Claudia Fanizzi , Giovanni Carone , Alessandra Rocca , Roberta Ayadi , Veronika Petrenko , Cecilia Casali , Martina Rani , Marta Giachino , Lydia Viviana Falsitta , Enrico Gambatesa , Tommaso Francesco Galbiati , Eleonora Francesca Orena , Irene Tramacere , Nicole Irene Riker , Alessandro Mocca
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To mitigate this risk, augmented and virtual reality have been considered, though their effectiveness is difficult to assess.</p></div><div><h3>Research question</h3><p>The PASSION study seeks to investigate the improvement of manual dexterity following intensive training with neurosurgical simulators and to discern how surgeons' psychometric characteristics may influence their learning process and surgical performance.</p></div><div><h3>Material and methods</h3><p>Seventy-two residents were randomized into the simulation group (SG) and control group (CG). The course spanned five days, commencing with assessment of technical skills in basic procedures within a wet-lab setting on day 1. Over the subsequent core days, the SG engaged in simulated procedures, while the CG carried out routine activities in an OR. On day 5, all residents' technical competencies were evaluated. 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引用次数: 0
摘要
导言外科培训传统上采用学徒模式,学员因经验有限而面临并发症的风险可能会增加。为了降低这种风险,人们考虑采用增强现实和虚拟现实技术,但其效果很难评估。研究问题PASSION研究旨在调查神经外科模拟器强化训练后手部灵活性的改善情况,并了解外科医生的心理测量特征如何影响他们的学习过程和手术表现。材料和方法72名住院医师被随机分为模拟组(SG)和对照组(CG)。课程为期五天,第一天在湿实验室环境中评估基本手术的技术技能。在随后的核心天中,模拟组进行模拟手术,而对照组则在手术室中进行常规活动。第 5 天,对所有住院医师的技术能力进行评估。结果SG在脑肿瘤切除术中的表现优于CG(P< 0.0001)。在为期三天的模拟器训练中,SG 在所有肿瘤切除任务中都表现出了积极的学习曲线(所有 p 值均为 0.05)。讨论和结论利用三维虚拟现实模拟器进行的简短强化训练可提高住院医师在脑肿瘤切除模型中的显微外科熟练程度。模拟器是加快在训神经外科医生学习曲线的可行工具。
Simulation to become a better neurosurgeon. An international prospective controlled trial: The Passion study
Introduction
Surgical training traditionally adheres to the apprenticeship paradigm, potentially exposing trainees to an increased risk of complications stemming from their limited experience. To mitigate this risk, augmented and virtual reality have been considered, though their effectiveness is difficult to assess.
Research question
The PASSION study seeks to investigate the improvement of manual dexterity following intensive training with neurosurgical simulators and to discern how surgeons' psychometric characteristics may influence their learning process and surgical performance.
Material and methods
Seventy-two residents were randomized into the simulation group (SG) and control group (CG). The course spanned five days, commencing with assessment of technical skills in basic procedures within a wet-lab setting on day 1. Over the subsequent core days, the SG engaged in simulated procedures, while the CG carried out routine activities in an OR. On day 5, all residents' technical competencies were evaluated. Psychometric measures of all participants were subjected to analysis.
Results
The SG demonstrated superior performance (p < 0.0001) in the brain tumour removal compared to the CG. Positive learning curves were evident in the SG across the three days of simulator-based training for all tumour removal tasks (all p-values <0.05). No significant differences were noted in other tasks, and no meaningful correlations were observed between performance and any psychometric parameters.
Discussion and conclusion
A brief and intensive training regimen utilizing 3D virtual reality simulators enhances residents' microsurgical proficiency in brain tumour removal models. Simulators emerge as a viable tool to expedite the learning curve of in-training neurosurgeons.
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