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Characteristics of Needle Insertion Performance of Automated Biopsy Device for Robotic Needle Insertion Type Intervention: Insertion Depth and Accuracy
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 Title & Authors
Characteristics of Needle Insertion Performance of Automated Biopsy Device for Robotic Needle Insertion Type Intervention: Insertion Depth and Accuracy
Moon, Youngjin; Choi, Jaesoon;
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This paper presents the characteristics related to needle insertion of a robotic device for the automated biopsy procedure. The automated biopsy device, a main component of the robotic needle insertion type intervention system, allows performance of the full biopsy procedure, except for anesthesia, without direct handling of a radiologist or a tele-operated control. In this study, the needle length parameters corresponding to various insertion depths and precision for needle insertion of the automated biopsy device, are discussed. There were two combinations of needle length parameters for appropriate needle insertion and motion capture-based measurement was performed; 0.156 mm error for the 90 mm length commanded insertion displacement was measured. The pre-defined goal is a maximum 1 mm error and thus our measured error is within the acceptable range. In the repeatability check, it was also shown that the device can implement a highly accurate insertion.
Percutaneous intervention;Biopsy;Medical robot;Needle insertion;Mechatronics system;
 Cited by
Bassan, H. S., Patel, R. V., and Moallem, M., "A Novel Manipulator for Percutaneous Needle Insertion: Design and Experimentation," IEEE/ASME Transactions on Mechatronics, Vol. 14, No. 6, pp. 746-761, 2009. crossref(new window)

Walsh, C. J., Hanumara, N. C., Slocum, A. H., Shepard, J.-A., and Gupta, R., "A Patient-Mounted, Telerobotic Tool for CT-Guided Percutaneous Interventions," Journal of Medical Devices, Vol. 2, No. 1, 2008.

Maurin, B., Doignon, C., Gangloff, J., Bayle, B., De Mathelin, M., et al., "CTbot: A Stereotactic-Guided Robotic Assistant for Percutaneous Procedures of the Abdomen," Proc. of International Society for Optics and Photonics on Medical Imaging, Vol. 5744, pp. 241-250, 2005.

Kobayashi, Y., Hong, J., Hamano, R., Okada, K., Fujie, M. G., et al., "Development of a Needle Insertion Manipulator for Central Venous Catheterization," International Journal of Medical Robotics and Computer Assisted Surgery, Vol. 8, No. 1, pp. 34-44, 2012. crossref(new window)

Melzer, A., Gutmann, B., Remmele, T., Lukoscheck, A., Bock, M, et al., "Innomotion for Percutaneous Image-Guided Interventions," IEEE Engineering in Medicine and Biology Magazine, Vol. 27, No. 3, pp. 66-73, 2008.

Kronreif, G., Fürst, M., Ptacek, W., Kornfeld, M., and Kettenbach, J., "Robotic System for Image Guided Therapie-B-Rob II," Proc. of RAAD Workshop, BFD-022, 2006.

Koethe, Y., Xu, S., Velusamy, G., Wood, B. J., and Venkatesan, A. M., "Accuracy and Efficacy of Percutaneous Biopsy and Ablation Using Robotic Assistance under Computed Tomography Guidance: A Phantom Study," European Radiology, Vol. 24, No. 3, pp. 723-730, 2014. crossref(new window)

Moon, Y. and Choi, J., "Development of a Robotic Mechanism for Teleoperation-Based Needle Interventions," Proc. of the 44th International Symposium on Robotics, pp. 1-3, 2013.

Moon, Y., Seo, J. B., and Choi, J., "Image-Guided Biopsy Robot Project in Korea: Hardware Design Concept," The Institute of Electronics, Information and Communication Engineers Technical Report, Vol. 114, No. 103, pp. 37-42, 2014.

Moon, Y., Seo, J. B., and Choi, J., "Development of New End-Effector for Proof-of-Concept of Fully Robotic Multichannel Biopsy," IEEE/ASME Transactions on Mechatronics, Vol. 20, No. 6, pp. 2996-3008, 2015. crossref(new window)