School of Medicine and Health, Harbin Institute of Technology, Harbin, 150001, China.
The Second Affiliated Hospital of Harbin Medical University, Harbin, 150001, China.
Adv Healthc Mater. 2024 Jun;13(15):e2400414. doi: 10.1002/adhm.202400414. Epub 2024 Mar 8.
Recently, magnetically actuated micro/nanorobots hold extensive promises in biomedical applications due to their advantages of noninvasiveness, fuel-free operation, and programmable nature. While effectively promised in various fields such as targeted delivery, most past investigations are mainly displayed in magnetic control of individual micro/nanorobots. Facing practical medical use, the micro/nanorobots are required for the development of swarm control in a closed-loop control manner. This review outlines the recent developments in magnetic micro/nanorobot swarms, including their actuating fundamentals, designs, controls, and biomedical applications. The fundamental principles and interactions involved in the formation of magnetic micro/nanorobot swarms are discussed first. The recent advances in the design of artificial and biohybrid micro/nanorobot swarms, along with the control devices and methods used for swarm manipulation, are presented. Furthermore, biomedical applications that have the potential to achieve clinical application are introduced, such as imaging-guided therapy, targeted delivery, embolization, and biofilm eradication. By addressing the potential challenges discussed toward the end of this review, magnetic micro/nanorobot swarms hold promise for clinical treatments in the future.
最近,基于其非侵入性、无燃料操作和可编程性等优势,磁驱动的微/纳米机器人在生物医学应用中具有广泛的应用前景。虽然在靶向输送等各种领域得到了有效应用,但过去的大多数研究主要集中在单个微/纳米机器人的磁控制上。在实际医疗应用中,微/纳米机器人需要以闭环控制的方式发展群体控制。本综述概述了磁微/纳米机器人群体的最新进展,包括其致动原理、设计、控制和生物医学应用。首先讨论了形成磁微/纳米机器人群体所涉及的基本原理和相互作用。介绍了人工和生物混合微/纳米机器人群体的最新设计进展,以及用于群体操纵的控制装置和方法。此外,还介绍了具有潜在临床应用前景的生物医学应用,如成像引导治疗、靶向输送、栓塞和生物膜清除。通过解决本综述结尾部分讨论的潜在挑战,磁微/纳米机器人群体有望在未来的临床治疗中得到应用。
