Development and Validation of a Novel and Cost-Effective Animal Tissue Model for Training Transurethral Resection of the Prostate

Residency Surgical BPH Training Paradigms from MIST to HOLEP

PURPOSE OF REVIEW

Benign prostatic hyperplasia (BPH) is a common medical condition of older men that often requires medical or surgical therapy. Surgical options for BPH have grown exponentially over the last two decades. The numerous options and/or lack of access to them can make it challenging for new trainees to gain proficiency. We examine the literature for available BPH surgical simulators, learning curves, and training pathways.

RECENT FINDINGS

Each BPH surgical therapy has a learning curve which must be overcome. There is an abundance of TURP simulators which have shown face, content, and construct validity in the literature. Similarly, laser therapies have validated simulators. Newer technologies do have available simulators, but they have not been validated. There are strategies to improve learning and outcomes, such as having a structured training program. Simulators are available for BPH surgical procedures and some have been implemented in urology residencies. It is likely that such simulation may make urologists more facile on their learning curves for newer technologies. Further studies are needed. Future directions may include integration of simulator technology into training pathways that include surgical observation and proctorship.

Development and use of low-fidelity, low-cost, animal tissue-based simulators for surgical training during the Covid-19 pandemic

Background The Covid-19 pandemic severely affected surgical training as the number of surgeries being done was reduced to a bare minimum. Teaching and training of clinical skills on a simulator are desirable as they may have an even larger role during the Covid-19 pandemic. Commercially available simulators with optimum fidelity are costly and may be difficult to sustain because of their recurring cost. The development of low-cost simulators with optimum fidelity is the need of the hour. Methods We developed animal tissue-based simulators for imparting skills training to surgical residents on some basic and advanced general surgical procedures. Porcine tissue and locally available materials were used to prepare these models. The models were pilot-tested. Standard operating procedures were developed for each skill that was shared with the participants well before the 'hands-on' exercise. An online pre-test was conducted. The training was then imparted on these models under faculty guidance adhering to Covid-19-appropriate behaviour. This was followed by a post-test and participant feedback. The entire exercise was paperless. Results Sixty residents were trained in 10 sessions. Most of the participants were men (44; 73%). The mean pre-test and post-test scores were 40.92 (standard deviation [SD] 6.27) and 42.67, respectively (SD 4.06). Paired sample t-test suggested a significant improvement in the post-test score (p<0.001). The activity and the models were well appreciated by the residents. Conclusion The animal tissue-based indigenous models are easy to prepare, cost-effective and provide optimum fidelity for skill training of surgical residents. In addition to skill acquisition, training on such modules may alleviate the stress and anxiety of the residents associated with the loss of surgical training during a time-bound residency period.

Simulation training in transurethral resection/laser vaporization of the prostate; evidence from a systematic review by the European Section of Uro-Technology

PURPOSE

Transurethral resection (TURP) and photoselective vaporization of the prostate (PVP) constitute established surgical options to treat benign prostate hyperplasia. We investigated the current literature for simulators that could be used as a tool for teaching urologists alone or within the boundaries of a course or a curriculum.

METHODS

A literature search was performed using PubMed, Scopus, EMBASE, and Cochrane Central Register of Controlled Trials-CENTRAL. Search terms included: Simulat*, train*, curricull*, transurethral, TUR*, vaporesect*, laser. The efficacy of different simulators and the impact of different devices, curricula and courses in training and trainee learning curves were the primary endpoints.

RESULTS

Thirty-one studies are selected and presented. Validated virtual reality TURP simulators are the UW VR, PelvicVision, Uro-Trainer, and TURPsim™. Validated synthetic TURP models are Dr. K. Forke's TURP trainer, Bristol TURP trainer, different tissue prostate models, and 3D-printed phantoms. The Myo Sim PVP and the GreenLightTM are sufficiently validated PVP simulators. Several TURP and PVP training curricula have been developed and judged as applicable. Finally, the TURP modules of the European Urology Residents Education Programme (EUREP) Hands-on Training course and the Urology Simulation Bootcamp Course (USBC) are the most basic annual TURP courses identified in the international literature.

