Balicki, M., A. Uneri, I. Iordachita, J. Handa, P. Gehlbach, and R. Taylor. Micro-force sensing in robot assisted membrane peeling for vitreoretinal surgery. In: International Conference on Medical Image Computing and Computer-Assisted Intervention, 2010, pp. 303–310.
Bray, F., J. Ferlay, I. Soerjomataram, R. L. Siegel, L. A. Torre, and A. Jemal. Global cancer statistics 2018: GLOBOCAN estimates of incidence and mortality worldwide for 36 cancers in 185 countries. CA. Cancer J. Clin. 68(6):394–424, 2018.
Burgner-Kahrs, J., D. C. Rucker, and H. Choset. Continuum robots for medical applications: a survey. IEEE Trans. Robot. 31(6):1261–1280, 2015.
Chekotu, J. C., R. Groarke, K. O’Toole, and D. Brabazon. Advances in selective laser melting of nitinol shape memory alloy part production. Materials. 12(5):809, 2019.
Cutsem, E. V., X. Sagaert, B. Topal, K. Haustermans, and H. Prenen. Gastric cancer. Lancet. 388(10060):2654–2664, 2016.
Erden, M. S., B. Rosa, N. Boularot, B. Gayet, G. Morel, and J. Szewczyk. Conic-Spiraleur: a miniature distal scanner for confocal microlaparoscope. IEEE/ASME Trans. Mechatron. 19(6):1786–1798, 2014.
Giataganas, P., M. Hughes, C. J. Payne, P. Wisanuvej, B. Temelkuran, and G. Z. Yang. Intraoperative robotic-assisted large-area high-speed microscopic imaging and intervention. IEEE Trans. Biomed. Eng. 66(1):208–216, 2019.
Gong, L., J. Zheng, Z. Ping, Y. Wang, and S. Zuo. Robust mosaicing of endomicroscopic videos via context-weighted correlation ratio. IEEE Trans. Biomed. Eng. 2020. https://doi.org/10.1109/TBME.2020.3007768.
He, X., J. Handa, T., P. Gehlbach, R. Taylor, and I. Iordachita. A Submillimetric 3-DOF force sensing instrument with integrated fiber bragg grating for retinal microsurgery. IEEE Trans. Biomed. Eng. 61(2):522–534, 2014.
Hong, W., L. Xie, J. Liu, Y. Sun, K. Li, and H. Wang. Development of a novel continuum robotic system for maxillary sinus surgery. IEEE/ASME Trans. Mechatron. 23(3):1226–1237, 2018.
Kitabatake, S., Y. Niwa, R. Miyahara, A. Ohashi, T. Matsuura, Y. Iguchi, Y. Shimoyama, T. Nagasaka, O. Maeda, T. Ando, N. Ohmiya, A. Itoh, Y. Hirooka, and H. Goto. Confocal endomicroscopy for the diagnosis of gastric cancer in vivo. Endoscopy. 38(11):1110–1114, 2006.
Kutzer, M. D. M., S. M. Segreti, C. Y. Brown, R. H. Taylor, M. Armand and S. C. Mears. Design of a new cable-driven manipulator with a large open lumen: Preliminary applications in the minimally-invasive removal of osteolysis. In: IEEE International Conference on Robotics and Automation, 2011, pp. 2913–2920.
Latt, W. T., R. C. Newton, M. Visentini-Scarzanella, C. J. Payne, D. P. Noonan, J. Shang, and G. Z. Yang. A hand-held instrument to maintain steady tissue contact during probe-based confocal laser endomicroscopy. IEEE Trans. Biomed. Eng. 58(9):2694–2703, 2011.
Liu, J., B. Hall, M. Frecker, and E. W. Reutzel. Compliant articulation structure using superelastic NiTiNOL. Smart Mater. Struct. 22(9):2013.
Luo, M., and L. Li. Clinical utility of miniprobe endoscopic ultrasonography for prediction of invasion depth of early gastric cancer: a meta-analysis of diagnostic test from PRISMA guideline. Medicine. 98(6):2019.
Miyashita, K., T. O. Vrielink, and G. Mylonas. A cable-driven parallel manipulator with force sensing capabilities for high-accuracy tissue endomicroscopy. Int. J. Comput. Assist. Radiol. 13(5):659–669, 2018.
Newton, R. C., S. V. Kemp, G. Z. Yang, D. Ellson, A. Darzi, and P. Shah. Imaging parenchymal lung diseases with confocal endomicroscopy. Respir. Med. 106(1):127–137, 2012.
Schmitz, A., Shen. T, P. Berthet-Rayne, and G. Z. Yang. A rolling-tip flexible instrument for minimally invasive surgery. In: IEEE International Conference on Robotics and Automation, 2019, pp. 379–385.
Sonn, G. A., S.-N. E. Jones, T. V. Tarin, C. B. Du, K. E. Mach, K. C. Jensen, and J. C. Liao. Optical biopsy of human bladder neoplasia with in vivo confocal laser endomicroscopy. J. Urol. 182(4):1299–1305, 2009.
Takahisa, T., I. Okumura, H. Kose, K. Takagiet, and N. Hata. Tendon-driven continuum robot for neuroendoscopy: validation of extended kinematic mapping for hysteresis operation. Int. J. Comput. Assist. Radiol. 11(4):589–602, 2016.
Thompson, C. C., M. Ryou, N. J. Soper, E. S. Hungess, R. I. Rothstein, and L. L. Swanstrom. Evaluation of a manually driven, multitasking platform for complex endoluminal and natural orifice transluminal endoscopic surgery applications. Gastrointestinal Endoscopy. 70(1):121–125, 2009.
Vercauteren, T., A. Meining, F. Lacombe, and A. Perchant. Real time autonomous video image registration for endomicroscopy: fighting the compromises. Biomed. Opt. 6861:68610C, 2008.
Wallace, M. B., G. Y. Lauwers, Y. Chen, E. Dekker, P. Fockens, P. Sharma, and A. Meining. Miami classification for probe-based confocal laser endomicroscopy. Endoscopy. 43(10):882–891, 2011.
Wang, H., S. Wang, J. Li, and S. Zuo. Robotic scanning device for intraoperative thyroid gland endomicroscopy. Ann. Biomed. Eng. 46(4):543–554, 2018.
Wisanuvej, P., P. Giataganas, K. Leibrandt, J. Liu, M. Hughes, and G. Z. Yang. Three-dimensional robotic-assisted endomicroscopy with a force adaptive robotic arm. In: IEEE International Conference on Robotics and Automation, 2017, pp. 2379–2384.
York, P. A., P. J. Swaney, H. B. Gilbert, and R. J. Webster III. A Wrist for Needle-Sized Surgical Robots. In: IEEE International Conference on Robotics and Automation, 2015, pp. 2964–2970.
Zorn, L., F. Nageotte, P. Zanne, A. Legner, B. Dallemagne, J. Marescaux, and M. Mathelin. A novel telemanipulated robotic assistant for surgical endoscopy: preclinical application to esd. IEEE Trans. Biomed. Eng. 65(4):797–808, 2018.
Zuo, S., M. Hughes, C. Seneci, T. P. Chang, and G. Z. Yang. Towards intraoperative breast endomicroscopy with a novel surface scanning device. IEEE Trans. Biomed. Eng. 62(12):2941–2952, 2015.
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