Non-contact, 3D magnetic biomanipulation for in vivo and in vitro applications
Optomechatronic Technologies(2012)
摘要
Micro/nano robots have the potential to revolutionize many aspects of medicine. These untethered, wirelessly controlled and powered devices will make existing therapeutic and diagnostic procedures less invasive and will enable new procedures never before possible. Here we present five degree of freedom (5-DOF) wireless control of fully untethered magnetic micro/nano agents (3-DOF position, 2-DOF orientation). We accomplish this level of wireless control with electromagnetic manipulation systems that we call OctoMag and MiniMag. We demonstrate different magnetic control strategies and combination thereof for potential in vivo and in vitro applications. We show that these systems have the potential to be employed for targeted drug delivery and for procedures such as retinal-vein cannulation that require a high degree of dexterity.
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关键词
biomagnetism,blood vessels,drug delivery systems,drugs,eye,medical diagnostic computing,medical robotics,micromagnetics,micromanipulators,nanomagnetics,minimag,octomag,degree-of-freedom wireless control,diagnostic procedures,electromagnetic manipulation systems,fully untethered magnetic microagents,fully untethered magnetic nanoagents,high degree-of-dexterity,in vitro applications,in vivo applications,medicine,microrobots,nanorobots,noncontact 3d magnetic biomanipulation,retinal-vein cannulation,targeted drug delivery,therapeutic procedures,untethered wirelessly control-powered devices
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