CONCLUSIONS

Simulators and courses or curricula are valuable learning and training TURP/PVP tools. The existent models seem efficient, are not always adequately evaluated and accepted. As part of training curricula and training courses, the use of training simulators can significantly improve quality for young urologists' education and clinical practice.

Objective assessment of surgical operative performance by observational clinical human reliability analysis (OCHRA): a systematic review

BACKGROUND

Both morbidity and mortality data (MMD) and learning curves (LCs) do not provide information on the nature of intraoperative errors and their mechanisms when these adversely impact on patient outcome. OCHRA was developed specifically to address the unmet surgical need for an objective assessment technique of the quality of technical execution of operations at individual operator level. The aim of this systematic review was to review of OCHRA as a method of objective assessment of surgical operative performance.

METHODS

Systematic review based on searching 4 databases for articles published from January 1998 to January 2019. The review complies with Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) guidelines and includes original publications on surgical task performance based on technical errors during operations across several surgical specialties.

RESULTS

Only 26 published studies met the search criteria, indicating that the uptake of OCHRA during the study period has been low. In 31% of reported studies, the operations were performed by fully qualified consultant/attending surgeons and by surgical trainees in 69% in approved training programs. OCHRA identified 7869 consequential errors (CE) during the conduct of 719 clinical operations (mean = 11 CEs). It also identified 'hazard zones' of operations and proficiency-gain curves (P-GCs) that confirm attainment of persistent competent execution of specific operations by individual trainee surgeons. P-GCs are both surgeon and operation specific.

CONCLUSIONS

Increased OCHRA use has the potential to improve patient outcome after surgery, but this is a contingent progress towards automatic assessment of unedited videos of operations. The low uptake of OCHRA is attributed to its labor-intensive nature involving human factors (cognitive engineering) expertise. Aside from faster and more objective peer-based assessment, this development should accelerate increased clinical uptake and use of the technique in both routine surgical practice and surgical training.

TUR-P phantom for resident surgical training: food-based design as a human mimicking model of the prostate

PURPOSE

This study would like to develop a novel model similar to human prostate in terms of its texture profile, sensation upon resection, and anatomical hallmarks for resident transurethral resection of the prostate (TUR-P) training.

METHODS

Ten phantom designs were proposed, using broadly available ingredients and a homemade protocol. Three steps of evaluation and development were done: objective measurement measuring texture profile (e.g. hardness, elasticity, cohesiveness/consistency, and adhesiveness/stickiness) using TA-XT2i Texture Analyzer (Llyod Instruments, Ametek Inc) to compare the designs with human prostate, finding the most similar design to prostate; expert consensus by a panel of urologist/senior residents comparing the simulation of TUR-P on the selected design with pre-existing control phantom; and anatomical design development using 3D printing for molding.

RESULTS

Texture profile analysis for mean hardness, elasticity, cohesiveness/consistency, and adhesiveness/stickiness of human prostate was 3753.4 ± 673.4, 85 ± 1.9, 0.7 ± 0.03, and 0, respectively, and design IX was the most similar to human prostate (3660.7 ± 465.6, 87.0 ± 2.5, 0.6 ± 0.05, 0). Furthermore, expert consensus showed superiority of design IX compared with pre-existing control phantom (16.95 ± 1.36 vs 8.86 ± 3.10; P < 0.001). Most of the respondents agreed that the texture, consistency, and phantom ability to mimic human prostate upon resection were similar with human prostate, though hallmarks of the prostate e.g. veromontanum, and lobes were lacking. We used these feedbacks to develop a mold, designed to produce these important anatomical hallmarks.

CONCLUSION

This study developed a cost-effective prostate model from a food-based design that is similar to human prostate in terms of its texture and sensation upon TUR-P resection provided with important anatomical hallmarks.