Urology residents training in laparoscopic surgery. Development of a virtual reality model

J L Gutiérrez-Baños; R Ballestero-Diego; D Truan-Cacho; C Aguilera-Tubet; A Villanueva-Peña; J C Manuel-Palazuelos

doi:10.1016/j.acuro.2015.04.006

Urology residents training in laparoscopic surgery. Development of a virtual reality model

Actas Urol Esp. 2015 Nov;39(9):564-72. doi: 10.1016/j.acuro.2015.04.006. Epub 2015 Jun 9.

[Article in English, Spanish]

Authors

J L Gutiérrez-Baños¹, R Ballestero-Diego², D Truan-Cacho², C Aguilera-Tubet², A Villanueva-Peña³, J C Manuel-Palazuelos⁴

Affiliations

¹ Servicio de Urología, Hospital Universitario Valdecilla , Santander, España; Instructor Hospital Virtual Valdecilla, Santander, España. Electronic address: urogbj@humv.es.
² Servicio de Urología, Hospital Universitario Valdecilla , Santander, España; Instructor Hospital Virtual Valdecilla, Santander, España.
³ Servicio de Urología, Hospital Comarcal de Laredo , Santander, España; Instructor Hospital Virtual Valdecilla, Santander, España.
⁴ Servicio de Cirugía General, Hospital Universitario Valdecilla , Santander, España; Instructor Hospital Virtual Valdecilla, Santander, España.

PMID: 26068072
DOI: 10.1016/j.acuro.2015.04.006

Abstract

Introduction: The training and learning of residents in laparoscopic surgery has legal, financial and technological limitations. Simulation is an essential tool in the training of residents as a supplement to their training in laparoscopic surgery. The training should be structured in an appropriate environment, with previously established and clear objectives, taught by professionals with clinical and teaching experience in simulation. The training should be conducted with realistic models using animals and ex-vivo tissue from animals. It is essential to incorporate mechanisms to assess the objectives during the residents' training progress.

Objective: We present the training model for laparoscopic surgery for urology residents at the University Hospital Valdecilla. The training is conducted at the Virtual Hospital Valdecilla, which is associated with the Center for Medical Simulation in Boston and is accredited by the American College of Surgeons.

Material and method: The model is designed in 3 blocks, basic for R1, intermediate for R2-3 and advanced for R4-5, with 9 training modules. The training is conducted in 4-hour sessions for 4 afternoons, for 3 weeks per year of residence. Residents therefore perform 240 hours of simulated laparoscopic training by the end of the course. For each module, we use structured objective assessments to measure each resident's training progress.

Results: Since 2003, 9 urology residents have been trained, in addition to the 5 who are currently in training. The model has undergone changes according to the needs expressed in the student feedback. The acquisition of skills in a virtual reality model has enabled the safe transfer of those skills to actual practice.

Conclusions: A laparoscopic surgery training program designed in structured blocks and with progressive complexity provides appropriate training for transferring the skills acquired using this model to an actual scenario while maintaining patient safety.

Keywords: Entrenamiento; Laparoscopia; Laparoscopy; Realidad virtual; Simulación; Simulation; Training; Virtual reality.

MeSH terms

Animals
Computer Simulation*
Curriculum
Internship and Residency / methods*
Laparoscopy / education*
Simulation Training*
Swine
Urology / education*