Design, implementation, and evaluation of a novel curriculum to teach transurethral resection of the prostate (TURP): a 3-year experience of urology simulation bootcamp course

Current Standards for Training in Robot-assisted Surgery and Endourology: A Systematic Review

BACKGROUND AND OBJECTIVE

Different training programs have been developed to improve trainee outcomes in urology. However, evidence on the optimal training methodology is sparse. Our aim was to provide a comprehensive description of the training programs available for urological robotic surgery and endourology, assess their validity, and highlight the fundamental elements of future training pathways.

METHODS

We systematically reviewed the literature using PubMed/Medline, Embase, and Web of Science databases. The validity of each training model was assessed. The methodological quality of studies on metrics and curricula was graded using the MERSQI scale. The level of evidence (LoE) and level of recommendation for surgical curricula were awarded using the educational Oxford Centre for Evidence-Based Medicine classification.

KEY FINDINGS AND LIMITATIONS

A total of 75 studies were identified. Many simulators have been developed to aid trainees in mastering skills required for both robotic and endourology procedures, but only four demonstrated predictive validity. For assessment of trainee proficiency, we identified 18 in robotics training and six in endourology training; however, the majority are Likert-type scales. Although proficiency-based progression (PBP) curricula demonstrated superior outcomes to traditional training in preclinical settings, only four of six (67%) in robotics and three of nine (33%) in endourology are PBP-based. Among these, the Fundamentals of Robotic Surgery and the SIMULATE curricula have the highest LoE (level 1b). The lack of a quantitative synthesis is the main limitation of our study.

CONCLUSIONS AND CLINICAL IMPLICATIONS

Training curricula that integrate simulators and PBP methodology have been introduced to standardize trainee outcomes in robotics and endourology. However, evidence regarding their educational impact remains restricted to preclinical studies. Efforts should be made to expand these training programs to different surgical procedures and assess their clinical impact.

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.

The impact of extended reality on surgery: a scoping review

PURPOSE

Extended reality (XR) is defined as a spectrum of technologies that range from purely virtual environments to enhanced real-world environments. In the past two decades, XR-assisted surgery has seen an increase in its use and also in research and development. This scoping review aims to map out the historical trends in these technologies and their future prospects, with an emphasis on the reported outcomes and ethical considerations on the use of these technologies.

METHODS

A systematic search of PubMed, Scopus, and Embase for literature related to XR-assisted surgery and telesurgery was performed using Preferred Reporting Items for Systematic reviews and Meta-Analyses extension for scoping reviews (PRISMA-ScR) guidelines. Primary studies, peer-reviewed articles that described procedures performed by surgeons on human subjects and cadavers, as well as studies describing general surgical education, were included. Non-surgical procedures, bedside procedures, veterinary procedures, procedures performed by medical students, and review articles were excluded. Studies were classified into the following categories: impact on surgery (pre-operative planning and intra-operative navigation/guidance), impact on the patient (pain and anxiety), and impact on the surgeon (surgical training and surgeon confidence).

RESULTS

One hundred and sixty-eight studies were included for analysis. Thirty-one studies investigated the use of XR for pre-operative planning concluded that virtual reality (VR) enhanced the surgeon's spatial awareness of important anatomical landmarks. This leads to shorter operating sessions and decreases surgical insult. Forty-nine studies explored the use of XR for intra-operative planning. They noted that augmented reality (AR) headsets highlight key landmarks, as well as important structures to avoid, which lowers the chance of accidental surgical trauma. Eleven studies investigated patients' pain and noted that VR is able to generate a meditative state. This is beneficial for patients, as it reduces the need for analgesics. Ten studies commented on patient anxiety, suggesting that VR is unsuccessful at altering patients' physiological parameters such as mean arterial blood pressure or cortisol levels. Sixty studies investigated surgical training whilst seven studies suggested that the use of XR-assisted technology increased surgeon confidence.

CONCLUSION

The growth of XR-assisted surgery is driven by advances in hardware and software. Whilst augmented virtuality and mixed reality are underexplored, the use of VR is growing especially in the fields of surgical training and pre-operative planning. Real-time intra-operative guidance is key for surgical precision, which is being supplemented with AR technology. XR-assisted surgery is likely to undertake a greater role in the near future, given the effect of COVID-19 limiting physical presence and the increasing complexity of surgical procedures.

