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2
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ACS Nano. 2024 Mar 26;18(12):8694-8705. doi: 10.1021/acsnano.3c09753. Epub 2024 Mar 11.
3
Modularized microrobot with lock-and-detachable modules for targeted cell delivery in bile duct.具有锁定和可拆卸模块的模块化微机器人,用于胆管中靶向细胞递药。
Sci Adv. 2023 Dec 15;9(50):eadj0883. doi: 10.1126/sciadv.adj0883.
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An extracellular matrix-mimicking magnetic microrobot for targeted elimination of circulating cancer cells.一种模拟细胞外基质的磁性微型机器人,用于靶向清除循环肿瘤细胞。
Nanoscale. 2024 Jan 3;16(2):624-634. doi: 10.1039/d3nr03799a.
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Magnetically actuated hydrogel-based capsule microrobots for intravascular targeted drug delivery.基于磁驱动水凝胶的胶囊式微型机器人用于血管内靶向药物输送。
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Drug release and thermal properties of magnetic cobalt ferrite (CoFeO) nanocomposite hydrogels based on poly(acrylic acid-g-N-isopropyl acrylamide) grafted onto gum ghatti.基于接枝到瓜尔胶上的聚丙烯酸- g -N-异丙基丙烯酰胺的磁性钴铁氧体(CoFeO)纳米复合水凝胶的药物释放和热性能。
Int J Biol Macromol. 2023 Jan 1;224:358-369. doi: 10.1016/j.ijbiomac.2022.10.129. Epub 2022 Oct 22.
7
Reduced rotational flows enable the translation of surface-rolling microrobots in confined spaces.减小旋转流可实现表面滚动微机器人在受限空间内的平移。
Nat Commun. 2022 Oct 21;13(1):6289. doi: 10.1038/s41467-022-34023-z.
8
Endoscope-assisted magnetic helical micromachine delivery for biofilm eradication in tympanostomy tube.用于清除鼓膜置管中生物膜的内窥镜辅助磁性螺旋微机器递送
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9
Effect of bone-shaped nanotube-hydrogel drug delivery system for enhanced osseointegration.骨状纳米管水凝胶药物输送系统对增强骨整合的影响。
Biomater Adv. 2022 Jun;137:212853. doi: 10.1016/j.bioadv.2022.212853. Epub 2022 May 13.
10
Recent advances in targeted drug delivery systems for resistant colorectal cancer.耐药性结直肠癌靶向给药系统的最新进展
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[一种能够精确导航以实现靶向可控药物释放的温度响应型多模态运动微型机器人的合成]

[Synthesis of a temperature-responsive multimodal motion microrobot capable of precise navigation for targeted controllable drug release].

作者信息

Zhao Xuhui, Liu Mengran, Chen Xi, Huang Jing, Liu Yuan, Xu Haifeng

机构信息

Hubei Provincial Key Laboratory of Modern Manufacture Quality Engineering, Hubei University of Technology, Wuhan 430068, China.

Institute of Biomedical and Health Engineering, Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, Shenzhen 518055, China.

出版信息

Nan Fang Yi Ke Da Xue Xue Bao. 2025 Aug 20;45(8):1758-1767. doi: 10.12122/j.issn.1673-4254.2025.08.20.

DOI:10.12122/j.issn.1673-4254.2025.08.20
PMID:40916537
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12415582/
Abstract

OBJECTIVES

To synthesize a temperature-responsive multimodal motion microrobot (MMMR) using temperature and magnetic field-assisted microfluidic droplet technology to achieve targeted drug delivery and controlled drug release.

METHODS

Microfluidic droplet technology was utilized to synthesize the MMMR by mixing gelatin with magnetic microparticles. The microrobot possessed a magnetic anisotropy structure to allow its navigation and targeted drug release by controlling the temperature field and magnetic field. In the experiment, the MMMR was controlled to move in a wide range along a preset path by rotating a uniform magnetic field, and the local circular motion was driven by a planar rotating gradient magnetic field of different frequencies. The MMMR was loaded with simulated drugs, which were released in response to laser heating.

RESULTS

Driven by a rotating magnetic field, the MMMR achieved linear motion following a predefined path. The planar gradient rotating magnetic field controlled circular motion of the MMMR with an adjustable radius, utilizing the centrifugal force generated by rotation. The drug-loaded MMMR successfully reached the target location under magnetic guidance, where the gelatin matrix was melted using laser heating for accurate drug release, after which the remaining magnetic particles were removed using magnetic field.

CONCLUSIONS

The MMMR possesses multimodal motion capabilities to enable precise navigation along a predefined path and dynamic regulation of drug release within the target area, thus having great potential for a wide range of biomedical applications.

摘要

目的

利用温度和磁场辅助微流控液滴技术合成一种温度响应型多模态运动微机器人(MMMR),以实现靶向给药和可控药物释放。

方法

采用微流控液滴技术,将明胶与磁性微粒混合合成MMMR。该微机器人具有磁各向异性结构,通过控制温度场和磁场实现其导航和靶向药物释放。实验中,通过旋转均匀磁场控制MMMR在预设路径上大范围移动,利用不同频率的平面旋转梯度磁场驱动其局部圆周运动。MMMR负载模拟药物,药物在激光加热时释放。

结果

在旋转磁场驱动下,MMMR沿预定义路径实现直线运动。平面梯度旋转磁场利用旋转产生的离心力控制MMMR的圆周运动,半径可调。负载药物的MMMR在磁引导下成功到达目标位置,在该位置利用激光加热使明胶基质熔化以精确释放药物,之后利用磁场去除剩余磁性微粒。

结论

MMMR具有多模态运动能力,能够沿预定义路径精确导航并在目标区域内动态调节药物释放,因此在广泛的生物医学应用中具有巨大潜力。