二尖瓣后叶补片增强后的力学特性

Mitral valve mechanics following posterior leaflet patch augmentation.

作者信息

Rahmani Azadeh, Rasmussen Ann Q, Honge Jesper L, Ostli Bjorn, Levine Robert A, Hagège Albert, Nygaard Hans, Nielsen Sten L, Jensen Morten O

机构信息

Department of Engineering, University of Aarhus, Aarhus, Denmark.

出版信息

J Heart Valve Dis. 2013 Jan;22(1):28-35.

PMID:23610985

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3644588/

Abstract

BACKGROUND AND AIM OF THE STUDY

Attention towards the optimization of mitral valve repair methods is increasing. Patch augmentation is one strategy used to treat functional ischemic mitral regurgitation (FIMR). The study aim was to investigate the force balance changes in specific chordae tendineae emanating from the posterior papillary muscle in a FIMR-simulated valve, following posterior leaflet patch augmentation.

METHODS

Mitral valves were obtained from 12 pigs (body weight 80 kg). An in vitro test set-up simulating the left ventricle was used to hold the valves. The left ventricular pressure was regulated with water to simulate different static pressures during valve closure. A standardized oval pericardial patch (17 x 29 mm) was introduced into the posterior leaflet from mid P2 to the end of the P3 scallop. Dedicated miniature transducers were used to record the forces exerted on the chordae tendineae. Data were acquired before and after 12 mm posterior and 5 mm apical posterior papillary muscle displacement to simulate the effect from one of the main contributors of FIMR, before and after patch augmentation.

RESULTS

The effect of displacing the posterior papillary muscle induced tethering on the intermediate chordae tendineae to the posterior leaflet, and resulted in a 39.8% force increase (p = 0.014). Posterior leaflet patch augmentation of the FIMR valve induced a 31.1% force decrease (p = 0.007). There was no difference in force between the healthy and the repaired valve simulations (p = 0.773).

CONCLUSION

Posterior leaflet patch augmentation significantly reduced the forces exerted on the intermediate chordae tendineae from the posterior papillary muscle following FIMR simulation. As changes in chordal tension lead to a redistribution of the total stress exerted on the valve, patch augmentation may have an adverse long-term influence on mitral valve function and remodeling.

摘要

研究背景与目的

对二尖瓣修复方法优化的关注度日益增加。补片增强是用于治疗功能性缺血性二尖瓣反流（FIMR）的一种策略。本研究的目的是调查在模拟FIMR的瓣膜中，后叶补片增强后，源自后乳头肌的特定腱索的力平衡变化。

方法

从12头猪（体重80千克）获取二尖瓣。使用模拟左心室的体外测试装置固定瓣膜。用水调节左心室压力，以模拟瓣膜关闭期间的不同静态压力。将标准化椭圆形心包补片（17×29毫米）从P2中点至P3扇贝末端引入后叶。使用专用微型传感器记录施加在腱索上的力。在模拟FIMR的主要促成因素之一的后乳头肌向后移位12毫米和向后上移位5毫米前后，以及补片增强前后采集数据。

结果

后乳头肌移位对后叶中间腱索产生牵拉作用，导致力增加39.8%（p = 0.014）。FIMR瓣膜的后叶补片增强导致力降低31.1%（p = 0.007）。健康瓣膜模拟和修复后瓣膜模拟之间的力无差异（p = 0.773）。

结论

在模拟FIMR后，后叶补片增强显著降低了后乳头肌施加在中间腱索上的力。由于腱索张力的变化会导致施加在瓣膜上的总应力重新分布，补片增强可能对二尖瓣功能和重塑产生长期不良影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd53/3644588/a1722dc95b5f/nihms453938f1.jpg

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二尖瓣后叶补片增强后的力学特性

Mitral valve mechanics following posterior leaflet patch augmentation.

作者信息

机构信息

出版信息

BACKGROUND AND AIM OF THE STUDY

METHODS

RESULTS

CONCLUSION

研究背景与目的

方法

结果

结论

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