journal Micromachines. Special Issue Recent Advances in Microrobotics.

Optimal Design of a Multipole-Electromagnet Robotic Platform for Ophthalmic Surgery

  • EMA
  • Optimization
  • Biomedical application

This paper address the design a multipole-electromagnet robotic platform named OctoRob.

Q2 IF: 3.52
Authors
Affiliations

Ruipeng Chen

INSA Centre Val de Loire, Univ. Orléans, PRISME UR 4229

David Folio 

INSA Centre Val de Loire, Univ. Orléans, PRISME UR 4229

Antoine Ferreira

INSA Centre Val de Loire, Univ. Orléans, PRISME UR 4229

Published

Abstract

The aim of this study was to design a multipole-electromagnet robotic platform named OctoRob. This platform provides a minimally invasive means for targeted therapeutic interventions in specific intraocular areas. OctoRob is capable of generating both appropriate magnetic fields and gradients. The main scientific objectives were: (i) To propose an optimal reconfigurable arrangement of electromagnets suitable for ophthalmic interventions. (ii) To model, design and implement a one-degree-of-freedom robotic arm connected with an electromagnet in order to optimize the generation of magnetic fields and gradients. (iii) To evaluate the magnetic performances of the OctoRob platform, including different tilted angles. The results show that OctoRob platform has great potential to be applied for ophthalmic surgery.

Keywords: electromagnetic actuation system,microrobotic surgery platform,microrobots,ophthalmic surgery,optimization of magnetic systems

Funding

This work was supported by the French National Institute of Health and Medical Research (Inserm) “Plan Cancer” 2014–2019 program, Project: Microrobots Targeting Glioblastoma.

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Citation

BibTeX citation:
@article{chen2022,
  author = {Chen, Ruipeng and Folio, David and Ferreira, Antoine},
  publisher = {Multidisciplinary Digital Publishing Institute},
  title = {Optimal {Design} of a {Multipole-Electromagnet} {Robotic}
    {Platform} for {Ophthalmic} {Surgery}},
  journal = {Micromachines},
  volume = {14},
  number = {1},
  date = {2022-12-29},
  url = {https://www.mdpi.com/2072-666X/14/1/91},
  doi = {10.3390/mi14010091},
  issn = {2072-666X},
  langid = {en-US},
  abstract = {The aim of this study was to design a
    multipole-electromagnet robotic platform named OctoRob. This
    platform provides a minimally invasive means for targeted
    therapeutic interventions in specific intraocular areas. OctoRob is
    capable of generating both appropriate magnetic fields and
    gradients. The main scientific objectives were: (i) To propose an
    optimal reconfigurable arrangement of electromagnets suitable for
    ophthalmic interventions. (ii) To model, design and implement a
    one-degree-of-freedom robotic arm connected with an electromagnet in
    order to optimize the generation of magnetic fields and gradients.
    (iii) To evaluate the magnetic performances of the OctoRob platform,
    including different tilted angles. The results show that OctoRob
    platform has great potential to be applied for ophthalmic surgery.}
}
For attribution, please cite this work as:
Chen R., Folio D., and Ferreira A., “Optimal Design of a Multipole-Electromagnet Robotic Platform for Ophthalmic Surgery,” Micromachines, vol. 14, December 2022. [Online]. Available: https://www.mdpi.com/2072-666X/14/1/91