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Mimicking Motor Proteins: Wall-Guided Self-Navigation of Microwheels

运动蛋白 纳米技术 材料科学 计算机科学 生物 细胞生物学 微管
作者
Dekai Zhou,Honger Yue,Xiaocong Chang,Yi Min Mo,Ying Liu,Hongjie Chang,Longqiu Li
出处
期刊:ACS Nano [American Chemical Society]
卷期号:18 (12): 8853-8862 被引量:8
标识
DOI:10.1021/acsnano.3c12062
摘要

Untethered micro/nanorobots (MNRs) show great promise in biomedicine. However, high-precision targeted in vivo navigation of MNRs into both deep and tiny microtube networks comes with big challenges because the present medical imaging cannot simultaneously meet the requirements of high resolution, high penetration depth, and high real-time performance. Inspired by intracellular motor proteins that transport cargo along cytoskeletal tracks, this study proposed a microtube inwall-guided targeted self-navigation strategy of magnetic microwheels (μ-wheels) that relies only on interactions with a microtube inwall, compared to conventional techniques that rely on real-time imaging and tracking of MNRs. By presetting the direction of the rotating magnetic field, the μ-wheel realized targeted navigation along the inwall. The propulsion principles behind it are elaborated. The targeted self-navigation of the μ-wheels in three-dimensional microtube networks, a spiral microtube, and an intrahepatic bile duct of a pig was conducted. Lastly, based on the strategy, a practical tumor early detection method was proposed and verified by means of magnetic resonance imaging. The microtube inwall-guided targeted self-navigation strategy reduces the dependence of in vivo targeted navigation of MNRs on the real-time performance of medical imaging technology and greatly contributes to the development of MNRs in biomedical applications.
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