计算机模拟有助于预测单纯主动脉瓣反流患者经导管主动脉瓣植入Venus-A后的框架变形:一项回顾性研究。
Computer simulation help predict the frame deformation following a Venus-A transcatheter aortic valve implantation in patients with pure aortic regurgitation: a retrospective study.
作者信息
Yu Feicheng, Chen Songzan, Tian Lili, Hong Xulin, Wang Bei, Wu Lili, Ma Yan, Fu Guosheng
机构信息
Department of Cardiology, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang University, Hangzhou, China.
Ultrasonography Department, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang University, Hangzhou, China.
出版信息
Cardiovasc Diagn Ther. 2024 Aug 31;14(4):478-488. doi: 10.21037/cdt-24-60. Epub 2024 Aug 21.
BACKGROUND
Patient-specific computer simulation of transcatheter aortic valve implantation (TAVI) predicts the interaction between an implanted device and the surrounding anatomy. In this study, we validated the predictive value of computer simulation for the frame deformation following a Venus-A TAVI implant in patients with pure aortic regurgitation (AR). Furthermore, we used the validated computational model to evaluate the anchoring mechanism within the same cohort.
METHODS
This was a retrospective study. FEops HEARTguide technology was used to simulate the virtual implantation of a Venus-A valve model in a patient-specific geometry. The predicted frame deformation was quantitatively compared to the postoperative device deformation at multiple levels. The outward forces acting on the frame were extracted for each patient and the total outward force acting around the aortic annular (AA) and sinotubular junction (STJ) planes were recorded.
RESULTS
Thirty patients were enrolled in the study with 10 in the migration group and 20 in the non-migration group. The dimensions of the simulated and observed frames had good correlations at Dmax (R=0.88), Dmin (R=0.91), perimeter (R=0.92), and area (R=0.92). The predicted outward force acting on the frame at the AA level was comparable between the migration and no-migration groups. The predicted outward force acting on the frame at the STJ level was always significantly higher in the migration group than the no migration group at different bandwidths: 3 mm (P=0.002), 5 mm (P=0.005), 10 mm (P=0.002).
CONCLUSIONS
Patient-specific computer simulation of TAVI accurately predicted frame deformation in Chinese patients with pure AR. The forces at the STJ facilitated stabilization of the device within the aortic root, which might be used as a discriminator to identify patients at risk of device migration prior to intervention.
背景
针对特定患者的经导管主动脉瓣植入术(TAVI)计算机模拟可预测植入装置与周围解剖结构之间的相互作用。在本研究中,我们验证了计算机模拟对单纯主动脉瓣反流(AR)患者植入Venus - A TAVI后框架变形的预测价值。此外,我们使用经过验证的计算模型来评估同一队列中的锚定机制。
方法
这是一项回顾性研究。使用FEops HEARTguide技术在特定患者几何结构中模拟Venus - A瓣膜模型的虚拟植入。将预测的框架变形与术后多个层面的装置变形进行定量比较。提取每位患者作用于框架的向外力,并记录作用于主动脉环(AA)和窦管交界(STJ)平面周围的总向外力。
结果
30例患者纳入研究,其中迁移组10例,非迁移组20例。模拟和观察到的框架尺寸在最大直径(Dmax,R = 0.88)、最小直径(Dmin,R = 0.91)、周长(R = 0.92)和面积(R = 0.92)方面具有良好的相关性。迁移组和非迁移组在AA水平作用于框架的预测向外力相当。在不同带宽下,迁移组在STJ水平作用于框架的预测向外力始终显著高于非迁移组:3 mm(P = 0.002)、5 mm(P = 0.005)、10 mm(P = 0.002)。
结论
针对特定患者的TAVI计算机模拟准确预测了中国单纯AR患者的框架变形。STJ处的力有助于装置在主动脉根部内稳定,这可作为干预前识别装置迁移风险患者的一个判别指标。
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