Comparison of Emergency Room Visits and Rehospitalization for Bleeding Complications following Transurethral Procedures for the Treatment of Benign Prostatic Hyperplasia: A Population-Based Retrospective Cohort Study

Background: The postoperative bleeding complications associated with laser surgery of the prostate and transurethral resection of the prostate (TURP) were compared. Methods: We used the Taiwan National Health Insurance Research Database to conduct an observational population-based cohort study. All eligible patients who received transurethral procedures between January 2015 and September 2018 were enrolled. Patients who received laser surgery or TURP were matched at a ratio of 1:1 by using propensity score matching, and the association of these procedures with bleeding events was evaluated. Results: A total of 3302 patients who underwent elective transurethral procedures were included. The multivariable Cox regression analysis revealed that diode laser enucleation of the prostate (DiLEP) resulted in significantly higher emergency room risks within 90 days after surgery due to clot retention than the Monopolar transurethral resection of the prostate (M-TURP) (Hazard Ratio: 1.52; 95% Confidence Interval [CI], 1.06–2.16, p = 0.022). Moreover, GreenLight photovaporization of the prostate (PVP) (0.61; 95% CI, 0.38–1.00 p = 0.050) and thulium laser vaporesection of the prostate (ThuVARP) (0.67; 95% CI, 0.47–0.95, p = 0.024) resulted in significantly fewer rehospitalization due to clot retention than did M-TURP. No significant increase in blood clots were observed in patients using comedications and those with different demographic characteristics and comorbidities. Conclusions: Among the investigated six transurethral procedures for Benign prostatic hyperplasia, PVP and ThuVARP were safer than M-TURP because bleeding events and clot retention were less likely to occur, even in patients receiving anticoagulant or antiplatelet therapy. However, DiLEP and holmium laser enucleation of the prostate (HoLEP) did not result in fewer bleeding events than M-TURP.

Preparatory surgical bootcamp: An effective form of training with a positive impact on self-confidence and procedural skills of the residents

Objectives

To evaluate the impact of a bootcamp for new residents in surgery, in terms of both knowledge and skills improvement and psychological support.

Design

Prospective inclusion of all the 59 new residents in surgery from 2018 to 2020. Analysis of their perception of the training and comparison of the bootcamp and control groups (n = 9, including the residents who could not attend the bootcamp) with respect to the results of their skills evaluations and surgical knowledge.

Setting

A two-day bootcamp is organized every year in October since 2013 at the All'Sims simulation center (University Hospital, Angers, France) just before the beginning of the internship. A subsequent skills evaluation takes place partly in the operating room and partly as an objective structured clinical examination (OSCE).

Participants

New residents from the different surgical specialties and gynecology, after having given their written consent.

Results

Among the 50 residents who attended the bootcamp, knowledge in surgical skills improved by 10% (p<0.001). The median skills score on each OSCE station was at least one point higher in the bootcamp group than in the control group, predominantly in the suturing task (13.9+/-3.0 vs 11.5 +/- 1.6, p = 0.03). The reported usefulness level of the different surgical skills training when evaluated in consideration of daily practice varied from 50% to 95%. Feelings of ease and competency were quite well correlated with the reported usefulness of a given skill, especially since the task was a more generic one.

Conclusion

Preparatory courses are of great interest for all surgical specialties as they improve procedural skills and knowledge as well as self-confidence during the first weeks of a resident's internship. As medical training continues to vary significantly between the different universities, such surgical curricula should be developed at a national level to standardize the surgical level of all new residents.

[Impact of simulation-based training in endourology: A systematic review of the literature]

INTRODUCTION

The impact of simulation on the acquisition of surgical skills as well as their transfer to the operating room is still debated. The objective was to assess these two specific points, focusing on the field of endourology.

METHODS

A systematic review of the literature, following the PRIMA statement, was performed using Medline database through September 2021 without time limit. Studies focusing on the impact of simulators on the acquisition of surgical technical skills as well as their transfer to the operating room in the field of endourology were included. The endourological procedures were: cystoscopy, ureteroscopy, percutaneous nephrolithotomy, endoscopic treatment of benign prostatic hyperplasia, endoscopic bladder resection.

RESULTS

Among the 11,442 publications identified, fifty-two studies were included in the analysis. The majority reported an improvement in procedure time of the requested tasks and dexterity of participants, regardless of the type of simulator and procedure. The level of evidence of included studies was often low. Few studies evaluated the transfer of acquired skills from the simulator to the operating room.

