Authors: Ramon Sancibrian, Carlos Redondo-Figuero, Maria C. Gutierrez-Diez, Esther G. Sarabia, Maria A. Benito-Gonzalez, Jose C. Manuel-Palazuelos

Abstract:

In this paper, the design and evaluation of a handle for laparoscopic surgery is presented. The design of the handle is based on ergonomic principles and tries to avoid awkward postures for surgeons. The handle combines the so-called power-grip and accurate-grip in order to provide strength and accuracy in the performance of surgery. The handle is tested using both objective and subjective approaches. The objective approach uses motion capture techniques to obtain the angles of forearm, arm, wrist and hand. The muscular effort is obtained with electromyography electrodes. On the other hand, a subjective survey has been carried out using questionnaires. Results confirm that the handle is preferred by the majority of the surgeons.

Keywords: Laparoscopic Surgery, Ergonomics, Mechanical Design, Biomechanics.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1124073

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References:

[1] R. Berguer, D. L. Forkey, W. D. "Smith, Ergonomic problems associated with laparoscopic surgery," Surg. Endosc., vol. 13 pp. 466-468, 1999.
[2] M. J. van Det, W. J. H. J. Meijerink, C. Hoff, E. R. Totte, J.P.E.N. Pierie, "Optimal ergonomics for laparoscopic surgery in minimally invasive surgery suites: a review and guidelines," Surg. Endosc., vol. 23, pp. 1279–1285, 2009.
[3] R. Berguer, S. Gerber, G. Kilpatrick, M. Remler, D. Beckley, "A comparison of forearm and thumb muscle electromyographic responses to the use of laparoscopic instruments with either a finger grasp or a palm grasp," Ergonomics, vol. 42, pp. 1634-16445, 1999.
[4] N. T. Nguyen, H. S. Ho, W. D. Smith, C. Philipps, C. Lewis, R. M. De Vera, R. Berguer, "An ergonomic evaluation of surgeon’s axial skeletal and upper extremity movements during laparoscopic and open surgery," Am. J. Surg., vol. 182, pp. 720–724, 2001.
[5] M. A. Veelen, D. W. Meijer, R. H. Goossens, C. J. Snijders, J. J. Jakimowicz, "Improved usability of a new handle design for laparoscopic dissection forceps," Surg. Endosc., vol. 16, pp. 201-207, 2002.
[6] A. Trejo, M. C. Jung, D. Oleynikov, M. S. Hallbeck, "Effect of handle design and target location on insertion and aim with a laparoscopic surgical tool," Appl. Ergon., vol. 38, pp. 745-753, 2007.
[7] R. Sancibrian, M. C. Gutierrez, C. Torre, M. A. Benito, C. Redondo, J. C. Manuel-Palazuelos, "New design and evaluation of a new ergonomic handle for instruments in minimally invasive surgery," J. Surg. Res., vol. 188, pp. 88-99, 2014.
[8] U. Matern, P. Waller, "Instruments for minimally invasive surgery: principles of ergonomic handles," Surg. Endosc., vol. 13:174-182, 1999.
[9] D. Buechel, R. Marvik, B. Hallabrin, U. Matern, "Ergonomics of disposable handles for minimally invasive surgery," Surg. Endosc., vol. 24, pp. 992-1004, 2010.
[10] G. P. Szeto, P. Ho, A. C. W. Ting, J. T. C Poon, R. C. C. Tsang, S. W. K. Cheng, "A study of surgeon's postural muscle activity during open, laparoscopic, and endovascular surgery," Surg Endosc, vol. 24, pp. 1712–1721, 2010.
[11] N. Hubert, M. Gilles, K. Desbrosses, J. P. Meyer, J. Felblinger, J. Hubert, "Ergonomic assessment of the surgeon's physical workload during standard and robotic assisted laparoscopic procedures," Int. J. Med. Robot, vol. 9, pp. 142-147, 2013.
