Aortic root prosthesis with pericardial cusps "Russian conduit": A hydrodynamic experiment

Q4 Medicine

Patologiya krovoobrashcheniya i kardiokhirurgiya Pub Date : 2021-12-28 DOI:10.21688/1681-3472-2021-4-97-105

V. Bazylev, P. Batrakov, D. M. Khadiev, A. Egorov, N. Eremin

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Abstract

Aim. The study aimed to compare the hydrodynamic characteristics and durability of the aortic root prosthesis with pericardial cusps with various options for the formation of commissures.Methods. Nine conduits with pericardial valves were formed according to the technique described by Ozaki. The prostheses were divided into 3 groups of 3 specimens each: group 1 — without additional reinforcing seams on the top of the commissure; group 2 — with an additional U-shaped seam without gasket; and group 3 — with an additional suture with an opposite pericardial gasket. The prostheses were fixed on a stand for hydrodynamic testing of artificial heart valves. The hydrodynamic characteristics of the prostheses were evaluated. The hydrodynamics of the frame biological prosthesis was used for comparison. After assessing the hydrodynamic parameters of the aortic root prostheses, their work durability was tested. Defects of the pericardial cusps were studied macroscopically.Results. Two samples from group 2 were withdrawn from testing ahead of schedule at around 11 × 106 cycles, which is approximately 3.5 months of normal heart function. The other prostheses remained competent and were removed for an examination at 32 × 106 cycles, which is approximately 9.6 months of normal heart function.Conclusion. The hydrodynamics of the aortic root prosthesis with pericardial valves was comparable to the hydrodynamics of the frame biological prosthesis. Additional U-shaped sutures in the commissure area of the pericardial cusps did not increase the functional durability of the aortic root prosthesis with pericardial leaflets and served as additional risk factors for leaflet perforation. Implantation of pericardial leaflets into a vascular graft resulted in a different distribution of dynamic stress compared to the original aortic valve neocuspidisation, which preserved the aortic root.Received 8 July 2021. Revised 30 August 2021. Accepted 7 September 2021.Funding: The study did not have sponsorship.Conflict of interest: Authors declare no conflict of interest.Contribution of the authors Conception and study design: V.V. Bazylev, P.A. Batrakov Data collection and analysis: P.A. Batrakov, D.M. Khadiev, A.A. Egorov, N.A. Eremin Drafting the article: P.A. Batrakov Critical revision of the article: V.V. Bazylev, P.A. Batrakov Final approval of the version to be published: V.V. Bazylev, P.A. Batrakov, D.M. Khadiev, A.A. Egorov, N.A. Eremin

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带心包尖“俄罗斯导管”的主动脉根假体:流体力学实验

的目标。本研究的目的是比较主动脉根部假体的水动力特性和耐久性与不同选择的心包尖的形成相交。根据尾崎所描述的技术，形成了九个带心包瓣膜的导管。将假体分为3组，每组3个标本:1组-连合顶部不加补强缝;组2 -有一个额外的u型接缝，不带垫片;第三组-在相对的心包衬垫上再缝合。将假体固定在支架上进行人工心脏瓣膜的水动力测试。对假体的水动力特性进行了评价。采用框架生物假体进行流体力学比较。在评估了主动脉根部假体的水动力参数后，对其工作耐久性进行了测试。对心包尖部缺损进行了宏观观察。第二组的两个样本在大约11 × 106周期时提前退出测试，这大约是3.5个月的正常心脏功能。其他假体仍能正常工作，并在32 × 106周期(约9.6个月的正常心脏功能)时取出进行检查。带心包瓣膜的主动脉根部假体的流体动力学与框架生物假体的流体动力学相当。在心包尖端的连接区域进行额外的u型缝合并不能增加带心包小叶的主动脉根假体的功能耐久性，而且是小叶穿孔的额外危险因素。将心包小叶植入血管移植物后，动态应力分布与原主动脉瓣新瓣化不同，保留了主动脉根部。收到2021年7月8日。2021年8月30日修订。2021年9月7日接受。经费来源:本研究未获得赞助。利益冲突:作者声明无利益冲突。作者贡献:构思和研究设计:V.V. Bazylev, P.A. Batrakov数据收集和分析:P.A. Batrakov, D.M. Khadiev, A.A. Egorov, N.A. Eremin撰写文章:P.A. Batrakov文章的关键修改:V.V. Bazylev, P.A. Batrakov最终批准发表的版本:V.V. Bazylev, P.A. Batrakov, D.M. Khadiev, A.A. Egorov, N.A. Eremin

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