Applied Sciences (Dec 2020)

Multilayered Artificial Dura-Mater Models for a Minimally Invasive Brain Surgery Simulator

  • Masaru Takeuchi,
  • Shusaku Hayakawa,
  • Akihiko Ichikawa,
  • Akiyuki Hasegawa,
  • Yasuhisa Hasegawa,
  • Toshio Fukuda

DOI
https://doi.org/10.3390/app10249000
Journal volume & issue
Vol. 10, no. 24
p. 9000

Abstract

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In this study, new artificial dura-mater models were developed using a multilayered structure of a rubber material (represent an elastic component of a dura-mater) and a fiber sheet (represent fiber component of a dura-mater). The artificial dura-mater models were prepared for use in a brain surgery simulator, especially for transnasal pituitary surgery. The mechanical characteristics of the artificial dura-mater models were tested to check the similarities with porcine dura-mater. Tensile stress, viscoelasticity, and the cutting force generated by microscissors were tested to evaluate the fabricated models. Neurosurgeons also assessed the dura-mater models to evaluate their characteristics. The results indicate that these models made of two different non-woven fiber sheets emulated accurately the actual dura-mater.

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