Effectiveness of a new 3D printed simulator for mitral transcatheter edge-to-edge repair in enhancing the confidence and procedural skills of the operator.

IF 3.2 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Angel Babu, Michele Bertolini, Michael Mullen, Andrew Cook, Aigerim Mullen, Claudio Capelli
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Abstract

Background: . Mitral transcatheter edge-to-edge repair (m-TEER) is a minimally invasive procedure for treating mitral regurgitation (MR). m-TEER is a highly technical procedure, and a steep learning curve needs to be overcome for operators to ensure optimal patient outcomes and minimise procedural complications. Training via online simulation and observation of procedures is not sufficient to establish operator confidence; thus, advanced hands-on training modalities need to be explored and developed.

Methods: . In this study, a novel anatomical simulator for m-TEER training was evaluated in comparison to a standard model. The proposed simulator resembled the anatomical features of the right and left atrium, left ventricle and mitral valve apparatus. Participants in the questionnaire (n = 18) were recruited across 4 centres in London with (n = 8) and without (n = 10) prior experience in m-TEER. Participants were asked to simulate procedures on both an idealised, routinely used simulator and the newly proposed anatomical model. The questionnaire was designed to assess (i) participants' confidence before and after training and (ii) the realism of the model in the context of the m-TEER procedure. The results of the questionnaires were collected, and statistical analysis (t-test) was performed.

Results: . Both models were equally beneficial in increasing operator confidence before and after the simulation of the intervention (P = 0.43). However, increased confidence after training with the anatomical model was recorded (P = 0.02). Participants with prior experience with m-TEER therapy were significantly more confident about the procedure after training with the anatomical model than participants who had no prior experience (P = 0.002). On average, all participants thought that the anatomical model was effective as a training simulator (P = 0.013) and should be integrated into routine training (P = 0.015)). Participants with experience thought that the anatomical model was more effective at reproducing the m-TEER procedure than the idealised model (P = 0.03).

Conclusions: . This study showed how a more realistic simulator can be used to improve the effectiveness of m-TEER procedural training. Such pilot results suggest planning future and large investigations to evaluate improvements in clinical practice.

新型二尖瓣经导管边缘对边缘修补术 3D 打印模拟器在增强操作者信心和程序技能方面的效果。
背景: .二尖瓣经导管边缘到边缘修补术(m-TEER)是一种治疗二尖瓣反流(MR)的微创手术。m-TEER是一种技术性很强的手术,操作者需要克服陡峭的学习曲线,以确保最佳的患者预后并将手术并发症降至最低。通过在线模拟和观察手术过程进行培训不足以建立操作者的信心;因此,需要探索和开发先进的实践培训模式。本研究对用于 m-TEER 培训的新型解剖模拟器与标准模型进行了对比评估。该模拟器与左右心房、左心室和二尖瓣器的解剖特征相似。调查问卷的参与者(n = 18)是在伦敦的 4 个中心招募的,其中有(n = 8)和无(n = 10)m-TEER 经验者。参与者被要求在理想化、常规使用的模拟器和新提出的解剖模型上模拟手术过程。问卷旨在评估 (i) 培训前后参与者的信心和 (ii) 模型在 m-TEER 过程中的真实性。收集了问卷结果,并进行了统计分析(t 检验)。在模拟干预前后,两种模型在增强操作者信心方面的作用相同(P = 0.43)。不过,使用解剖模型进行培训后,操作者的信心有所增强(P = 0.02)。有过 m-TEER 治疗经验的参与者在接受解剖模型培训后对手术的信心明显高于没有经验的参与者(P = 0.002)。平均而言,所有参与者都认为解剖模型作为训练模拟器是有效的(P = 0.013),并应纳入常规训练(P = 0.015)。有经验的参与者认为,解剖模型在再现 m-TEER 过程方面比理想化模型更有效(P = 0.03)。这项研究显示了如何利用更逼真的模拟器来提高 m-TEER 程序培训的效果。这些试验结果表明,应规划未来的大型调查,以评估临床实践中的改进。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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