Biomechanics and clinical outcomes of various conduit configurations in valve sparing aortic root replacement.

IF 3.3 2区 医学 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS
Annals of cardiothoracic surgery Pub Date : 2023-07-31 Epub Date: 2023-07-28 DOI:10.21037/acs-2023-avs2-0068
Yuanjia Zhu, Matthew H Park, Pearly K Pandya, Charles J Stark, Danielle M Mullis, Sabrina K Walsh, Joo Young Kim, Catherine A Wu, Basil M Baccouche, Seung Hyun Lee, Abakar S Baraka, Hyunchel Joo, Shin Yajima, Stefan Elde, Y Joseph Woo
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引用次数: 0

Abstract

Background: Several conduit configurations, such as straight graft (SG), Valsalva graft (VG), anticommissural plication (ACP), and the Stanford modification (SMOD) technique, have been described for the valve-sparing aortic root replacement (VSARR) procedure. Prior ex vivo studies have evaluated the impact of conduit configurations on root biomechanics, but the mock coronary artery circuits used could not replicate the physical properties of native coronary arteries. Moreover, the individual leaflet's biomechanics, including the fluttering phenomenon, were unclear.

Methods: Porcine aortic roots with coronary arteries were explanted (n=5) and underwent VSARR using SG, VG, ACP, and SMOD for evaluation in an ex vivo left heart flow loop simulator. Additionally, 762 patients who underwent VSARR from 1993 through 2022 at our center were retrospectively reviewed. Analysis of variance was performed to evaluate differences between different conduit configurations, with post hoc Tukey's correction for pairwise testing.

Results: SG demonstrated lower rapid leaflet opening velocity compared with VG (P=0.001) and SMOD (P=0.045) in the left coronary cusp (LCC), lower rapid leaflet closing velocity compared with VG (P=0.04) in the right coronary cusp (RCC), and lower relative opening force compared with ACP (P=0.04) in the RCC. The flutter frequency was lower in baseline compared with VG (P=0.02) and in VG compared with ACP (P=0.03) in the LCC. Left coronary artery mean flow was higher in SG compared with SMOD (P=0.02) and ACP (P=0.05). Clinically, operations using SG compared with sinus-containing graft was associated with shorter aortic cross-clamp and cardiopulmonary bypass time (P<0.001, <0.001).

Conclusions: SG demonstrated hemodynamics and biomechanics most closely recapitulating those from the native root with significantly shorter intraoperative times compared with repair using sinus-containing graft. Future in vivo validation studies as well as correlation with comprehensive, comparative clinical study outcomes may provide additional invaluable insights regarding strategies to further enhance repair durability.

Abstract Image

Abstract Image

Abstract Image

主动脉根部瓣膜置换术中各种导管配置的生物力学和临床效果。
背景:在保瓣主动脉根部置换术(VSARR)中,已经描述了几种导管配置,如直移植(SG)、瓦尔萨尔瓦移植(VG)、反滑膜植入(ACP)和斯坦福改良(SMOD)技术。之前的体外研究已经评估了导管配置对主动脉根部生物力学的影响,但所使用的模拟冠状动脉回路无法复制原生冠状动脉的物理特性。此外,单个小叶的生物力学(包括扑动现象)也不清楚:方法:移植带有冠状动脉的猪主动脉根(n=5),并使用 SG、VG、ACP 和 SMOD 进行 VSARR,以便在体外左心流环模拟器中进行评估。此外,我们还对 1993 年至 2022 年在本中心接受 VSARR 的 762 例患者进行了回顾性研究。进行方差分析以评估不同导管配置之间的差异,并对配对测试进行事后Tukey校正:结果:与VG(P=0.001)和SMOD(P=0.045)相比,SG在左冠状动脉尖(LCC)的快速瓣叶打开速度较低;与VG(P=0.04)相比,SG在右冠状动脉尖(RCC)的快速瓣叶关闭速度较低;与ACP(P=0.04)相比,SG在RCC的相对打开力较低。与 VG(P=0.02)和 VG 与 ACP(P=0.03)相比,LCC 的基线扑动频率较低。与 SMOD(P=0.02)和 ACP(P=0.05)相比,SG 的左冠状动脉平均流量更高。在临床上,使用 SG 与含窦移植物相比,主动脉交叉钳夹和心肺旁路时间更短(PConclusions:与使用含窦移植物进行修复相比,SG 的血流动力学和生物力学最接近原生根,术中时间明显更短。未来的体内验证研究以及与全面的临床比较研究结果的相关性可能会为进一步提高修复耐久性的策略提供更多宝贵的见解。
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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CiteScore
4.60
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0.00%
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58
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