Ureteroscopy and cystoscopy training: comparison between transparent and non-transparent simulators

Clinical simulation is on the point of having a significant impact on health care education across professional boundaries and in both the undergraduate and postgraduate arenas. The use of simulation spans a spectrum of sophistication, from the simple reproduction of isolated body parts through to complex human interactions portrayed by simulated patients or high-fidelity human patient simulators replicating whole body appearance and variable physiological parameters. After a prolonged gestation, recent advances have made available affordable technologies that permit the reproduction of clinical events with sufficient fidelity to permit the engagement of learners in a realistic and meaningful way. At the same time, reforms in undergraduate and postgraduate education, combined with political and societal pressures, have promoted a safety-conscious culture where simulation provides a means of risk-free learning in complex, critical or rare situations. Furthermore, the importance of team-based and interprofessional approaches to learning and health care can be promoted. However, at the present time the quantity and quality of research in this area of medical education is limited. Such research is needed to enable educators to justify the cost and effort involved in simulation and to confirm the benefit of this mode of learning in terms of the outcomes achieved through this process.

There have been no published data regarding the cost of training surgical residents in the operating room. At the University of Tennessee Medical Center-Knoxville, in addition to resident-performed teaching cases, some cases are performed without the assistance of residents by the same faculty. Sixty-two case categories involving 14,452 cases were compared for operative times alone. In 46 case categories (10,787 procedures), resident operative times were longer than faculty alone. In 16 case categories, resident operating times were shorter than faculty times. The net incremental operative time cost was 2,050 hours between July 1993 and March 1997. Assuming 4 years of operative training for 11 graduating chief residents, the cost per graduating resident was $47,970. Extrapolated to a national annual cost for the 1,014 general surgery residents who completed training in the 1997 academic year, the annual cost of training residents in the operating room is $53 million. This high monetary cost suggests the need for digital skills, selection criteria, the development of training curriculum and resource facilities, the pre-operating room need for suturing and stapling techniques, and perhaps the acquisition of virtual surgery training modules.

This study examines whether technical skills learned on a bench model are transferable to the human cadaver model. Twenty-three first-year residents were randomly assigned to three groups receiving teaching on six procedures. For each procedure, one group received training on a cadaver model, one received training on a bench model, and one learned independently from a prepared text. Following training, all residents were assessed on their ability to perform the six procedures. Repeated measures analysis of variance revealed a significant effect of training modality for both checklist scores (F(2,44) = 3.49, P <0.05) and global scores (F(2,44) = 7.48, P <0.01). Post-hoc tests indicated that both bench and cadaver training were superior to text learning and that bench and cadaver training were equivalent. Training on a bench model transfers well to the human model, suggesting strong potential for transfer to the operating room.