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经导管主动脉瓣置换术(TAVR)中瓣中瓣生物瓣膜破裂:从实验台到临床应用

Bioprosthetic Valve Fracture During Valve-in-valve TAVR: Bench to Bedside.

作者信息

Saxon John T, Allen Keith B, Cohen David J, Chhatriwalla Adnan K

机构信息

Saint Luke's Mid America Heart InstituteKansas City, MO, USA.

University of Missouri - Kansas CityKansas City, MO, USA.

出版信息

Interv Cardiol. 2018 Jan;13(1):20-26. doi: 10.15420/icr.2017:29:1.

DOI:10.15420/icr.2017:29:1
PMID:29593832
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5872348/
Abstract

Valve-in-valve (VIV) transcatheter aortic valve replacement (TAVR) has been established as a safe and effective means of treating failed surgical bioprosthetic valves (BPVs) in patients at high risk for complications related to reoperation. Patients who undergo VIV TAVR are at risk of patient-prosthesis mismatch, as the transcatheter heart valve (THV) is implanted within the ring of the existing BPV, limiting full expansion and reducing the maximum achievable effective orifice area of the THV. Importantly, patient-prosthesis mismatch and high residual transvalvular gradients are associated with reduced survival following VIV TAVR. Bioprosthetic valve fracture (BVF) is as a novel technique to address this problem. During BPV, a non-compliant valvuloplasty balloon is positioned within the BPV frame, and a highpressure balloon inflation is performed to fracture the surgical sewing ring of the BPV. This allows for further expansion of the BPV as well as the implanted THV, thus increasing the maximum effective orifice area that can be achieved after VIV TAVR. This review focuses on the current evidence base for BVF to facilitate VIV TAVR, including initial bench testing, procedural technique, clinical experience and future directions.

摘要

瓣中瓣(VIV)经导管主动脉瓣置换术(TAVR)已被确立为治疗手术生物瓣(BPV)功能障碍且再次手术并发症风险高的患者的一种安全有效的方法。接受VIV TAVR的患者存在人工瓣膜与患者不匹配的风险,因为经导管心脏瓣膜(THV)植入在现有BPV的瓣环内,限制了其充分扩张并减小了THV可达到的最大有效瓣口面积。重要的是,人工瓣膜与患者不匹配和高残余跨瓣压差与VIV TAVR术后生存率降低相关。生物瓣破裂(BVF)是解决这一问题的一项新技术。在BPV手术过程中,将一个非顺应性瓣膜成形球囊置于BPV框架内,并进行高压球囊扩张以使BPV的手术缝合环破裂。这使得BPV以及植入的THV能够进一步扩张,从而增加VIV TAVR术后可达到的最大有效瓣口面积。本综述重点关注BVF促进VIV TAVR的当前证据基础,包括初始台架试验、操作技术、临床经验和未来方向。

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