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Progress in enzyme-powered micro/nanomotors in diagnostics and therapeutics

Jinpeng Zhao, Banghui Wang, Mingzhe Yan, Yuxin Liu, Rongxuan Zhao, Xuezhe Wang, Te Shao, Yifei Li, Muhammad Imran, Mingze Ji, Hong Zhao, Carlos F. Guimarães, Guotai Li, Qihui Zhou, Rui L. Reis

2025Bioactive Materials12 citationsDOIOpen Access PDF

Abstract

Enzyme-powered micro/nanomotors (EMNMs) represent cutting-edge research taking advantage of enzymes as biocatalysts to provide a driving force for micro/nanomotors. Up to now, EMNMs have been designed to be powered by catalase, urease, lipase, collagenase, compound enzymes, etc . They not only have good biocompatibility and biosafety but also possess the unique ability to utilize physiologically relevant fuel to achieve autonomous propulsion through in vivo catalytic reactions. This innovation has opened exciting possibilities for medical applications of EMNMs. Given the fact that the human body is naturally abundant with substrates available for enzymatic reactions, EMNMs can effectively exploit the complex microenvironment associated with diseases, enabling the diagnosis and treatment of various medical conditions. In this review, we first introduce different kinds of EMNMs applied in specific environments for the diagnosis and treatment of diseases, while highlighting their advancements for revolutionizing healthcare practices. Then, we address the challenges faced in this rapidly evolving field, and at last, the potential future development directions are discussed. As the potential of EMNMs becomes increasingly evident, continued research and exploration are essential to unlock their full capabilities and to ensure their successful integration into clinical applications. • The general strategies for designing EMNMs are thoroughly summarized. • The recent, updated progress in the clinical application of EMNMs toward the diagnosis and treatment are introduced. • Comparative analysis of EMNMs across diverse systems, integrating variables is conducted. • Current challenges faced by EMNMs for clinical translation, along with future possibilities and directions are discussed.

Topics & Concepts

Materials scienceNanotechnologyMicro and Nano RoboticsMolecular Communication and NanonetworksMicrofluidic and Bio-sensing Technologies