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Abstract

Background:

Performing minimally invasive surgery requires training and visual-spatial intelligence. The aim of our study was to examine the impact of visual-spatial perception and additional mental training on the simulated laparoscopic knot-tying task performed by surgical novices.

Methods:

A total of 40 medical students randomly assigned to two groups underwent two sessions of laparoscopic basic training on a VR simulator (SimSurgery®, Oslo, Norway). The variables time and tip trajectory (total path length of the instrument tip trajectory) were used to assess the performance of the intracorporeal knot-tying task using a laparoscopic Nissen fundoplication model. The experimental group completed additional mental practice during the interval between the two training sessions. All performed a cube subtest of a standard intelligence test (I-S-T 2000 R) to evaluate visual-spatial ability.

Results:

All participants achieved an improvement in time (t = 9.861; p < 0.001) and tip trajectory (t = 6.833; p < 0.001) in the second training session. High scores on the visual-spatial test correlated with a faster performance (r = −0.557; p < 0.001) and more precise movements (r = −0.377; p = 0.016).

Comparison of the two groups did not show any statistical significant differences in the parameters time and tip trajectory.

Conclusions:

Visual-spatial intelligence tested by a cube test correlated with simulated laparoscopic knot-tying skills in surgical novices. Additional mental practice did not improve the overall knot-tying performance. Further studies are therefore required to determine whether mental practice might be beneficial for experienced laparoscopic surgeons or for more complex tasks.

Keywords

Laparoscopic simulation virtual reality (VR)laparoscopic knot-tying task Nissen fundoplication model visual-spatial perception mental imagery mental training

References

Verdaasdonk

Dankelman

Lange

Stassen

: Transfer validity of laparoscopic knot-tying training on a VR simulator to a realistic environment: A randomized controlled trial. Surg Endosc 2008;22:1636–1642.

Peyre

Hagen

: Laparoscopic Nissen fundoplication assessment: Task analysis as a model for the development of a procedural checklist. Surg Endosc 2009;23:1227–1232.

Sanders

Sadoski

van Walsum

: Learning basic surgical skills with mental imagery: Using the simulation centre in the mind. Med Educ 2008;42:607–612.

Immenroth

Burger

Brenner

Nagelschmidt

Eberspacher

Troidl

: Mental training in surgical education: A randomized controlled trial. Ann Surg 2007;245:385–391.

Suinn

: Mental practice in sport psychology: Where have we been, where do we go? Clin Psychol Sci Pract 1997;3:189–207.

Liepmann

Beauducel

Brocke

Amthauer

: “Intelligence-Structure-Test 2000 R” 2. revised edition. Horgrefe, Göttingen 2007.

Taffinder

Smith

Huber

Russell

Darzi

: The effect of a second-generation 3D endoscope on the laparoscopic precision of novices and experienced surgeons. Surg Endosc 1999;13:1087–1092.

Tevaearai

Mueller

von Segesser

: 3-D vision improves performance in a pelvic trainer. Endoscopy 2000;32:464–468.

Schueneman

Pickleman

Hesslein

Freeark

: Neuropsychologic predictors of operative skill among general surgery residents. Surgery 1984;96:288–295.

10.

Risucci

Geiss

Gellman

Pinard

Rosser

: Surgeon-specific factors in the acquisition of laparoscopic surgical skills. Am J Surg 2001;181:289–293.

11.

Eyal

Tendick

: Spatial ability and learning the use of an angled laparoscope in a virtual environment. Stud Health Technol Inform 2001;81:146–152.

12.

Keehner

Tendick

Meng

: Spatial ability, experience, and skill in laparoscopic surgery. Am J Surg 2004;188:71–75.

13.

Wanzel

Hamstra

Caminiti

: Visual-spatial ability correlates with efficiency of hand motion and successful surgical performance. Surgery 2003;134:750–757.

14.

Seymour

Gallagher

Roman

: Virtual reality training improves operating room performance: Results of a randomized, double-blinded study. Ann Surg 2002;236:458–463.

15.

Korndorffer

Jr. Dunne

Sierra

: Simulator training for laparoscopic suturing using performance goals translates to the operating room. J Am Coll Surg 2005;201:23–29.

16.

Hassan

Gerdes

Koller

: Spatial perception predicts laparoscopic skills on virtual reality laparoscopy simulator. Childs Nerv Syst 2007;23:685–689.

17.

Sanders

Sadoski

Bramson

Wiprud

Van Walsum

: Comparing the effects of physical practice and mental imagery rehearsal on learning basic surgical skills by medical students. Am J Obstet Gynecol 2004;191:1811–1814.

18.

Brunner

Korndorffer

Jr Sierra

: Laparoscopic virtual reality training: Are 30 repetitions enough? J Surg Res 2004;122:150–156.

19.

Ahlberg

Kruuna

Leijonmarck

: Is the learning curve for laparoscopic fundoplication determined by the teacher or the pupil? Am J Surg 2005;189:184–189.

Impact of Perceptual Ability and Mental Imagery Training on Simulated Laparoscopic Knot-Tying in Surgical Novices Using a Nissen Fundoplication Model