Three-dimensional, automated magnetic biomanipulation with subcellular resolution
ICRA(2013)
摘要
In our previous work we introduced the inverted MiniMag, a magnetic manipulation system capable of 5 degree-of-freedom (5-DOF) wireless control of micro- and nano structures. In this work, we implement a depth tracking algorithm to provide feedback on the z-position of manipulated particles in the absence of a side camera. We demonstrate 3D closed-loop servoing of magnetic microbeads along predefined trajectories. We successfully position magnetic microbeads functionalized with antibodies in close proximity to macrophages with sub-cellular resolution and record the phagocytosis of the beads. We also show that the system can be used for 3D targeted microtissue manipulation inside microfabricated devices.
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关键词
microfabricated devices,magnetic microbeads,cellular biophysics,biocontrol,phagocytosis,visual servoing,z-position,magnetic particles,three-dimensional automated magnetic biomanipulation,antibodies,3d targeted microtissue manipulation,minimag,micromagnetics,biological techniques,feedback,microfabrication,depth tracking algorithm,3d closed-loop servoing,subcellular resolution,macrophages,biomagnetism,position control,closed loop systems,vectors,magnetic resonance imaging,trajectory,gravity
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