Micro and Nano Systems Letters (Dec 2018)

Improving guidewire-mediated steerability of a magnetically actuated flexible microrobot

  • Sungwoong Jeon,
  • Ali Kafash Hoshiar,
  • Sangwon Kim,
  • Seungmin Lee,
  • Eunhee Kim,
  • Sunkey Lee,
  • Kangho Kim,
  • Jeonghun Lee,
  • Jin-young Kim,
  • Hongsoo Choi

DOI
https://doi.org/10.1186/s40486-018-0077-y
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 10

Abstract

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Abstract Here, we develop a flexible microrobot enhancing the steerability of a conventional guidewire. To improve steerability, a microrobot is attached to the tip of the guidewire and guided using an external magnetic field generated by an electromagnetic coil system. The flexible microrobot is fabricated via replica-molding and features a body made of polydimethylsiloxane (PDMS) and a single permanent magnet. As the robot is made of a deformable material, it can be steered using a low-intensity external magnetic field; the robot can potentially be guided into the coronary artery. To study steering performance, we employed mathematical modeling and a finite element model (FEM), and performed experiments under various magnetic fields. We found that a mathematical model using the Euler–Bernoulli beam could not precisely calculate the deformation angles. The FEM more accurately estimated those angles. The deformation angle can be controlled from 0 to 80° at a magnetic field intensity of 15 mT. The trackability at angles of 45 and 80° of the guidewire-based microrobot was confirmed in vitro using a two-dimensional blood vessel phantom.

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