3D-printed model of simulation for acute thrombus removal in peripheral arteries.

IF 1.4 4区 医学 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS
Tom LE Corvec, Brenda Brancaccio, Edoardo Pasqui, Benoît Decante, Gianmarco de Donato, Yann Gouëffic
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引用次数: 0

Abstract

Background: Surgical training and evaluation of medical devices require simulation models. The aim of this study was to assess a 3D-printed model as a training model for peripheral endovascular procedures, including thromboaspiration in acute limb ischemia (ALI).

Methods: The 3D-simulation model was modeled from an aorta and lower limbs CT scan by segmentation of the arterial light. The 3D simulator was printed in multimaterial with photo-polymerizable resins (Polyjet). The simulator consisted of interchangeable cartridges intended to reproduce the lower limb vasculature. The simulator was connected to a pump to obtain a pulsative flow. A gelled product was positioned in a cartridge just above a stenosis in order to simulate an ALI by in-situ thrombosis. Vascular interventionalists should perform a thrombo-aspiration (Indigo®, Penumbra Inc., Alameda, CA, USA) by crossover in an experimental hybrid room (Discovery®, General Electric, Boston, MA, USA). The analysis of the results was based on the feedback of vascular interventionalists using a Likert Psychometric Scale.

Results: A total of 6 vascular surgeons performed two training sessions in real-life conditions. Access to the target lesion was achieved by cross-over or antegrade approach with an 8 F - 45 cm introducer. An angiogram was used to localize the thrombus. Due to the flow, a part of the thrombus was migrating from femoropopliteal segment to below the knee level. Thromboaspiration was realized by Indigo (Penumbra Inc.) CAT-8 and -6 with separators. The average score out of 5 was 4.5 (±0.55) regarding anatomical reproducibility, 4.3 (±0.82) for navigation, and 4.5 (±0.84) for aspiration. The didactical evaluation showed a score of 4.3 (±0.52) for improving technical skills. The improvement of the confidence score in the simulator was +1.2 (±1.72).

Conclusions: The 3D-simulation model for peripheral endovascular procedures provides a realistic training for thromboaspiration. This model could mimic different types of peripheral arterial pathologies and participate to the vascular interventionalists training.

外周动脉急性血栓清除模拟3d打印模型。
背景:医疗器械的外科培训和评估需要仿真模型。本研究的目的是评估3d打印模型作为外周血管内手术的训练模型,包括急性肢体缺血(ALI)的血栓抽吸。方法:对主动脉和下肢CT扫描图像进行动脉光分割,建立三维仿真模型。三维模拟器是用多材料光聚合树脂(Polyjet)打印的。模拟器由可互换的墨盒组成,旨在重现下肢血管系统。模拟器连接到泵上以获得脉动流量。凝胶产品被放置在狭窄上方的药筒中,通过原位血栓形成来模拟ALI。血管介入医师应在实验混合室(Discovery®,General Electric, Boston, MA, USA)中通过交叉进行血栓穿刺(Indigo®,Penumbra Inc., Alameda, CA, USA)。结果的分析是基于血管介入医师使用李克特心理测量量表的反馈。结果:共有6名血管外科医生在现实条件下进行了两次训练。通过交叉或顺行入路与8f - 45厘米的引入器进入目标病变。血管造影用于定位血栓。由于血流,一部分血栓从股腘段迁移到膝关节以下。使用Indigo (Penumbra Inc.) CAT-8和-6分离器实现血栓抽吸。解剖再现性的平均得分为4.5(±0.55)分,导航性的平均得分为4.3(±0.82)分,误吸性的平均得分为4.5(±0.84)分。教学评价在技术技能提高方面得分为4.3分(±0.52分)。在模拟器中的置信度得分提高了+1.2(±1.72)。结论:周围血管内手术的3d模拟模型为血栓抽吸提供了现实的训练。该模型可以模拟不同类型的外周动脉病变,并参与血管介入医师的培训。
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来源期刊
CiteScore
2.50
自引率
7.10%
发文量
204
审稿时长
4-8 weeks
期刊介绍: The Journal of Cardiovascular Surgery publishes scientific papers on cardiac, thoracic and vascular surgery. Manuscripts may be submitted in the form of editorials, original articles, review articles, case reports, therapeutical notes, special articles and letters to the Editor. Manuscripts are expected to comply with the instructions to authors which conform to the Uniform Requirements for Manuscripts Submitted to Biomedical Editors by the International Committee of Medical Journal Editors (www.icmje.org). Articles not conforming to international standards will not be considered for acceptance.
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