入物、假肢以及手术和手术器械。3d打印的抗生素浸渍设备具有以下优点:增加了药物分布的表面积，通过逐层制造生产的连续抗生素层，以及基于患者特定解剖结构快速制造结构的能力。迄今为止，尽管喷墨和立体光刻技术也被描述，但熔融沉积建模一直是用于结合抗生素的主要3D打印方法。本综述提供了将抗生素纳入3d打印结构的最新研究总结，并总结了该技术在患者护理中的潜在应用的基本原理、挑战和未来方向。

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Journal of 3D printing in medicine

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2.70

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