数字光 3D 打印具有光热和形状记忆功能的生物可吸收和近红外响应器件。

Digital Light 3D Printed Bioresorbable and NIR-Responsive Devices with Photothermal and Shape-Memory Functions.

机构信息

Institute of Pharmaceutical Sciences, Department of Chemistry and Applied Biosciences, ETH Zurich, Zurich, 8093, Switzerland.

Musculoskeletal Research Unit, Vetsuisse Faculty, University of Zurich, Zurich, 8057, Switzerland.

出版信息

Adv Sci (Weinh). 2022 Sep;9(27):e2200907. doi: 10.1002/advs.202200907. Epub 2022 Jul 27.

DOI:10.1002/advs.202200907

PMID:35896948

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9507367/

Abstract

Digital light processing (DLP) 3D printing is a promising technique for the rapid manufacturing of customized medical devices with high precision. To be successfully translated to a clinical setting, challenges in the development of suitable photopolymerizable materials have yet to be overcome. Besides biocompatibility, it is often desirable for the printed devices to be biodegradable, elastic, and with a therapeutic function. Here, a multifunctional DLP printed material system based on the composite of gold nanorods and polyester copolymer is reported. The material demonstrates robust near-infrared (NIR) responsiveness, allowing rapid and stable photothermal effect leading to the time-dependent cell death. NIR light-triggerable shape transformation is demonstrated, resulting in a facilitated insertion and expansion of DLP printed stent ex vivo. The proposed strategy opens a promising avenue for the design of multifunctional therapeutic devices based on nanoparticle-polymer composites.

摘要

数字光处理（DLP）3D 打印是一种很有前途的技术，可用于快速制造高精度的定制医疗设备。为了成功转化到临床应用，仍需要克服合适的光聚合材料开发中的挑战。除了生物相容性外，人们还希望打印设备具有生物降解性、弹性和治疗功能。在这里，报道了一种基于金纳米棒和聚酯共聚物复合材料的多功能 DLP 打印材料系统。该材料表现出强大的近红外（NIR）响应性，允许快速稳定的光热效应，从而导致时间依赖性细胞死亡。还展示了 NIR 光触发的形状转变，从而促进了 DLP 打印支架的体外插入和扩张。所提出的策略为基于纳米颗粒-聚合物复合材料的多功能治疗设备的设计开辟了一条有希望的途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce56/9507367/e14e4027bdb9/ADVS-9-2200907-g004.jpg

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数字光 3D 打印具有光热和形状记忆功能的生物可吸收和近红外响应器件。

Digital Light 3D Printed Bioresorbable and NIR-Responsive Devices with Photothermal and Shape-Memory Functions.

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