Composite materials for multimodal sonodynamic therapy in biomedical applications

Next Materials Pub Date : 2025-01-01 Epub Date: 2024-12-03 DOI:10.1016/j.nxmate.2024.100442

Min Ma , Lili Luo , Yuxuan Ding , Jiayi Zuo , Xiaofen Chai , Libing Liu

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Abstract

Sonodynamic therapy (SDT) presents significant advantages, such as improved tissue penetration, non-invasiveness, and reduced susceptibility to drug resistance, positioning it as a promising modality in the biomedical domain. Recent advancements in the structural modification and component optimization of sonosensitizers have markedly enhanced the efficacy of SDT, especially in the production of reactive oxygen species (ROS). Additionally, sonosensitizers can be engineered into functional particles through various methodologies, thereby achieving enhanced biocompatibility and catalytic efficiency. This review concentrates on recent advancements in sonosensitizers, with a particular emphasis on piezoelectric materials and conjugated polymers (CPs). These innovations have shown promise in the treatment of pathogenic microbial infections, the targeting of cancer cells, and the enhancement of 3D bioprinting techniques for wound repair. Furthermore, the review discusses the primary challenges and prospective future directions for the biomedical applications of these materials.

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复合材料在生物医学多模态声动力治疗中的应用

声动力疗法（SDT）具有显著的优势，如改善组织穿透性、非侵入性和降低对耐药的敏感性，使其成为生物医学领域的一种有前途的治疗方式。近年来，声敏剂的结构修饰和成分优化的进展显著提高了SDT的功效，特别是在产生活性氧（ROS）方面。此外，声敏剂可以通过各种方法设计成功能颗粒，从而实现增强的生物相容性和催化效率。本文综述了声敏剂的最新进展，重点介绍了压电材料和共轭聚合物（CPs）。这些创新在治疗病原微生物感染、靶向癌细胞以及增强伤口修复的3D生物打印技术方面显示出了希望。此外，本文还讨论了这些材料在生物医学应用方面面临的主要挑战和未来的发展方向。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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