[12] M. W. Stomberg, S. E. Tronstad, K. Hedberg, J. Bengtsson, P. Jonsson, L. Johansen, B. Birgitta, "Work-related musculoskeletal disorders when performing laparoscopic surgery," Surg. Laparosc. Endosc. Percutan. Tech., vol. 20, pp. 49-53, 2010.
[13] K. Oude, B. Visser, J. Sluiter, "The prevalence and incidence of musculoskeletal symptoms among hospital physicians: a systematic review," Int Arch Occup Environ Health, vol. 84, pp. 115-119, 2011.
[14] A. Soueid, D. Oudit, S. Thiagarajah, G. Laitung, "The pain of surgery: Pain experienced by surgeons while operating," Int. J. Surg., vol. 8, pp. 118-120, 2010.
[15] A. Park, G. Lee, F. J. Seagull, N. Meenaghan, D. Dexter, "Patients benefits while surgeons suffer: an impeding epidecmic," J. Am. Coll. Surg., vol 210, pp. 306-313, 2010.
[16] W. Ridtitid, G. A. Cote, W. Leung, R. Buschbacher, S. Lynch, E. L. Fogel, J. L. Watkins, G. A. Lehman, S. Sherman, L. McHenry, "Prevalence and risk factors for musculoskeletal injuries related to endoscopy," Gastrointestinal Endoscopy, vol. 81, pp. 294-302, 2015.
[17] T. A. Emam, G. Hanna, A. Cuschieri, "Ergonomic principle of task alignment, visual display, and direction of execution of laparoscopic bowel suturing," Surg. Endosc., vol. 16, pp. 267-271, 2002.
[18] T. A. Emam, T. G. Frank, G. B. Hanna, A. Cuschieri, "Influence of handle design on the surgeon's upper limb movements, muscle recruitment, and fatigue during endoscopic suturing," Surg. Endosc., vol. 15, pp. 667-672, 2001.
[19] B. Herman, A. Devreker, F. Richer, A. H. Zahraee, J. Szewczyk, "An articulated handle to improve the ergonomic performance of robotic dexterous instruments for laparoscopic surgery," Mech. Sci., vol. 5, pp. 21-28, 2014.
[20] B. P. M. Yeung, T. Gourlay, "A technical review of flexible endoscopic multitasking platforms," Int. J. of Surg., vol. 10, pp. 345-354, 2012.
[21] S. R. Herring, A. E. Trejo, M. S. Hallbeck, "Evaluation of four cursor control devices during a target acquisition task for laparoscopic tool control," Appl. Ergon., vol. 41, pp. 47-57, 2010.
[22] U. Matern, S. Koneczny, M. Tedeus, K. Dietz, G. Buess, "Ergonomic testing of two different types of handles via virtual reality simulation," Surg. Endosc., vol. 19, pp. 1147-1150, 2005.
[23] ISO 11226 Ergonomics – Evaluation of static working postures, Geneva, Switzerland: ISO; 2000.
[24] S. Hignett, L. McAtamney, “Rapid entire body assessment (REBA),” Appl. Ergon., vol. 31, pp. 201-205, 2000.
[25] L. McAtamney, E.N. Corlett, “RULA: a survey method for the investigation of work-related upper limb disorders,” Applied Ergonomics, vol. 24, pp. 91-99, 1993.
[26] U. Matern, G. Kuttler, C. Giebmeyer, P. Waller, M. Faist, "Ergonomic aspects of five different types of laparoscopic instruments handles under dynamic conditions with respect to specific laparoscopic tasks: An electromyographic-based study," Surg. Endosc., vol. 18, pp. 1231-1241, 2004.
[27] U. Matern, "Principles of ergonomic instrument handles," Minim. Invasiv. Ther., vol. 10, pp. 169-173, 2001.
[28] A. Trejo, M. C. Jung, D. Oleynikov, M. S. Hallbeck, "Effect of handle design and target location on insertion and aim with a laparoscopic surgical tool," Appl. Ergon., vol. 38, pp. 745-753, 2007.
[29] L. Santos-Carreras, M. Hagen, R. Gassert, H. Bleuler, "Survey on surgical instrument handle design: Ergonomics and acceptance," Surg. Innov., vol. 19, pp. 50-59, 2012.
[30] M. Patkin, “A check-list for handle design,” Ergo. Aus., vol. 15, 2001.