Top

Published in:

01-03-2018 | Original Article

Features of haptic and tactile feedback in TORS-a comparison of available surgical systems

Authors: Daniel T. Friedrich, L. Dürselen, B. Mayer, S. Hacker, F. Schall, J. Hahn, T. K. Hoffmann, P. J. Schuler, J. Greve

Published in: Journal of Robotic Surgery | Issue 1/2018

Abstract

Sustained interest and an increase of possible indications endorse the role of robot-assisted surgery of the head and neck region. However, broad clinical application is impeded by substantial extra cost, time exposure and a supposed deficit of haptic and tactile feedback. The role of haptic feedback has barely been examined in this context, and literature provides only limited objective validation. This point of criticism applies to all commercially available systems. We created an experimental setup to evaluate, quantify and compare the performance of surgical systems. The daVinci system (Intuitive Surgical), the Flex system (Medrobotics) and standard rigid instruments (23 cm laryngoscopic grasper, Karl Storz) were compared with the human hand by head and neck surgeons (n = 15), performing a variety of surgical tasks. Specific samples with different rigidity were sorted with all devices, and the resulting orders were analyzed by permutation analysis, indicating differences in precision and accuracy of haptic and tactile feedback. The human hand was superior in all trials, acting as reference modality. The flexible instruments of the Flex system performed better than the electro-mechanically decoupled instruments of the daVinci system for the majority of measures recorded, suggesting a benefit in terms of haptic and tactile feedback in this context. While not all aspects of haptic and tactile feedback were accessible, this first objective comparison endorses the inferiority of robot-assisted surgery in terms of haptic and tactile feedback, compared to the human sense or standard surgical tools. Furthermore, the immediate force transmission of the Flex system seems to be superior to the electro-mechanical transformation of the daVinci system, indicating an advantage in terms of haptic and tactile feedback in immediate comparison. This study is providing a basis for further experiments and the development of robotic surgery towards an implementation in clinical routine.

Friedrich DT, Scheithauer MO, Greve J, Hoffmann TK, Schuler PJ (2016) Recent advances in robot-assisted head and neck surgery. Int J Med Robot Comput Assist Surg MRCAS doi:10.1002/rcs.1744

Dombree M, Crott R, Lawson G, Janne P, Castiaux A, Krug B (2014) Cost comparison of open approach, transoral laser microsurgery and transoral robotic surgery for partial and total laryngectomies. Eur Arch Otorhinolaryngol 271(10):2825–2834. doi:10.1007/s00405-014-3056-9 CrossRefPubMed

Enayati N, De Momi E, Ferrigno G (2016) Haptics in robot-assisted surgery: challenges and benefits. IEEE Rev Biomed Eng 9:49–65. doi:10.1109/RBME.2016.2538080 CrossRefPubMed

Genden EM, Desai S, Sung CK (2009) Transoral robotic surgery for the management of head and neck cancer: a preliminary experience. Head Neck 31(3):283–289. doi:10.1002/hed.20972 CrossRefPubMed

Schuler PJ, Duvvuri U, Friedrich DT, Rotter N, Scheithauer MO, Hoffmann TK (2015) First use of a computer-assisted operator-controlled flexible endoscope for transoral surgery. The Laryngoscope 125(3):645–648. doi:10.1002/lary.24957 CrossRefPubMed

Friedrich DT, Scheithauer MO, Greve J, Duvvuri U, Sommer F, Hoffmann TK, Schuler PJ (2015) Potential advantages of a single-port, operator-controlled flexible endoscope system for transoral surgery of the larynx. Ann Otol Rhinol Laryngol. doi:10.1177/0003489415575548 PubMed

Schuler PJ, Hoffmann TK, Veit JA, Rotter N, Friedrich DT, Greve J, Scheithauer MO (2016) Hybrid procedure for total laryngectomy with a flexible robot-assisted surgical system. Int J Med Robot Comput Assist Surg MRCAS doi:10.1002/rcs.1749

O’Malley BW Jr, Weinstein GS, Hockstein NG (2006) Transoral robotic surgery (TORS): glottic microsurgery in a canine model. J Voice 20(2):263–268. doi:10.1016/j.jvoice.2005.10.004 CrossRefPubMed

Lederman SJ, Klatzky RL (1993) Extracting object properties through haptic exploration. Acta Psychol (Amst) 84(1):29–40CrossRef

10.

