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支持临床决策的患者特异性有限元模型:经皮肺动脉瓣植入案例研究的经验教训。

Patient-specific finite element models to support clinical decisions: A lesson learnt from a case study of percutaneous pulmonary valve implantation.

作者信息

Bosi Giorgia M, Capelli Claudio, Khambadkone Sachin, Taylor Andrew M, Schievano Silvia

机构信息

UCL Institute of Cardiovascular Science & Great Ormond Street Hospital for Children, London, United Kingdom.

出版信息

Catheter Cardiovasc Interv. 2015 Nov 15;86(6):1120-30. doi: 10.1002/ccd.25944. Epub 2015 Apr 9.

Abstract

OBJECTIVES AND BACKGROUND

Patient-specific finite element (FE) simulations were used to assess different transcatheter valve devices and help select the most appropriate treatment strategy for a patient (17-year-old male) with borderline dimensions for Melody® percutaneous pulmonary valve implantation (PPVI).

METHODS AND RESULTS

Patient-specific implantation site morphology was derived from cardiovascular magnetic resonance (CMR) images along with the implantation site mechanical behavior by coupling systolic/diastolic dimensions and the pressure gradient in a linear elastic model, and iterative tuning. In this way, the model accounted for the mechanical response not only of the arterial wall, but also of the surrounding tissue. Four stents (2 balloon-expandable including prestenting and 2 self-expandable) were virtually implanted and the stent final configuration, anchoring, migration forces, arterial wall stresses, paravalvular regurgitation, and device mechanical performance were evaluated. A Sapien29 device with prestenting was indicated as the optimal approach for this specific patient as it had a fully open valve, safe anchoring along the entire circumference, low risk of paravalvular leak, and arterial rupture. However, at the time of the PPVI procedure, after balloon sizing, device implantation was suspended due to perceived high risk of device embolization.

CONCLUSIONS

FE analysis allows a comparison between different treatment scenarios to add information to the clinical decision making process. However, further studies are required to fully predict patient-specific response to stenting and therefore true clinical outcomes.

摘要

目的与背景

采用患者特异性有限元(FE)模拟来评估不同的经导管瓣膜装置,并帮助为一名(17岁男性)Melody®经皮肺动脉瓣植入术(PPVI)尺寸临界的患者选择最合适的治疗策略。

方法与结果

通过心血管磁共振(CMR)图像获取患者特异性植入部位形态,并通过在线性弹性模型中耦合收缩/舒张尺寸和压力梯度以及迭代调整来获得植入部位的力学行为。通过这种方式,该模型不仅考虑了动脉壁的力学响应,还考虑了周围组织的力学响应。虚拟植入了四个支架(2个球囊扩张式,包括预扩张支架和2个自膨胀式),并评估了支架的最终构型、锚定、迁移力、动脉壁应力、瓣周反流和装置的力学性能。带有预扩张支架的Sapien29装置被认为是该特定患者的最佳方法,因为它具有完全打开的瓣膜、沿整个圆周的安全锚定、瓣周漏的低风险和动脉破裂风险。然而,在PPVI手术时,球囊扩张后,由于认为装置栓塞风险高,装置植入被暂停。

结论

有限元分析允许在不同治疗方案之间进行比较,为临床决策过程提供更多信息。然而,需要进一步研究以充分预测患者对支架植入的特异性反应,从而预测真正的临床结果。

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