二尖瓣转位：二次二尖瓣反流的离体模型中补片几何形状的优化。

Mitral Valve Translocation: Optimization of Patch Geometry in an Ex Vivo Model of Secondary Mitral Regurgitation.

机构信息

Johns Hopkins School of Medicine, 1800 Orleans Street, Zayed 7107, Baltimore, MD, 21287, USA.

University of Maryland Baltimore School of Medicine, Baltimore, MD, USA.

出版信息

J Cardiovasc Transl Res. 2022 Jun;15(3):666-675. doi: 10.1007/s12265-021-10182-0. Epub 2021 Nov 15.

DOI:10.1007/s12265-021-10182-0

PMID:34782943

Abstract

Optimal translocation patch width for functional mitral regurgitation (FMR) treatment was evaluated in an air-filled ex vivo system. FMR was created in 19 isolated swine hearts by annular dilation and papillary muscle displacement. Frustum-shaped pericardial patches of varying widths (Group 1 = 0.5 cm; Group 2 = 1.0 cm; Group 3 = 1.5 cm) were implanted and imaged via a 3D-structured light scanner. Median leaflet coaptation decreased (P < 0.001) from 5.5 ± 2.0 mm at baseline to 2.4 ± 1.3 mm following FMR creation. Translocation repair increased coaptation length over FMR levels by 2.2 mm in Group 1 (P < 0.001), 4.6 mm in Group 2 (P < 0.001), and 4.7 mm in Group 3 (P < 0.001). After repair, no significant differences were found between groups for annular height, circularity index, tenting height, tenting area, and non-coapting surface area. The supranormal coaptation and minimal valve geometric changes support using a 1.0- or 1.5-cm translocation patch for FMR treatment. Implantation of a 1.0-cm or 1.5-cm circumferential pericardial patch (mitral valve translocation) increases leaflet coaptation length without significantly altering valve geometry.

摘要

在充满空气的离体系统中评估了功能性二尖瓣反流 (FMR) 治疗的最佳瓣环转位补片宽度。通过环形扩张和乳头肌移位在 19 个离体猪心中创建 FMR。采用不同宽度的扇形心包补片（第 1 组=0.5cm；第 2 组=1.0cm；第 3 组=1.5cm）进行植入，并通过 3D 结构光扫描仪进行成像。中位瓣叶对合长度从基线时的 5.5±2.0mm 减少到 FMR 形成后的 2.4±1.3mm（P<0.001）。转位修复在第 1 组中将瓣叶对合长度增加了 2.2mm（P<0.001），在第 2 组中增加了 4.6mm（P<0.001），在第 3 组中增加了 4.7mm（P<0.001），超过了 FMR 水平。修复后，各组之间的瓣环高度、圆度指数、膨出高度、膨出面积和非对合面积均无显著差异。超正常的瓣叶对合和最小的瓣叶几何变化支持使用 1.0cm 或 1.5cm 的转位补片进行 FMR 治疗。植入 1.0cm 或 1.5cm 周长心包补片（二尖瓣转位）可增加瓣叶对合长度，而不会显著改变瓣叶几何形状。

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二尖瓣转位：二次二尖瓣反流的离体模型中补片几何形状的优化。

Mitral Valve Translocation: Optimization of Patch Geometry in an Ex Vivo Model of Secondary Mitral Regurgitation.

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