CONCLUSION

This review showed the positive impact of simulation on the acquisition of technical skills in endourology. However, in order to include proficiency-based progression in the curriculum of trainees, some parameters such as the choice of reference simulators, choice of tasks, and method of validation of acquired skills must be validated in a consensual manner to offer a quality training.

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.

Safety and efficacy of TURP vs. laser prostatectomy for the treatment of benign prostatic hyperplasia in multi-morbid and elderly individuals aged ≥ 75

PURPOSE

To compare the safety and durability of transurethral resection of the prostate (TURP) and Laser prostatectomy (LP) among multi-morbid and elderly patients.

METHODS

Using data retrieved from the New York State Department of Health Statewide Planning and Research Cooperative System and the California Office of Statewide Health Planning and Development, we selected cohorts of 1) multi-morbid (Charlson comorbidity index ≥ 3) and 2) elderly (aged ≥ 75) patients with benign prostatic hyperplasia who underwent laser coagulation, vaporization, enucleation, or TURP between January 2005 and December 2016. We assessed the post-operative incidence of hospital readmission and ER visit at 30 days and 90 days, complications at 90 days, and reoperation and the development of urethral stricture at 6 months or longer.

RESULTS

We found 12,815 and 29,806 patients in the multi-morbid and elderly cohort, respectively. Compared to LP, TURP was associated with lower odds of 90-day hospital readmission and ER visit in the multi-morbid cohort (OR 0.92, 95% CI 0.85-1.00) and higher odds in the elderly cohort (OR 1.07, 95% CI 1.01-1.14). The multi-morbid cohort showed lower odds of urinary tract infections (Ref: LP, OR 0.83, 95% CI 0.73-0.93). The elderly cohort showed higher odds of experiencing hematuria (OR 1.28, 95% CI 1.03-1.59) post TURP. TURP was associated with a 19% (95% CI 0.66-1.00) and 20% (95% CI 0.71-0.91) reduced hazard of reoperation at 6 months or longer for multi-morbid and elderly cohorts, respectively.

CONCLUSION

Compared to LP, TURP was associated with higher complication rates for the multi-morbid and elderly cohorts overall but a lower hazard of reoperation, supporting its durability.

The state of TURP through a historical lens

In 1926 Maximilian Stern introduced a new instrument to treat obstructions at the vesical orifice and baptized it resectoscope. With reference to astonishing historical statements about the new instrument and surgical technique made by the pioneers and their critics we will value why transurethral resection of the prostate (TURP) remains the gold standard for most men suffering from lower urinary tract symptoms (LUTS) due to benign prostatic enlargement. TURP is currently challenged by recently introduced new instruments and techniques claiming advantages over TURP. However, TURP offers an excellent balance between high efficacy in symptom relieve and low morbidity along with low costs and favorable long term outcome compared to other treatment options. We will outline these arguments demonstrating that even after a century has elapsed, since its introduction into the urologists armamentarium, TURP continues to stand the passage of time.

Innovations in Urologic Surgical Training

PURPOSE OF REVIEW

This review aims to summarize innovations in urologic surgical training in the past 5 years.

RECENT FINDINGS

Many assessment tools have been developed to objectively evaluate surgical skills and provide structured feedback to urologic trainees. A variety of simulation modalities (i.e., virtual/augmented reality, dry-lab, animal, and cadaver) have been utilized to facilitate the acquisition of surgical skills outside the high-stakes operating room environment. Three-dimensional printing has been used to create high-fidelity, immersive dry-lab models at a reasonable cost. Non-technical skills such as teamwork and decision-making have gained more attention. Structured surgical video review has been shown to improve surgical skills not only for trainees but also for qualified surgeons. Research and development in urologic surgical training has been active in the past 5 years. Despite these advances, there is still an unfulfilled need for a standardized surgical training program covering both technical and non-technical skills.

Feasibility of a telementoring approach as a practical training for transurethral enucleation of the benign prostatic hyperplasia using bipolar energy: a pilot study

Introduction

Telementoring is one of the applications of telemedicine capable of bringing highly experienced surgeons to areas lacking expertise. In the current study, we aimed to assess a novel telementoring application during the learning curve of transurethral enucleation of the prostate using bipolar energy (TUEB).