Reiley CE, Akinbiyi T, Burschka D, Chang DC, Okamura AM, Yuh DD (2008) Effects of visual force feedback on robot-assisted surgical task performance. J Thorac Cardiovasc Surg 135(1):196–202. doi:10.1016/j.jtcvs.2007.08.043 CrossRefPubMedPubMedCentral

11.

Hoffmann TK, Schuler PJ, Bankfalvi A, Greve J, Heusgen L, Lang S, Mattheis S (2014) Comparative analysis of resection tools suited for transoral robot-assisted surgery. Eur Arch Otorhinolaryngol 271(5):1207–1213. doi:10.1007/s00405-013-2615-9 CrossRefPubMed

12.

Liu WP, Azizian M, Sorger J, Taylor RH, Reilly BK, Cleary K, Preciado D (2014) Cadaveric feasibility study of da Vinci Si-assisted cochlear implant with augmented visual navigation for otologic surgery. JAMA Otolaryngol Head Neck Surg 140(3):208–214. doi:10.1001/jamaoto.2013.6443 CrossRefPubMed

13.

Okamura AM (2009) Haptic feedback in robot-assisted minimally invasive surgery. Curr Opin Urol 19(1):102–107. doi:10.1097/MOU.0b013e32831a478c CrossRefPubMedPubMedCentral

14.

Schuler PJ, Hoffmann TK, Duvvuri U, Rotter N, Greve J, Scheithauer MO (2016) Demonstration of nasopharyngeal surgery with a single port operator-controlled flexible endoscope system. Head Neck 38(3):370–374. doi:10.1002/hed.23910 CrossRefPubMed

15.

Tavakoli M, Patel RV, Moallem M (2005) Haptic interaction in robot-assisted endoscopic surgery: a sensorized end-effector. Int J Med Robot Comput Assist Surg MRCAS 1(2):53–63. doi:10.1002/rcs.16 CrossRef

16.

Liu C, Moreira P, Zemiti N, Poignet P (2011) 3D force control for robotic-assisted beating heart surgery based on viscoelastic tissue model. Conf Proc Ann Int Conf IEEE Eng Med Biol Soc IEEE Eng Med Biol Soc Conf 2011:7054–7058. doi:10.1109/IEMBS.2011.6091783

17.

Byrn JC, Schluender S, Divino CM, Conrad J, Gurland B, Shlasko E, Szold A (2007) Three-dimensional imaging improves surgical performance for both novice and experienced operators using the da Vinci Robot System. Am J Surg 193(4):519–522. doi:10.1016/j.amjsurg.2006.06.042 CrossRefPubMed

Title: Features of haptic and tactile feedback in TORS-a comparison of available surgical systems
Authors: Daniel T. Friedrich
L. Dürselen
B. Mayer
S. Hacker
F. Schall
J. Hahn
T. K. Hoffmann
P. J. Schuler
J. Greve
Publication date: 01-03-2018
Publisher: Springer London
Published in: Journal of Robotic Surgery / Issue 1/2018
Print ISSN: 1863-2483
Electronic ISSN: 1863-2491
DOI: https://doi.org/10.1007/s11701-017-0702-4

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

Features of haptic and tactile feedback in TORS-a comparison of available surgical systems

Abstract

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

Abstract

Please log in to get access to this content

Other articles of this Issue 1/2018

Retroauricular endoscopic and robotic versus conventional neck dissection for oral cancer

Robot-assisted laparoscopic Y-V plasty in 12 patients with refractory bladder neck contracture

Robotic-assisted removal of an Amplatzer atrial septal occluder device for residual shunting, closure of septal defect and simultaneous tricuspid annuloplasty

Needle in a haystack: lost in transition

Visualization of endometriosis: comparative study of 3-dimensional robotic and 2-dimensional laparoscopic endoscopes

Prospective assessment of positioning-related pain in robotic urologic surgery