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Multi-section Continuum Robot for Endoscopic Surgical Clipping of Intracranial Aneurysms
Takahisa Kato1,3, Ichiro Okumura2, Sang-Eun Song3, and Nobuhiko Hata3
1Healthcare Optics Research Laboratory, Canon U.S.A., Inc., MA, USA
2Advanced Systems R&D Center, Canon Inc., Japan
3National Center for Image Guided Therapy, Brigham and Women’s Hospital and Harvard Medical School, MA, USA
Abstract. We propose the development and assessment of a multi-section continuum robot for endoscopic surgical clipping of intracranial aneurysms. The robot has two sections for bending actuated by tendon wires. By actuating the two sections independently, the robot can generate a variety of posture combinations by these sections while maintaining the tip angle. This feature offers more flexibility in positioning of the tip than a conventional endoscope for large viewing angles of up to 180 degrees. To estimate the flexible positioning of the tip, we developed kinematic mapping with friction in tendon wires. In a kinematic-mapping simulation, the two-section robot at the target scale (i.e., an outer diameter of 1.7 mm and a length of 60 mm) had a variety of tip positions within 50-mm ranges at the 180°-angled view. In the experimental validation, the 1:10 scale prototype performed the three salient postures with different tip positions at the 180°-angled view.
Keywords: Continuum robot, Tendon drive, Robotic surgery, Aneurysm clipping, Endoscope-assisted microsurgery, Endoscopy
LNCS 8149, p. 364 ff.
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© Springer-Verlag Berlin Heidelberg 2013