Basic principles and stages of tissue separation, cutting and sewing. Annotation
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24.11.4..Basic principles and stages of tissue separation, cutting and sewing.| Conclusions:
Drawing from the literature review, methods, and results, the conclusions section synthesizes key insights. It provides a summary of the most effective techniques in tissue separation, cutting, and sewing, considering both conventional and contemporary approaches. Limitations of current practices are acknowledged, paving the way for future advancements. The article concludes with suggestions for further research in the field. Proposals for exploring innovative surgical tools, refining existing techniques, and conducting large-scale clinical trials are outlined, aiming to contribute to the continual improvement of surgical outcomes. In conclusion, this article serves as a comprehensive resource for surgeons, researchers, and healthcare professionals involved in tissue manipulation during surgical procedures. By examining the principles, methods, and results, the article contributes to the ongoing dialogue on refining surgical techniques for enhanced patient care. References M. A. Srinivasan, "Surface deflection of primate fingertip under line load," Journal of Biomechanics, vol. 22, pp. 343-349, 1989. C. Basdogan, C. Ho, M. A. Srinivasan, S. Small, and S. Dawson, "Force interactions in laparoscopic simulations: Haptic rendering of soft tissues," presented at Proceedings of the Medicine Meets Virtual Reality VI Conference, 1998. S. A. Cover, N. F. Ezquerra, J. O'Brien, R. Rowe, T. Gadacz, and O. Palm, "Interactively deformable models for surgery simulation," IEEE Computer Graphics and Applications, vol. 13, pp. 65-78, 1993. S. Cotin, H. Delingette, and N. Ayache, "Real-Time elastic deformations of soft tissue for surgical simulation," IEEE Transactions On Visualization and Computer Graphics, vol. 5, pp. 62-73, 1999. C. Basdogan, C. Ho, and M. A. Srinivasan, "Virtual environments for medical training: Graphical and Haptic simulation of common bile duct exploration," IEEE/ASME Transactions on Mechatronics, vol. 6, pp. 267-285, 2001. S. De, J. Kim, and M. A. Srinivasan, "A meshless numerical technique for physically based real-time medical simulations," presented at Proceedings of the Medicine meets virtual reality, 2001. M. Mahvash and V. Hayward, "Haptic Rendering of Cutting: A Fracture Mechanics Approach," Haptics-e, The Electronic Journal of Haptics Research, vol. 2, 2001. Yüklə 18,11 Kb. Dostları ilə paylaş:
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