基于微针的肿瘤内微泡生成术以增强超声辅助药物递送

Microneedle-Based Generation of Microbubbles in Cancer Tumors to Improve Ultrasound-Assisted Drug Delivery.

机构信息

Nano Electronic Center of Excellence, Nano Bio Electronic Devices Lab, School of Electrical and Computer Engineering, College of Engineering, University of Tehran, P. O. Box 14395/515, Tehran, Iran.

Nano Electronic Center of Excellence, Thin Film and Nanoelectronic Lab, School of Electrical and Computer Engineering, College of Engineering, University of Tehran, P. O. Box 14395/515, Tehran, Iran.

出版信息

Adv Healthc Mater. 2019 Sep;8(17):e1900613. doi: 10.1002/adhm.201900613. Epub 2019 Jul 22.

DOI:10.1002/adhm.201900613

PMID:31328442

Abstract

Production of local microbubbles (MBs) with dense distribution in tumor environment is achieved by developing an integrated electrochemical stimulator on a microfabricated silicon needle covered by zinc-oxide nanowires (ZnONWs). MBs are then exploded by external ultrasonic actuation, which induce microcavitations in tumor cells followed by direct entrance of anticancer drugs into cancer cells. This system, named ZnO nanowire-based microbubble generator probe (ZnONW-MGP), is tested on tumorized mice models (by MC4L2 breast cell lines). Mice treated by ZnONW-MGP have ≈82% reduction in tumor size within 10 days with just 25% of conventional dose of paclitaxel while in the absence of the system, they have just a 15% reduction in tumor size. Presence of ZnO nanostructures on microneedles strongly reduces the size of MBs and enhances the efficacy of the sonoporation.

摘要

通过在覆盖氧化锌纳米线 (ZnONWs) 的微加工硅针上开发集成电化学刺激器，实现在肿瘤环境中产生局部微泡 (MBs) 且其分布密集。然后通过外部超声驱动使 MBs 爆炸，这会在肿瘤细胞中产生微空化，随后抗癌药物直接进入癌细胞。该系统被命名为基于氧化锌纳米线的微泡发生器探针 (ZnONW-MGP)，并在肿瘤小鼠模型（通过 MC4L2 乳腺癌细胞系）上进行了测试。在没有该系统的情况下，接受 ZnONW-MGP 治疗的小鼠在 10 天内肿瘤大小缩小了 ≈82%，而紫杉醇的常规剂量仅减少了 25%；而在该系统存在的情况下，肿瘤大小仅缩小了 15%。纳米结构的氧化锌存在于微针上强烈减小了 MBs 的尺寸，并增强了声孔作用的功效。

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基于微针的肿瘤内微泡生成术以增强超声辅助药物递送

Microneedle-Based Generation of Microbubbles in Cancer Tumors to Improve Ultrasound-Assisted Drug Delivery.

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