Abstract
AbstractHaptic based surgical simulations are popular training aids in medicine. Previously, surgical tool loads and motion were measured during cutting and needle insertion on non-human tissue and several haptic based simulations were developed to enhance surgical training. However, there was a lack of realistic foundational data regarding the mechanical responses of human tissue and tools during fundamental acts of surgery, i.e., cutting, suturing, retracting, pinching and indenting. This study used four recently developed surgical tools in a variety of procedures on a diverse set of cadaver leg specimens from human donors. The kinematics and kinetics of surgical tools were recorded along with topical three-dimensional strain during commonly performed surgical procedures. Full motion and load signatures of foundational surgical acts can also be used beyond the development of authentic visual and haptic simulations of surgery, i.e., they provide mechanical specifications for the development of autonomous surgical systems.
Funder
United States Department of Defense | United States Army | Army Medical Command | Medical Research and Materiel Command
Publisher
Springer Science and Business Media LLC
Subject
Library and Information Sciences,Statistics, Probability and Uncertainty,Computer Science Applications,Education,Information Systems,Statistics and Probability
Reference23 articles.
1. Misra, S., Ramesh, K. T. & Okamura, A. M. Modeling of Tool-Tissue Interactions for Computer-Based Surgical Simulation: A Literature Review. Presence Camb. Mass 17, 463 (2008).
2. Griffin, J. A., Zhu, W. & Nam, C. S. The Role of Haptic Feedback in Robotic-Assisted Retinal Microsurgery Systems: A Systematic Review. IEEE Trans. Haptics 10, 94–105 (2017).
3. Zhao, B. & Nelson, C. A. Estimating Tool-Tissue Forces Using a 3-Degree-of-Freedom Robotic Surgical Tool. J. Mech. Robot. 8, 0510151–5101510 (2016).
4. Shademan, A. et al. Supervised autonomous robotic soft tissue surgery. Sci. Transl. Med. 8, 337ra64 (2016).
5. Chanthasopeephan, T., Desai, J. P. & Lau, A. C. W. Measuring forces in liver cutting for reality-based haptic display. In Proceedings 2003 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2003) (Cat. No.03CH37453) vol. 3 3083–3088 (2003).
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