Accelerated Mechanophore Activation and Drug Release in Network Core-Structured Star Polymers Using High-Intensity Focused Ultrasound

IF 11.1 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Small Science Pub Date : 2024-06-17 DOI:10.1002/smsc.202400082

Jilin Fan, Mingjun Xuan, Kuan Zhang, Rostislav Vinokur, Lifei Zheng, Robert Göstl, Andreas Herrmann

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Abstract

The ultrasound (US)-induced activation of mechanophores embedded in linear polymers (LPs) is the most widely employed technique to realize chemical function by polymer mechanochemistry. However, the commonly used US frequency in this context is around 20 kHz, producing strong inertial cavitation limiting biomedical applicability. Herein, 20 kHz US and 1.5 MHz high-intensity focused US (HIFU) are investigated to drive disulfide mechanophore activation and mechanochemical polymer chain scission in network core-structured star polymers (NCSPs). It is found that the efficiency of activating disulfide mechanophores in NCSPs using 1.5 MHz HIFU irradiation is similar to the efficiency achieved with 20 kHz sonication. This is quantified by ‘turn on’ sensor molecules leveraging the Michael addition of the mechanochemically generated thiol groups and subsequent retro Diels–Alder reaction to release a fluorophore. Moreover, the anticancer drug doxorubicin (Dox) covalently loaded into NCSPs is efficiently released by 1.5 MHz HIFU. Finally, an in vitro study of drug release from NCSPs is performed, demonstrating the potential of HIFU-activated polymer mechanochemistry for sonopharmacology.

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利用高强度聚焦超声加速网络核结构星形聚合物中的机械分子活化和药物释放

超声波（US）诱导激活嵌入线性聚合物（LPs）中的机械分子是通过聚合物机械化学实现化学功能的最广泛应用技术。然而，这方面常用的超声波频率约为 20 kHz，会产生强烈的惯性空化，限制了生物医学的应用。本文研究了 20 kHz US 和 1.5 MHz 高强度聚焦 US（HIFU）如何驱动网络核结构星型聚合物（NCSP）中的二硫化物机械分子活化和机械化学聚合物链断裂。研究发现，使用 1.5 MHz HIFU 照射激活 NCSP 中二硫化物机械体的效率与使用 20 kHz 超声波的效率相似。这可以通过 "开启 "传感器分子，利用机械化学生成的硫醇基团的迈克尔加成和随后的复古 Diels-Alder 反应释放荧光团来量化。此外，共价载入 NCSP 的抗癌药物多柔比星（Dox）可通过 1.5 MHz HIFU 有效释放。最后，对 NCSPs 的药物释放进行了体外研究，证明了 HIFU 激活聚合物机械化学在声药理学方面的潜力。

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来源期刊

Small Science

CiteScore

14.00

自引率

2.40%

发文量

期刊介绍： Small Science is a premium multidisciplinary open access journal dedicated to publishing impactful research from all areas of nanoscience and nanotechnology. It features interdisciplinary original research and focused review articles on relevant topics. The journal covers design, characterization, mechanism, technology, and application of micro-/nanoscale structures and systems in various fields including physics, chemistry, materials science, engineering, environmental science, life science, biology, and medicine. It welcomes innovative interdisciplinary research and its readership includes professionals from academia and industry in fields such as chemistry, physics, materials science, biology, engineering, and environmental and analytical science. Small Science is indexed and abstracted in CAS, DOAJ, Clarivate Analytics, ProQuest Central, Publicly Available Content Database, Science Database, SCOPUS, and Web of Science.