Entire Mitral Valve Reconstruction Using Porcine Extracellular Matrix: Adding a Ring Annuloplasty.

IF 1.6 4区医学 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS Cardiovascular Engineering and Technology Pub Date : 2024-08-01 Epub Date: 2024-03-19 DOI:10.1007/s13239-024-00727-0

Johannes H Jedrzejczyk, Stine Krog, Søren N Skov, Karen B Poulsen, Mona Sharghbin, Leila L Benhassen, Sten L Nielsen, J Michael Hasenkam, Marcell J Tjørnild

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Abstract

Purpose: This study investigated the implications of inserting a flexible annuloplasty ring after reconstructing the entire mitral valve in a porcine model using a previously investigated tube graft design made of 2-ply small intestinal submucosa extracellular matrix (CorMatrix®).

Methods: An acute model with eight 80-kg pigs, each acting as its own control, was used. The entire mitral valve was reconstructed with a 2-ply small intestinal submucosa extracellular matrix tube graft (CorMatrix®). Subsequently, a Simulus® flexible ring was inserted. The characterization was based on mitral annular geometry and valvular dynamics with sonomicrometry and echocardiography.

Results: After adding the ring annuloplasty, the in-plane annular dynamics were more constant throughout the cardiac cycle compared to the reconstruction alone. However, the commissure-commissure distance was statistically significantly decreased [35.0 ± 3.4 mm vs. 27.4 ± 1.9 mm, P < 0.001, diff = - 7.6 mm, 95% CI, - 9.8 to (-5.4) mm] after ring insertion, changing the physiological annular D-shape into a circular shape which created folds at the coaptation zone resulting in a central regurgitant jet on color Doppler.

Conclusion: We successfully reconstructed the entire mitral valve using 2-ply small intestinal submucosal extracellular matrix (CorMatrix®) combined with a flexible annuloplasty. The annuloplasty reduced the unphysiological systolic widening previously found with this reconstructive technique. However, the Simulus flex ring changed the physiological annular D-shape into a circular shape and hindered a correct unfolding of the leaflets. Thus, we do not recommend a flexible ring in conjunction with this reconstructive technique; further investigations are needed to discover a more suitable remodelling annuloplasty.

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使用猪细胞外基质重建整个二尖瓣：添加环形瓣环成形术。

目的：本研究探讨了在猪模型中使用以前研究过的由 2 层小肠粘膜细胞外基质（CorMatrix®）制成的管状移植设计重建整个二尖瓣后插入柔性瓣环的意义：方法：使用一个急性模型，该模型由 8 头 80 千克的猪组成，每头猪都是自己的对照组。用 2 层小肠粘膜下细胞外基质管移植（CorMatrix®）重建整个二尖瓣。随后，插入 Simulus® 弹性环。结果：结果：与单独重建相比，加入环形瓣环成形术后，平面内的瓣环动力学在整个心动周期中更加稳定。结果：与单独重建相比，添加环形瓣环成形术后，整个心动周期的平面内瓣膜动态变化更加恒定，但在统计学上，会厌与会厌间的距离明显缩小[35.0 ± 3.4 mm vs. 27.4 ± 1.9 mm, P 结论：我们成功地重建了整个二尖瓣环：我们使用双层小肠粘膜下细胞外基质（CorMatrix®）结合柔性瓣环成形术成功地重建了整个二尖瓣。瓣环成形术减少了以前使用这种重建技术时发现的非生理收缩期增宽。然而，Simulus 柔性瓣环将生理性的 D 形瓣环变成了圆形，阻碍了瓣叶的正确展开。因此，我们不建议将柔性环与这种重建技术结合使用；还需要进一步研究，以发现更合适的重塑瓣环成形术。

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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来源期刊

Cardiovascular Engineering and Technology Engineering-Biomedical Engineering

CiteScore

4.00

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0.00%

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期刊介绍： Cardiovascular Engineering and Technology is a journal publishing the spectrum of basic to translational research in all aspects of cardiovascular physiology and medical treatment. It is the forum for academic and industrial investigators to disseminate research that utilizes engineering principles and methods to advance fundamental knowledge and technological solutions related to the cardiovascular system. Manuscripts spanning from subcellular to systems level topics are invited, including but not limited to implantable medical devices, hemodynamics and tissue biomechanics, functional imaging, surgical devices, electrophysiology, tissue engineering and regenerative medicine, diagnostic instruments, transport and delivery of biologics, and sensors. In addition to manuscripts describing the original publication of research, manuscripts reviewing developments in these topics or their state-of-art are also invited.