Material and methods

A telementoring system was developed by our engineering department. This application was used to mentor ten prospective cases of TUEB performed by an expert endourologist (novice to the TUEB). A questionnaire was filled by the operating surgeon and the mentor to provide subjective evaluation of the telementoring system. Finally, the outcomes of these patients were compared to a control group consisting of ten consecutive patients performed by the mentor.

Results

Ten consecutive TUEB were performed using this telementoring application. Delayed and interrupted connection were experienced in two and one patients, respectively; however, their effect was minor, and they did not compromise the safety of the procedure. None of the patients required conversion to conventional transurethral resection of the prostate. Only one patient in our series experienced grade IIIb complication.

Conclusion

The telementoring application for TUEB is promising. It is a simple and low-cost tool that could be a feasible option to ensure patients’ safety during the initial phase of the learning curve without time and locations constraints for both the mentor and the trainee; However, it should be mentioned that telementoring cannot yet replace the traditional surgical training with the mentor and trainee being in the operative room. Further studies are required to confirm the current results

Supplementary Information

The online version contains supplementary material available at 10.1007/s00345-021-03594-9.

Endoscopic surgical simulation using low-fidelity and virtual reality transurethral resection simulators in urology simulation boot camp course: trainees feedback assessment study

OBJECTIVES

The objective of our study was to study trainees' feedback and rating of models for training transurethral resection of bladder lesions (TURBT) and prostate (TURP) during simulation.

METHODS

The study was performed during the ''Transurethral resection (TUR) module" at the boot camp held in 2019. Prior to the course, all trainees were required to evaluate their experience in performing TURBT and TURP procedures. Trainees simulated resection on two different models; low-fidelity tissue model (Samed, GmBH, Dresden, Germany) and virtual reality simulator (TURPMentor, 3D Systems, Littleton, US). Following the completion of the module, trainees completed a questionnaire using a 5-point Likert scale to evaluate their assessment of the models for surgical training.

RESULTS

In total, 174 simulation assessments were performed by 56 trainees (Samed Bladder-40, Prostate-45, TURPMentor Bladder-51, Prostate-37). All trainees reported that they had performed < 50 TUR procedures. The Samed model median scores were for appearance (4/5), texture (5/5), feel (5/5) and conductibility (5/5). The TURPMentor median score was for appearance (4/5), texture and feel (4/5) and conductibility (4/5). The most common criticism of the Samed model was that it failed to mimic bleeding. In contrast, trainees felt that the TURPMentor haptic feedback was inadequate to allow for close resection and did not calibrate movements accurately.

CONCLUSIONS

Our results demonstrate that both forms of simulators (low-fidelity and virtual reality) were rated highly by urology trainees and improve their confidence in performing transurethral resection and in fact complement each other in providing lower tract endoscopic resection simulation.

Global Assessment of Urological Endoscopic Skills (GAUES): development and validation of a novel assessment tool to evaluate endourological skills

OBJECTIVE

To develop and evaluate an assessment tool for endourological skills during simulation including cystoscopy, ureteroscopy (URS) and transurethral resection (TUR) procedures.

METHODS

We designed a Global Assessment of Urological Endoscopic Skills (GAUES) tool, comprised of nine endourology task-specific and two global-rating skills items. The tool was developed through two rounds of the Delphi process. The GAUES tool was used to assess acquisition of URS and TUR skills of novices (Year 2 core surgical trainees, CT2) and intermediate level trainees (residents at the start of the UK higher surgical training programme in Urology, Speciality Trainee Year 3, ST3) at the Urology Simulation Boot Camp (USBC) between 2016 and 2018. Validity was evaluated by comparing scores between trainees with different levels of urological experience. Inter-rater reliability was also assessed.

RESULTS

We evaluated 130 residents, 52% of trainees were at an intermediate stage of training and 39% were novices. In all, 9% of the anonymous forms were missing demographics. The completion rate of the GAUES tool during the USBC for URS and TUR was 85% and 89%, respectively. Our analysis demonstrated a significant difference in all domains between intermediates and novices at assessment in URS, except for one domain more suited to clinical assessment (P = 0.226). There was excellent intraclass correlation (ICC) overall between the two experts' judgements, ICC = 0.841 (95% confidence interval 0.767-0.893; P < 0.001, n = 88).

CONCLUSIONS

We have developed the novel GAUES tool for cystoscopic, URS and TUR skills. Overall, we demonstrated good face, content and construct validity and excellent reliability, suggesting that the GAUES tool can be useful for endourological skills assessment.